id	sid	tid	token	lemma	pos
work_wb7rpcpa6nh55k4ay7iayeodqq	1	1	Biodiesel	biodiesel	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	1	2	Production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	3	From	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	4	Algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	5	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	1	6	Overcome	overcome	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	1	7	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	1	8	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	9	Crisis	Crisis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	10	ble	ble	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	11	at	at	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	12	ScienceDirect	ScienceDirect	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	13	HAYATI	HAYATI	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	14	Journal	Journal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	15	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	16	Biosciences	Biosciences	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	17	24	24	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	1	18	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	1	19	2017	2017	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	1	20	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	1	21	163e167	163e167	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	1	22	Contents	Contents	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	23	lists	list	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	1	24	availa	availa	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	25	H	h	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	26	O	o	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	27	S	s	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	28	T	t	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	29	E	e	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	30	D	d	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	31	BY	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	32	HAYATI	HAYATI	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	33	Journal	Journal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	34	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	35	Biosciences	Biosciences	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	36	journal	journal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	37	homepage	homepage	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	38	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	1	39	http://www.journals.elsevier.com/	http://www.journals.elsevier.com/	ADD
work_wb7rpcpa6nh55k4ay7iayeodqq	1	40	hayati	hayati	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	41	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	1	42	journal	journal	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	43	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	1	44	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	45	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	1	46	biosciences	bioscience	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	1	47	Review	Review	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	48	Article	Article	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	49	Biodiesel	Biodiesel	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	50	Production	Production	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	51	From	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	52	Algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	53	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	1	54	Overcome	overcome	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	1	55	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	1	56	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	57	Crisis	Crisis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	58	Suliman	Suliman	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	59	Khan,1	Khan,1	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	60	Rabeea	Rabeea	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	61	Siddique,2	Siddique,2	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	62	Wasim	Wasim	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	63	Sajjad,3	Sajjad,3	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	64	Ghulam	Ghulam	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	65	Nabi,1	Nabi,1	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	66	Khizar	Khizar	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	67	Mian	Mian	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	68	Hayat,4	Hayat,4	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	69	Pengfei	Pengfei	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	70	Duan,5	duan,5	ADD
work_wb7rpcpa6nh55k4ay7iayeodqq	1	71	Lunguang	Lunguang	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	72	Yao5	Yao5	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	73	*	*	NFP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	74	1	1	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	1	75	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	1	76	Key	Key	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	77	Laboratory	Laboratory	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	78	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	79	Aquatic	Aquatic	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	80	Biodiversity	Biodiversity	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	81	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	1	82	Conservation	Conservation	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	83	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	84	Chinese	Chinese	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	85	Academy	Academy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	86	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	87	Sciences	Sciences	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	1	88	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	1	89	Institute	Institute	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	90	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	91	Hydrobiology	Hydrobiology	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	92	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	1	93	Chinese	Chinese	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	94	Academy	Academy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	95	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	1	96	Sciences	Sciences	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	1	97	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	1	98	Wuhan	Wuhan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	99	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	1	100	Hubei	Hubei	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	101	430072	430072	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	1	102	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	1	103	China	China	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	1	104	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	2	1	2	2	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	2	2	Department	Department	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	2	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	2	4	Biomedical	Biomedical	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	2	5	Engineering	Engineering	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	2	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	2	7	Huazhong	Huazhong	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	2	8	University	University	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	2	9	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	2	10	Science	Science	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	2	11	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	2	12	Technology	Technology	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	2	13	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	2	14	Wuhan	Wuhan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	2	15	430074	430074	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	2	16	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	2	17	PR	PR	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	2	18	China	China	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	2	19	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	3	1	3	3	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	3	2	Key	Key	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	3	Laboratory	Laboratory	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	4	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	3	5	Petroleum	Petroleum	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	6	Resources	Resources	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	3	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	3	8	Gansu	Gansu	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	9	Province	Province	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	10	/	/	SYM
work_wb7rpcpa6nh55k4ay7iayeodqq	3	11	Key	Key	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	12	Laboratory	Laboratory	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	13	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	3	14	Petroleum	Petroleum	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	15	Resources	Resources	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	3	16	Research	Research	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	17	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	3	18	Institute	Institute	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	19	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	3	20	Geology	Geology	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	21	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	3	22	Geophysics	Geophysics	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	23	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	3	24	Chinese	Chinese	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	25	Academy	Academy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	26	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	3	27	Sciences	Sciences	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	3	28	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	3	29	Lanzhou	Lanzhou	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	30	730000	730000	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	3	31	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	3	32	PR	PR	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	33	China	China	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	3	34	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	4	1	4	4	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	4	2	MOE	MOE	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	3	Key	Key	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	4	Laboratory	Laboratory	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	5	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	4	6	Cell	Cell	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	7	Activities	Activities	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	4	8	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	4	9	Stress	Stress	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	10	Adaptations	Adaptations	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	4	11	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	4	12	School	School	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	13	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	4	14	Life	Life	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	15	Sciences	Sciences	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	4	16	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	4	17	Lanzhou	Lanzhou	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	18	University	University	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	19	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	4	20	Lanzhou	Lanzhou	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	21	730000	730000	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	4	22	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	4	23	PR	PR	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	24	China	China	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	4	25	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	5	1	5	5	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	5	2	Collaborative	Collaborative	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	3	Innovation	Innovation	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	4	Center	Center	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	5	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	5	6	Water	Water	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	7	Security	Security	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	8	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	5	9	Water	Water	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	10	Source	Source	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	11	Region	Region	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	12	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	5	13	Mid	Mid	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	14	-	-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	5	15	line	line	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	5	16	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	5	17	South	south	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	5	18	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	5	19	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	5	20	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	5	21	North	North	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	22	Diversion	Diversion	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	23	Project	Project	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	24	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	5	25	College	College	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	26	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	5	27	Agricultural	Agricultural	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	28	Engineering	Engineering	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	29	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	5	30	Nanyang	Nanyang	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	31	Normal	Normal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	32	University	University	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	33	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	5	34	Henan	Henan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	35	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	5	36	China	China	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	5	37	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	6	1	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	6	2	r	r	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	6	3	t	t	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	4	i	i	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	5	c	c	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	6	l	l	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	7	e	e	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	6	8	i	i	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	6	9	n	n	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	6	10	f	f	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	6	11	o	o	XX
work_wb7rpcpa6nh55k4ay7iayeodqq	6	12	Article	article	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	13	history	history	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	14	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	6	15	Received	receive	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	16	14	14	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	6	17	January	January	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	6	18	2017	2017	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	6	19	Received	receive	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	6	20	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	21	revised	revise	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	22	form	form	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	23	9	9	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	6	24	October	October	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	6	25	2017	2017	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	6	26	Accepted	accept	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	6	27	30	30	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	6	28	October	October	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	6	29	2017	2017	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	6	30	Available	available	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	6	31	online	online	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	6	32	22	22	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	6	33	November	November	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	6	34	2017	2017	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	6	35	KEYWORDS	KEYWORDS	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	6	36	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	6	37	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	38	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	6	39	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	40	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	6	41	fossil	fossil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	42	fuel	fuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	43	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	6	44	gene	gene	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	45	*	*	NFP
work_wb7rpcpa6nh55k4ay7iayeodqq	6	46	Corresponding	Corresponding	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	6	47	author	author	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	6	48	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	7	1	Peer	peer	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	7	2	review	review	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	7	3	under	under	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	7	4	responsibility	responsibility	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	7	5	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	7	6	Institut	Institut	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	7	7	Perta	Perta	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	7	8	https://doi.org/10.1016/j.hjb.2017.10.003	https://doi.org/10.1016/j.hjb.2017.10.003	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	7	9	1978	1978	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	7	10	-	-	SYM
work_wb7rpcpa6nh55k4ay7iayeodqq	7	11	3019	3019	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	7	12	/	/	SYM
work_wb7rpcpa6nh55k4ay7iayeodqq	7	13	Copyright	copyright	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	7	14	©	©	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	7	15	2017	2017	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	7	16	Institut	Institut	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	7	17	Pertanian	Pertanian	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	7	18	Bogo	Bogo	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	7	19	creativecommons.org/licenses/by-nc-nd/4.0/	creativecommons.org/licenses/by-nc-nd/4.0/	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	7	20	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	7	21	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	8	1	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	8	2	b	b	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	8	3	s	s	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	8	4	t	t	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	8	5	r	r	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	8	6	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	8	7	c	c	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	8	8	t	t	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	8	9	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	8	10	use	use	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	8	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	8	12	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	8	13	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	8	14	has	have	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	8	15	reached	reach	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	8	16	at	at	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	8	17	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	8	18	level	level	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	8	19	that	that	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	8	20	whole	whole	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	8	21	world	world	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	8	22	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	8	23	relying	rely	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	8	24	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	8	25	it	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	8	26	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	9	1	Being	be	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	9	2	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	9	3	major	major	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	9	4	source	source	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	9	5	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	9	6	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	9	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	9	8	fuels	fuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	9	9	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	9	10	considered	consider	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	9	11	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	9	12	most	most	RBS
work_wb7rpcpa6nh55k4ay7iayeodqq	9	13	important	important	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	9	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	10	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	10	2	fear	fear	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	10	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	10	4	diminishing	diminish	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	10	5	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	10	6	available	available	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	10	7	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	10	8	thirst	thirst	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	10	9	towards	towards	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	10	10	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	10	11	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	10	12	has	have	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	10	13	increased	increase	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	10	14	during	during	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	10	15	last	last	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	10	16	decades	decade	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	10	17	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	11	1	Considering	consider	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	11	2	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	11	3	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	11	4	problems	problem	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	11	5	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	11	6	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	11	7	gain	gain	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	11	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	11	9	most	most	JJS
work_wb7rpcpa6nh55k4ay7iayeodqq	11	10	attention	attention	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	11	11	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	11	12	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	11	13	used	use	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	11	14	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	11	15	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	11	16	producers	producer	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	11	17	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	12	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	12	2	use	use	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	12	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	12	4	crop	crop	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	12	5	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	12	6	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	12	7	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	12	8	producing	produce	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	12	9	plants	plant	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	12	10	will	will	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	12	11	never	never	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	12	12	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	12	13	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	12	14	best	good	JJS
work_wb7rpcpa6nh55k4ay7iayeodqq	12	15	fit	fit	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	12	16	into	into	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	12	17	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	12	18	priorities	priority	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	12	19	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	12	20	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	12	21	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	12	22	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	12	23	they	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	12	24	will	will	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	12	25	disturb	disturb	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	12	26	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	12	27	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	12	28	needs	need	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	12	29	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	13	1	Different	different	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	13	2	types	type	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	13	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	13	4	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	13	5	having	have	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	13	6	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	13	7	different	different	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	13	8	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	13	9	abilities	ability	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	13	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	14	1	Normally	normally	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	14	2	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	14	3	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	14	4	20%e80	20%e80	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	14	5	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	14	6	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	14	7	contents	content	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	14	8	that	that	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	14	9	could	could	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	14	10	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	14	11	converted	convert	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	14	12	into	into	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	14	13	different	different	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	14	14	types	type	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	14	15	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	14	16	fuels	fuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	14	17	such	such	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	14	18	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	14	19	kerosene	kerosene	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	14	20	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	14	21	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	14	22	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	14	23	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	15	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	15	2	diesel	diesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	15	3	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	15	4	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	15	5	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	15	6	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	15	7	economical	economical	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	15	8	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	15	9	easy	easy	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	15	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	16	1	Different	different	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	16	2	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	16	3	such	such	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	16	4	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	16	5	tribonema	tribonema	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	16	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	16	7	ulothrix	ulothrix	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	16	8	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	16	9	euglena	euglena	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	16	10	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	16	11	good	good	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	16	12	potential	potential	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	16	13	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	16	14	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	16	15	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	16	16	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	17	1	Gene	gene	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	17	2	technology	technology	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	17	3	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	17	4	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	17	5	used	use	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	17	6	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	17	7	enhance	enhance	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	17	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	17	9	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	17	10	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	17	11	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	17	12	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	17	13	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	17	14	contents	content	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	17	15	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	17	16	stability	stability	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	17	17	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	17	18	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	17	19	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	18	1	By	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	18	2	increasing	increase	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	18	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	18	4	genetic	genetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	18	5	expressions	expression	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	18	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	18	7	we	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	18	8	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	18	9	find	find	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	18	10	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	18	11	ways	way	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	18	12	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	18	13	achieve	achieve	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	18	14	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	18	15	required	require	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	18	16	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	18	17	amounts	amount	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	18	18	easily	easily	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	18	19	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	18	20	continuously	continuously	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	18	21	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	18	22	overcome	overcome	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	18	23	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	18	24	fuels	fuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	18	25	deficiency	deficiency	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	18	26	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	19	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	19	2	present	present	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	19	3	review	review	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	4	article	article	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	5	focusses	focusse	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	19	6	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	7	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	19	8	role	role	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	9	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	10	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	11	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	12	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	19	13	possible	possible	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	19	14	substitute	substitute	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	15	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	16	fossil	fossil	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	19	17	fuel	fuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	18	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	19	an	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	19	20	ideal	ideal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	19	21	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	22	reactant	reactant	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	19	23	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	20	1	Copyright	copyright	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	20	2	©	©	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	20	3	2017	2017	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	20	4	Institut	Institut	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	20	5	Pertanian	Pertanian	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	20	6	Bogor	Bogor	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	20	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	21	1	Production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	21	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	21	3	hosting	hosting	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	21	4	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	21	5	Elsevier	Elsevier	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	21	6	B.V.	B.V.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	22	1	This	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	22	2	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	22	3	an	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	22	4	open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	22	5	access	access	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	22	6	article	article	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	22	7	under	under	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	22	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	22	9	CC	CC	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	22	10	BY	BY	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	22	11	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	22	12	NC	NC	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	22	13	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	22	14	ND	ND	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	22	15	license	license	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	22	16	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	22	17	http://creativecommons.org/licenses/by-nc-nd/4.0/	http://creativecommons.org/licenses/by-nc-nd/4.0/	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	22	18	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	22	19	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	23	1	1	1	LS
work_wb7rpcpa6nh55k4ay7iayeodqq	23	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	24	1	Introduction	introduction	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	24	2	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	24	3	crisis	crisis	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	24	4	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	24	5	among	among	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	24	6	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	24	7	biggest	big	JJS
work_wb7rpcpa6nh55k4ay7iayeodqq	24	8	problems	problem	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	24	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	24	10	leading	lead	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	24	11	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	24	12	world	world	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	24	13	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	24	14	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	24	15	unsafe	unsafe	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	24	16	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	24	17	non	non	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	24	18	-	-	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	24	19	peaceful	peaceful	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	24	20	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	25	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	25	2	demand	demand	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	25	3	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	25	4	increasing	increase	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	25	5	day	day	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	25	6	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	25	7	day	day	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	25	8	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	26	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	26	2	available	available	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	26	3	resources	resource	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	26	4	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	26	5	rapidly	rapidly	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	26	6	decreasing	decrease	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	26	7	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	26	8	indication	indication	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	26	9	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	26	10	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	26	11	soon	soon	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	26	12	will	will	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	26	13	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	26	14	vanished	vanish	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	26	15	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	27	1	In	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	27	2	such	such	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	27	3	situations	situation	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	27	4	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	27	5	more	more	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	27	6	attention	attention	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	27	7	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	27	8	needed	need	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	27	9	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	27	10	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	27	11	given	give	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	27	12	towards	towards	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	27	13	renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	27	14	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	27	15	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	27	16	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	28	1	Fossil	fossil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	28	2	fuels	fuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	28	3	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	28	4	used	use	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	28	5	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	28	6	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	28	7	large	large	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	28	8	scale	scale	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	28	9	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	28	10	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	28	11	world	world	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	28	12	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	28	13	but	but	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	28	14	unsustainable	unsustainable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	28	15	because	because	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	28	16	they	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	28	17	in-	in-	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	28	18	crease	crease	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	28	19	CO2	CO2	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	28	20	level	level	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	28	21	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	28	22	accumulate	accumulate	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	28	23	greenhouse	greenhouse	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	28	24	gases	gas	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	28	25	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	28	26	make	make	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	28	27	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	28	28	environment	environment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	28	29	unhealthy	unhealthy	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	28	30	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	29	1	To	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	29	2	keep	keep	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	29	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	29	4	environment	environment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	29	5	clean	clean	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	29	6	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	29	7	maintain	maintain	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	29	8	sustainability	sustainability	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	29	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	29	10	renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	29	11	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	29	12	environmentally	environmentally	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	29	13	friendly	friendly	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	29	14	fuels	fuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	29	15	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	29	16	needed	need	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	29	17	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	29	18	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	29	19	produced	produce	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	29	20	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	29	21	Schenk	Schenk	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	29	22	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	29	23	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	29	24	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	29	25	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	30	1	Biofuels	Biofuels	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	30	2	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	30	3	defined	define	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	30	4	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	30	5	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	30	6	liquid	liquid	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	30	7	fuels	fuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	30	8	produced	produce	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	30	9	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	30	10	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	30	11	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	30	12	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	30	13	different	different	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	30	14	agricultural	agricultural	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	30	15	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	30	16	forest	forest	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	30	17	products	product	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	30	18	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	30	19	biodegradable	biodegradable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	30	20	portion	portion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	30	21	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	30	22	nian	nian	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	30	23	Bogor	Bogor	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	30	24	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	31	1	r.	r.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	31	2	Production	Production	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	31	3	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	31	4	hosting	host	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	31	5	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	31	6	Els	Els	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	31	7	industrial	industrial	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	31	8	waste	waste	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	31	9	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	31	10	Dufey	Dufey	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	31	11	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	31	12	2006	2006	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	31	13	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	31	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	32	1	Biodiesel	Biodiesel	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	2	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	32	3	extracted	extract	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	32	4	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	32	5	vege-	vege-	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	32	6	table	table	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	32	7	oils	oil	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	32	8	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	32	9	Shay	Shay	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	10	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	32	11	1993	1993	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	32	12	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	32	13	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	32	14	biobutanol	biobutanol	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	15	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	32	16	Dürre	Dürre	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	17	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	32	18	1997	1997	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	32	19	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	32	20	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	32	21	Jatropha	Jatropha	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	22	curcas	curcas	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	32	23	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	32	24	Becker	Becker	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	25	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	32	26	Makkar	Makkar	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	27	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	32	28	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	32	29	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	32	30	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	32	31	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	32	32	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	32	33	Roessler	Roessler	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	34	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	32	35	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	36	.	.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	37	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	32	38	1994	1994	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	32	39	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	32	40	Sawayama	Sawayama	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	41	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	42	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	43	.	.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	44	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	32	45	1995	1995	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	32	46	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	32	47	Dunahay	Dunahay	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	48	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	32	49	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	50	.	.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	51	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	32	52	1996	1996	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	32	53	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	32	54	Sheehan	Sheehan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	55	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	32	56	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	57	.	.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	32	58	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	32	59	1998	1998	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	32	60	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	32	61	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	33	1	Brazil	Brazil	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	33	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	33	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	33	4	United	United	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	33	5	States	States	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	33	6	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	33	7	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	33	8	European	European	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	33	9	Union	Union	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	33	10	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	33	11	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	33	12	world	world	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	33	13	's	's	POS
work_wb7rpcpa6nh55k4ay7iayeodqq	33	14	largest	large	JJS
work_wb7rpcpa6nh55k4ay7iayeodqq	33	15	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	33	16	producers	producer	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	33	17	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	33	18	Balat	Balat	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	33	19	2007	2007	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	33	20	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	33	21	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	34	1	Biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	34	2	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	34	3	has	have	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	34	4	been	be	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	34	5	estimated	estimate	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	34	6	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	34	7	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	34	8	35	35	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	34	9	billion	billion	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	34	10	litres	litre	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	34	11	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	34	12	O	o	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	34	13	European	European	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	34	14	Commission	Commission	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	34	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	34	16	2006	2006	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	34	17	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	34	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	35	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	35	2	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	35	3	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	35	4	now	now	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	35	5	becoming	become	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	35	6	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	35	7	main	main	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	35	8	source	source	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	35	9	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	35	10	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	35	11	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	35	12	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	35	13	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	35	14	world	world	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	35	15	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	36	1	They	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	36	2	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	36	3	considered	consider	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	36	4	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	36	5	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	36	6	safer	safe	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	36	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	36	8	non	non	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	36	9	-	-	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	36	10	competitive	competitive	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	36	11	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	36	12	rapidly	rapidly	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	36	13	growing	grow	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	36	14	organisms	organism	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	36	15	among	among	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	36	16	those	those	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	36	17	could	could	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	36	18	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	36	19	used	use	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	36	20	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	36	21	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	36	22	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	36	23	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	37	1	They	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	37	2	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	37	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	37	4	abilities	ability	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	37	5	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	37	6	grow	grow	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	37	7	without	without	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	8	much	much	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	37	9	care	care	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	10	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	11	waste	waste	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	12	nutrients	nutrient	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	37	13	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	37	14	Roberts	Roberts	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	37	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	37	16	2013	2013	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	37	17	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	37	18	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	37	19	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	37	20	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	37	21	considered	consider	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	22	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	37	23	better	well	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	37	24	source	source	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	25	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	26	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	27	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	28	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	29	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	37	30	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	37	31	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	37	32	cause	cause	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	37	33	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	34	problems	problem	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	37	35	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	36	they	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	37	37	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	37	38	mainly	mainly	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	37	39	including	include	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	37	40	those	those	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	37	41	plants	plant	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	37	42	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	37	43	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	37	44	used	use	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	45	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	46	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	37	47	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	37	48	Patil	Patil	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	37	49	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	37	50	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	37	51	.	.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	37	52	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	37	53	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	37	54	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	37	55	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	38	1	Moreover	moreover	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	38	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	38	3	evier	evi	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	38	4	B.V.	B.V.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	1	This	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	39	2	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	39	3	an	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	39	4	open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	39	5	access	access	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	6	article	article	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	7	under	under	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	39	9	CC	CC	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	10	BY	BY	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	11	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	39	12	NC	NC	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	13	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	39	14	ND	ND	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	15	license	license	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	16	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	39	17	http://	http://	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	39	18	http://creativecommons.org/licenses/by-nc-nd/4.0/	http://creativecommons.org/licenses/by-nc-nd/4.0/	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	39	19	http://crossmark.crossref.org/dialog/?doi=10.1016/j.hjb.2017.10.003&domain=pdf	http://crossmark.crossref.org/dialog/?doi=10.1016/j.hjb.2017.10.003&domain=pdf	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	20	www.sciencedirect.com/science/journal/19783019	www.sciencedirect.com/science/journal/19783019	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	39	21	https://doi.org/10.1016/j.hjb.2017.10.003	https://doi.org/10.1016/j.hjb.2017.10.003	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	22	http://creativecommons.org/licenses/by-nc-nd/4.0/	http://creativecommons.org/licenses/by-nc-nd/4.0/	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	23	http://creativecommons.org/licenses/by-nc-nd/4.0/	http://creativecommons.org/licenses/by-nc-nd/4.0/	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	39	24	https://doi.org/10.1016/j.hjb.2017.10.003	https://doi.org/10.1016/j.hjb.2017.10.003	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	25	https://doi.org/10.1016/j.hjb.2017.10.003	https://doi.org/10.1016/j.hjb.2017.10.003	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	26	S.	S.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	27	Khan	Khan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	28	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	39	29	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	30	al164	al164	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	31	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	32	contents	content	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	39	33	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	34	crops	crop	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	39	35	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	36	less	less	RBR
work_wb7rpcpa6nh55k4ay7iayeodqq	39	37	sustainable	sustainable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	39	38	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	39	39	less	less	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	39	40	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	41	quantity	quantity	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	42	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	43	compared	compare	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	44	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	45	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	39	46	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	39	47	Charles	Charles	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	48	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	49	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	50	.	.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	39	51	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	39	52	2007	2007	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	39	53	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	39	54	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	40	1	Algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	40	2	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	40	3	around	around	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	40	4	80	80	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	40	5	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	40	6	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	40	7	content	content	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	40	8	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	40	9	that	that	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	40	10	contained	contain	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	40	11	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	40	12	petroleum	petroleum	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	40	13	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	40	14	Chisti	Chisti	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	40	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	40	16	2007	2007	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	40	17	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	40	18	2013	2013	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	40	19	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	40	20	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	41	1	Algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	41	2	cells	cell	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	41	3	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	41	4	30	30	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	41	5	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	41	6	lipid	lipid	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	41	7	content	content	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	41	8	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	41	9	Lam	Lam	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	41	10	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	41	11	Lee	Lee	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	41	12	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	41	13	2012	2012	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	41	14	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	41	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	41	16	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	41	17	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	41	18	higher	high	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	41	19	than	than	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	41	20	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	41	21	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	41	22	including	include	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	41	23	soybeans	soybean	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	41	24	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	41	25	palm	palm	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	41	26	oils	oil	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	41	27	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	41	28	Lam	Lam	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	41	29	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	41	30	Lee	Lee	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	41	31	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	41	32	2011	2011	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	41	33	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	41	34	Kligerman	Kligerman	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	41	35	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	41	36	Bouwer	Bouwer	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	41	37	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	41	38	2015	2015	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	41	39	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	41	40	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	42	1	Microalgae	Microalgae	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	42	2	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	42	3	30%e40	30%e40	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	42	4	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	42	5	lipid	lipid	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	42	6	contents	content	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	42	7	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	42	8	dry	dry	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	42	9	weight	weight	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	42	10	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	42	11	this	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	42	12	value	value	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	42	13	raises	raise	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	42	14	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	42	15	85	85	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	42	16	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	42	17	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	43	1	Botryococcus	Botryococcus	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	43	2	braunii	braunii	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	43	3	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	43	4	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	43	5	microalga	microalga	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	43	6	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	43	7	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	43	8	having	have	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	43	9	30%e40	30%e40	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	43	10	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	43	11	hydrocarbon	hydrocarbon	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	43	12	content	content	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	43	13	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	43	14	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	43	15	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	43	16	extracted	extract	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	43	17	easily	easily	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	43	18	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	43	19	Mirza	Mirza	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	43	20	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	43	21	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	43	22	.	.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	43	23	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	43	24	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	43	25	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	43	26	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	44	1	Algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	44	2	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	44	3	efficiently	efficiently	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	44	4	remove	remove	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	44	5	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	44	6	toxic	toxic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	44	7	components	component	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	44	8	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	44	9	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	44	10	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	44	11	so	so	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	44	12	playing	play	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	44	13	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	44	14	role	role	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	44	15	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	44	16	waste	waste	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	44	17	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	44	18	treatment	treatment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	44	19	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	45	1	Their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	45	2	remediating	remediating	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	45	3	role	role	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	45	4	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	45	5	waste	waste	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	45	6	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	45	7	treatment	treatment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	45	8	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	45	9	rich	rich	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	45	10	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	45	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	45	12	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	45	13	make	make	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	45	14	them	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	45	15	suitable	suitable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	45	16	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	45	17	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	45	18	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	45	19	grown	grow	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	45	20	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	45	21	large	large	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	45	22	scale	scale	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	45	23	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	45	24	Pittman	Pittman	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	45	25	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	45	26	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	45	27	.	.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	45	28	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	45	29	2011	2011	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	45	30	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	45	31	Kligerman	Kligerman	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	45	32	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	45	33	Bouwer	Bouwer	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	45	34	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	45	35	2015	2015	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	45	36	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	45	37	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	46	1	Micro	Micro	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	46	2	as	as	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	46	3	well	well	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	46	4	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	46	5	macro	macro	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	46	6	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	46	7	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	46	8	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	46	9	cultivated	cultivate	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	46	10	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	46	11	large	large	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	46	12	scale	scale	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	46	13	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	46	14	short	short	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	46	15	period	period	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	46	16	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	47	1	Micro	Micro	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	47	2	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	47	3	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	47	4	photosynthetic	photosynthetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	47	5	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	47	6	heterotrophic	heterotrophic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	47	7	having	have	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	47	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	47	9	potential	potential	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	47	10	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	47	11	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	47	12	grown	grow	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	47	13	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	47	14	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	47	15	crops	crop	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	47	16	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	48	1	They	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	48	2	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	48	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	48	4	ability	ability	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	48	5	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	48	6	produce	produce	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	48	7	certain	certain	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	48	8	economically	economically	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	48	9	important	important	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	48	10	compounds	compound	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	48	11	including	include	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	48	12	fats	fat	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	48	13	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	48	14	oils	oil	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	48	15	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	48	16	Rawat	Rawat	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	48	17	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	48	18	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	48	19	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	49	1	2011	2011	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	49	2	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	49	3	Pittman	Pittman	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	49	4	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	49	5	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	49	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	50	1	2011	2011	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	50	2	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	50	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	51	1	Algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	51	2	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	51	3	does	do	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	51	4	not	not	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	51	5	have	have	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	51	6	harmful	harmful	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	51	7	chemicals	chemical	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	51	8	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	51	9	so	so	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	51	10	environment	environment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	51	11	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	51	12	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	51	13	kept	keep	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	51	14	clean	clean	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	51	15	after	after	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	51	16	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	51	17	combustion	combustion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	51	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	52	1	Pakistan	Pakistan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	52	2	state	state	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	3	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	4	has	have	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	52	5	currently	currently	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	52	6	started	start	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	7	work	work	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	8	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	9	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	10	pro-	pro-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	11	duction	duction	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	12	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	52	13	successfully	successfully	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	52	14	cultivated	cultivate	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	15	J.	J.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	52	16	curcas	curcas	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	17	plant	plant	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	18	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	52	19	produce	produce	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	52	20	bio-	bio-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	21	diesel	diesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	52	22	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	53	1	Drying	drying	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	2	needs	need	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	53	3	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	4	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	5	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	53	6	case	case	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	7	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	8	crops	crop	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	53	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	53	10	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	11	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	53	12	producing	produce	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	53	13	plants	plant	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	53	14	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	53	15	but	but	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	53	16	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	17	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	53	18	case	case	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	19	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	20	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	21	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	53	22	it	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	53	23	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	53	24	economical	economical	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	53	25	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	53	26	dry	dry	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	53	27	them	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	53	28	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	29	sun	sun	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	30	light	light	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	53	31	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	54	1	Thermo	thermo	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	54	2	chemical	chemical	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	54	3	drying	drying	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	54	4	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	54	5	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	54	6	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	54	7	easy	easy	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	54	8	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	54	9	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	54	10	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	54	11	comparison	comparison	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	54	12	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	54	13	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	54	14	plants	plant	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	54	15	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	54	16	Banerjee	Banerjee	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	54	17	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	54	18	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	54	19	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	55	1	2002	2002	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	55	2	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	55	3	Tsukahara	Tsukahara	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	55	4	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	55	5	Sawayama	Sawayama	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	55	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	55	7	2005	2005	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	55	8	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	55	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	56	1	Biomass	Biomass	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	56	2	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	56	3	treated	treat	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	4	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	5	anaerobic	anaerobic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	56	6	microorgan-	microorgan-	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	56	7	isms	ism	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	56	8	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	56	9	produce	produce	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	56	10	biogas	biogas	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	11	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	56	12	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	56	13	having	have	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	56	14	high	high	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	56	15	content	content	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	16	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	17	methane	methane	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	18	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	56	19	so	so	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	20	it	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	56	21	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	56	22	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	56	23	used	use	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	24	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	25	an	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	56	26	alternate	alternate	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	56	27	source	source	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	28	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	29	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	56	30	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	56	31	Mes	Mes	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	56	32	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	56	33	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	56	34	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	57	1	2003	2003	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	57	2	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	57	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	58	1	Algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	2	cells	cell	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	58	3	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	58	4	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	58	5	bio	bio	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	58	6	fuel	fuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	7	contents	content	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	58	8	inside	inside	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	9	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	58	10	cells	cell	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	58	11	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	58	12	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	58	13	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	58	14	cell	cell	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	15	wall	wall	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	16	retains	retain	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	58	17	these	these	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	58	18	components	component	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	58	19	intact	intact	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	58	20	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	58	21	so	so	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	58	22	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	58	23	cell	cell	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	24	wall	wall	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	25	must	must	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	58	26	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	58	27	broken	break	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	28	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	58	29	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	58	30	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	31	most	most	JJS
work_wb7rpcpa6nh55k4ay7iayeodqq	58	32	cases	case	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	58	33	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	58	34	anaerobic	anaerobic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	58	35	digestion	digestion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	36	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	58	37	preferred	prefer	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	38	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	58	39	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	58	40	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	58	41	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	58	42	most	most	RBS
work_wb7rpcpa6nh55k4ay7iayeodqq	58	43	prominent	prominent	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	58	44	method	method	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	45	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	58	46	extracting	extract	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	58	47	these	these	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	58	48	components	component	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	58	49	Figure	Figure	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	58	50	1	1	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	58	51	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	59	1	This	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	59	2	figure	figure	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	59	3	illustrates	illustrate	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	59	4	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	59	5	general	general	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	59	6	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	59	7	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	59	8	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	59	9	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	59	10	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	59	11	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	59	12	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	59	13	sm	sm	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	59	14	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	59	15	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	59	16	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	59	17	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	59	18	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	59	19	contents	content	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	59	20	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	60	1	Dotted	dotted	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	60	2	arrow	arrow	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	60	3	indicates	indicate	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	60	4	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	60	5	addition	addition	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	60	6	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	60	7	specific	specific	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	60	8	steps	step	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	60	9	whi	whi	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	60	10	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	60	11	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	60	12	cells	cell	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	60	13	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	60	14	Reith	Reith	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	60	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	60	16	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	60	17	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	60	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	61	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	61	2	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	61	3	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	61	4	high	high	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	61	5	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	61	6	contents	content	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	61	7	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	61	8	easily	easily	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	61	9	cultivatable	cultivatable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	61	10	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	61	11	preferred	prefer	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	61	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	62	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	62	2	objective	objective	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	62	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	62	4	this	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	62	5	review	review	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	62	6	article	article	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	62	7	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	62	8	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	62	9	critically	critically	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	62	10	describe	describe	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	62	11	various	various	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	62	12	aspects	aspect	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	62	13	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	62	14	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	62	15	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	62	16	an	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	62	17	ideal	ideal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	62	18	target	target	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	62	19	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	62	20	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	62	21	productions	production	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	62	22	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	63	1	2	2	LS
work_wb7rpcpa6nh55k4ay7iayeodqq	63	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	64	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	64	2	Processes	Processes	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	64	3	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	64	4	Biofuel	Biofuel	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	64	5	Production	Production	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	64	6	Using	Using	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	64	7	Algae	Algae	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	64	8	Algae	Algae	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	64	9	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	64	10	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	64	11	contents	content	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	64	12	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	64	13	different	different	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	64	14	compositions	composition	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	64	15	depending	depend	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	64	16	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	64	17	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	64	18	specie	specie	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	64	19	types	type	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	64	20	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	65	1	Some	some	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	65	2	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	65	3	were	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	65	4	identified	identify	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	65	5	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	65	6	they	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	65	7	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	65	8	good	good	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	65	9	fatty	fatty	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	65	10	acid	acid	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	65	11	values	value	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	65	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	66	1	In	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	66	2	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	66	3	same	same	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	66	4	way	way	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	66	5	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	66	6	some	some	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	66	7	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	66	8	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	66	9	more	more	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	66	10	components	component	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	66	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	66	12	fatty	fatty	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	66	13	acids	acid	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	66	14	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	66	15	their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	66	16	dry	dry	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	66	17	masses	masse	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	66	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	67	1	Micro	Micro	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	67	2	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	67	3	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	67	4	grow	grow	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	67	5	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	67	6	different	different	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	67	7	conditions	condition	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	67	8	even	even	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	67	9	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	67	10	availability	availability	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	67	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	67	12	fewer	few	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	67	13	nutrients	nutrient	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	67	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	68	1	They	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	68	2	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	68	3	best	good	JJS
work_wb7rpcpa6nh55k4ay7iayeodqq	68	4	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	68	5	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	68	6	chosen	choose	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	68	7	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	68	8	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	68	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	69	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	69	2	collection	collection	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	69	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	69	4	sample	sample	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	69	5	needs	need	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	69	6	care	care	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	69	7	so	so	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	69	8	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	69	9	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	69	10	whole	whole	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	69	11	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	69	12	contents	content	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	69	13	could	could	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	69	14	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	69	15	obtained	obtain	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	69	16	through	through	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	69	17	careful	careful	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	69	18	handling	handling	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	69	19	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	69	20	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	69	21	instruments	instrument	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	69	22	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	70	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	70	2	growth	growth	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	70	3	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	70	4	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	70	5	affected	affect	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	70	6	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	70	7	different	different	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	70	8	environmental	environmental	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	70	9	factors	factor	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	70	10	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	70	11	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	70	12	not	not	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	70	13	specif-	specif-	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	70	14	ically	ically	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	70	15	known	know	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	70	16	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	70	17	every	every	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	70	18	region	region	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	70	19	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	70	20	so	so	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	70	21	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	70	22	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	70	23	needs	need	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	70	24	careful	careful	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	70	25	atten-	atten-	XX
work_wb7rpcpa6nh55k4ay7iayeodqq	70	26	tion	tion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	70	27	accordingly	accordingly	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	70	28	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	70	29	Richmond	Richmond	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	70	30	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	70	31	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	70	32	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	70	33	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	71	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	71	2	simple	simple	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	71	3	method	method	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	71	4	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	71	5	fatty	fatty	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	71	6	acids	acid	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	71	7	extraction	extraction	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	71	8	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	71	9	separation	separation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	71	10	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	71	11	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	71	12	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	71	13	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	71	14	blending	blending	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	71	15	method	method	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	71	16	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	71	17	small	small	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	71	18	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	71	19	experimental	experimental	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	71	20	scale	scale	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	71	21	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	72	1	This	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	72	2	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	72	3	consists	consist	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	72	4	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	72	5	several	several	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	72	6	steps	step	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	72	7	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	72	8	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	72	9	been	be	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	72	10	shown	show	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	72	11	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	72	12	Figure	Figure	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	72	13	1	1	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	72	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	73	1	It	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	73	2	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	73	3	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	73	4	necessary	necessary	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	73	5	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	73	6	know	know	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	73	7	about	about	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	73	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	73	9	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	73	10	unit	unit	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	73	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	73	12	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	73	13	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	73	14	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	73	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	73	16	whether	whether	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	73	17	it	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	73	18	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	73	19	good	good	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	73	20	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	73	21	choose	choose	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	73	22	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	73	23	closed	closed	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	73	24	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	73	25	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	73	26	open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	73	27	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	73	28	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	74	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	74	2	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	74	3	either	either	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	74	4	batch	batch	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	74	5	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	74	6	continuous	continuous	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	74	7	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	74	8	confirmed	confirm	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	74	9	depending	depend	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	74	10	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	74	11	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	74	12	conditions	condition	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	74	13	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	74	14	facilities	facility	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	74	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	74	16	including	include	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	74	17	pH	pH	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	74	18	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	74	19	temper-	temper-	XX
work_wb7rpcpa6nh55k4ay7iayeodqq	74	20	ature	ature	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	74	21	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	74	22	type	type	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	74	23	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	74	24	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	74	25	specie	specie	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	74	26	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	74	27	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	74	28	amount	amount	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	74	29	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	74	30	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	74	31	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	74	32	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	74	33	Kaewpintong	Kaewpintong	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	74	34	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	74	35	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	74	36	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	74	37	Chojnacka	Chojnacka	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	74	38	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	74	39	Marquez	Marquez	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	74	40	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	74	41	Rocha	Rocha	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	74	42	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	74	43	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	74	44	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	74	45	Chojnacka	Chojnacka	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	74	46	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	74	47	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	74	48	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	75	1	2005	2005	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	75	2	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	75	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	76	1	Harvesting	harvesting	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	76	2	techniques	technique	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	76	3	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	76	4	finalized	finalize	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	76	5	based	base	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	76	6	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	76	7	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	76	8	location	location	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	76	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	76	10	conditions	condition	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	76	11	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	76	12	Grima	Grima	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	76	13	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	76	14	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	76	15	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	77	1	2003	2003	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	77	2	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	77	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	78	1	Most	most	RBS
work_wb7rpcpa6nh55k4ay7iayeodqq	78	2	favourable	favourable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	78	3	harvesting	harvesting	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	78	4	techniques	technique	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	78	5	suggested	suggest	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	78	6	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	78	7	based	base	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	78	8	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	78	9	settling	settle	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	78	10	pond	pond	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	78	11	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	78	12	sedimentation	sedimentation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	78	13	tank	tank	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	78	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	79	1	Density	density	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	79	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	79	3	moisture	moisture	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	79	4	adjustment	adjustment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	79	5	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	79	6	required	require	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	79	7	during	during	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	79	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	79	9	whole	whole	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	79	10	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	79	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	79	12	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	79	13	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	79	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	80	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	80	2	drying	drying	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	80	3	technique	technique	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	80	4	mostly	mostly	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	80	5	used	use	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	80	6	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	80	7	spray	spray	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	80	8	drying	drying	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	80	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	80	10	drum	drum	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	80	11	drying	drying	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	80	12	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	80	13	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	80	14	all	all	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	80	15	scale	scale	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	80	16	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	80	17	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	80	18	experimental	experimental	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	80	19	purpose	purpose	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	80	20	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	81	1	This	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	81	2	method	method	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	81	3	could	could	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	81	4	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	81	5	used	use	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	81	6	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	81	7	compare	compare	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	81	8	different	different	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	81	9	ch	ch	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	81	10	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	81	11	been	be	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	81	12	highlighted	highlight	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	81	13	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	81	14	bold	bold	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	81	15	letters	letter	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	81	16	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	81	17	full	full	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	81	18	lined	line	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	81	19	arrows	arrow	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	81	20	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	82	1	Biodiesel	biodiesel	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	82	2	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	82	3	Overcome	overcome	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	82	4	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	82	5	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	82	6	Crisis	Crisis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	82	7	165	165	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	82	8	suggested	suggest	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	82	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	83	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	83	2	disruption	disruption	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	83	3	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	83	4	through	through	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	83	5	mechanical	mechanical	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	83	6	handlings	handling	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	83	7	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	83	8	considered	consider	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	83	9	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	83	10	most	most	RBS
work_wb7rpcpa6nh55k4ay7iayeodqq	83	11	favourable	favourable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	83	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	84	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	84	2	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	84	3	requirements	requirement	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	84	4	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	84	5	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	84	6	use	use	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	84	7	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	84	8	solvents	solvent	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	84	9	such	such	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	84	10	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	84	11	hexane	hexane	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	84	12	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	84	13	ethanol	ethanol	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	84	14	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	84	15	required	require	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	84	16	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	84	17	active	active	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	84	18	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	84	19	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	85	1	Ultrasound	Ultrasound	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	85	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	85	3	microwave	microwave	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	85	4	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	85	5	based	base	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	85	6	extraction	extraction	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	85	7	methods	method	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	85	8	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	85	9	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	85	10	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	85	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	85	12	benefit	benefit	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	85	13	if	if	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	85	14	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	85	15	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	85	16	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	85	17	not	not	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	85	18	available	available	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	85	19	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	85	20	Richmond	Richmond	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	85	21	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	85	22	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	85	23	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	85	24	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	86	1	3	3	LS
work_wb7rpcpa6nh55k4ay7iayeodqq	86	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	87	1	Cultivation	Cultivation	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	87	2	Systems	system	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	87	3	Two	two	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	87	4	main	main	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	87	5	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	87	6	systems	system	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	87	7	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	87	8	open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	87	9	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	87	10	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	87	11	closed	close	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	87	12	sys-	sys-	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	87	13	tem	tem	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	87	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	88	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	88	2	open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	88	3	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	88	4	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	88	5	normally	normally	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	88	6	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	88	7	pond	pond	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	88	8	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	88	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	88	10	where	where	WRB
work_wb7rpcpa6nh55k4ay7iayeodqq	88	11	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	88	12	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	88	13	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	88	14	grow	grow	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	88	15	naturally	naturally	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	88	16	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	88	17	their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	88	18	growth	growth	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	88	19	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	88	20	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	88	21	enhanced	enhance	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	88	22	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	88	23	human	human	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	88	24	interactions	interaction	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	88	25	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	89	1	According	accord	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	89	2	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	3	Kaewpintong	Kaewpintong	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	89	4	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	89	5	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	89	6	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	89	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	89	8	closed	closed	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	89	9	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	10	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	89	11	preferred	prefer	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	12	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	13	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	89	14	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	15	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	89	16	easy	easy	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	89	17	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	89	18	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	19	saving	saving	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	20	along	along	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	21	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	22	least	least	JJS
work_wb7rpcpa6nh55k4ay7iayeodqq	89	23	chances	chance	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	89	24	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	25	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	89	26	interference	interference	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	27	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	89	28	environmental	environmental	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	89	29	factors	factor	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	89	30	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	90	1	Also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	90	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	90	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	90	4	factors	factor	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	90	5	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	90	6	nutrients	nutrient	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	90	7	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	90	8	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	90	9	controlled	control	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	90	10	easily	easily	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	90	11	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	90	12	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	90	13	closed	closed	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	90	14	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	90	15	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	90	16	but	but	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	90	17	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	90	18	some	some	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	90	19	cases	case	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	90	20	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	90	21	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	90	22	open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	90	23	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	90	24	gains	gain	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	90	25	priority	priority	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	90	26	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	91	1	In	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	2	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	91	3	study	study	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	4	regarding	regard	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	91	5	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	6	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	91	8	Ugwu	Ugwu	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	91	9	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	91	10	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	91	11	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	91	12	concluded	conclude	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	91	13	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	14	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	15	could	could	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	91	16	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	91	17	grown	grow	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	18	either	either	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	91	19	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	20	open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	91	21	culture	culture	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	22	systems	system	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	91	23	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	91	24	closed	close	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	25	systems	system	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	91	26	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	91	27	but	but	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	91	28	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	29	larger	large	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	91	30	scale	scale	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	31	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	32	open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	91	33	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	34	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	91	35	preferred	prefer	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	91	36	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	92	1	Open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	92	2	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	92	3	does	do	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	92	4	not	not	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	92	5	require	require	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	92	6	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	92	7	huge	huge	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	92	8	amount	amount	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	92	9	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	92	10	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	92	11	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	92	12	man	man	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	92	13	po-	po-	XX
work_wb7rpcpa6nh55k4ay7iayeodqq	92	14	wer	wer	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	92	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	92	16	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	92	17	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	92	18	economical	economical	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	92	19	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	93	1	Open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	93	2	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	93	3	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	93	4	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	93	5	helps	help	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	93	6	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	93	7	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	93	8	treatment	treatment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	93	9	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	93	10	waste	waste	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	93	11	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	93	12	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	93	13	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	93	14	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	93	15	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	93	16	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	93	17	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	93	18	continues	continue	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	93	19	without	without	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	93	20	disruptions	disruption	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	93	21	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	94	1	Open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	94	2	ponds	pond	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	94	3	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	94	4	easy	easy	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	94	5	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	94	6	construct	construct	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	94	7	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	94	8	operate	operate	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	94	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	95	1	However	however	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	95	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	95	3	major	major	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	95	4	limitations	limitation	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	95	5	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	95	6	open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	95	7	ponds	pond	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	95	8	include	include	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	95	9	poor	poor	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	95	10	light	light	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	95	11	utilization	utilization	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	95	12	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	95	13	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	95	14	cells	cell	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	95	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	95	16	evaporative	evaporative	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	95	17	losses	loss	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	95	18	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	95	19	diffusion	diffusion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	95	20	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	95	21	CO2	CO2	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	95	22	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	95	23	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	95	24	atmosphere	atmosphere	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	95	25	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	95	26	requirement	requirement	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	95	27	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	95	28	large	large	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	95	29	areas	area	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	95	30	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	95	31	land	land	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	95	32	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	96	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	96	2	closed	closed	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	96	3	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	96	4	has	have	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	96	5	some	some	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	96	6	advantages	advantage	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	96	7	over	over	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	96	8	open	open	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	96	9	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	96	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	97	1	In	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	97	2	closed	closed	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	97	3	systems	system	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	97	4	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	97	5	photo	photo	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	97	6	bioreactors	bioreactor	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	97	7	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	97	8	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	97	9	higher	high	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	97	10	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	97	11	products	product	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	97	12	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	97	13	obtained	obtain	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	97	14	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	97	15	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	97	16	contamination	contamination	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	97	17	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	97	18	easily	easily	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	97	19	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	97	20	prevented	prevent	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	97	21	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	98	1	Because	because	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	98	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	98	3	these	these	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	98	4	ad-	ad-	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	98	5	vantages	vantage	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	98	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	98	7	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	98	8	closed	closed	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	98	9	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	98	10	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	98	11	obtains	obtain	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	98	12	attention	attention	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	98	13	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	99	1	Besides	besides	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	99	2	these	these	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	99	3	major	major	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	99	4	systems	system	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	99	5	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	99	6	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	99	7	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	99	8	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	99	9	systems	system	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	99	10	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	99	11	methods	method	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	99	12	include	include	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	99	13	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	99	14	stabilization	stabilization	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	99	15	pond	pond	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	99	16	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	99	17	advanced	advanced	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	99	18	integrated	integrated	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	99	19	waste	waste	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	99	20	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	99	21	pond	pond	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	99	22	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	99	23	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	99	24	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	99	25	high	high	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	99	26	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	99	27	rate	rate	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	99	28	ponds	pond	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	99	29	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	100	1	Cost	cost	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	2	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	100	3	effec-	effec-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	4	tiveness	tiveness	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	5	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	100	6	larger	large	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	100	7	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	8	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	100	9	commercial	commercial	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	100	10	scale	scale	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	11	growth	growth	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	12	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	100	13	minimization	minimization	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	14	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	15	sludge	sludge	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	16	accumulation	accumulation	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	17	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	100	18	low	low	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	100	19	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	20	demands	demand	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	100	21	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	100	22	well	well	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	100	23	suited	suited	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	100	24	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	25	tropical	tropical	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	100	26	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	100	27	subtropical	subtropical	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	100	28	countries	country	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	100	29	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	100	30	removal	removal	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	31	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	32	Biological	Biological	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	33	Oxygen	Oxygen	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	34	Demand	Demand	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	35	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	100	36	BOD	BOD	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	37	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	100	38	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	39	some	some	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	100	40	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	41	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	100	42	advantages	advantage	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	100	43	these	these	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	100	44	systems	system	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	100	45	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	46	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	100	47	but	but	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	100	48	they	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	49	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	100	50	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	51	some	some	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	100	52	serious	serious	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	100	53	disadvantages	disadvantage	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	100	54	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	100	55	including	include	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	100	56	light	light	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	100	57	pene-	pene-	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	100	58	tration	tration	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	59	limitation	limitation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	60	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	100	61	windy	windy	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	100	62	weather	weather	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	63	disruptions	disruption	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	100	64	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	100	65	hard	hard	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	100	66	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	100	67	take	take	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	100	68	care	care	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	69	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	100	70	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	100	71	chances	chance	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	100	72	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	100	73	destroying	destroy	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	100	74	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	75	higher	high	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	100	76	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	100	77	Kligerman	Kligerman	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	78	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	100	79	Bouwer	Bouwer	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	100	80	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	100	81	2015	2015	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	100	82	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	100	83	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	101	1	4	4	LS
work_wb7rpcpa6nh55k4ay7iayeodqq	101	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	102	1	Comparative	comparative	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	102	2	Analysis	Analysis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	102	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	102	4	Algal	Algal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	102	5	Growth	Growth	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	102	6	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	102	7	Their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	102	8	Oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	102	9	Contents	Contents	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	102	10	Production	Production	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	102	11	Mitsuo	Mitsuo	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	102	12	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	102	13	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	102	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	103	1	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	103	2	1989	1989	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	103	3	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	103	4	worked	work	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	103	5	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	103	6	spirulina	spirulina	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	103	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	103	8	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	103	9	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	103	10	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	103	11	blue	blue	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	103	12	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	103	13	green	green	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	103	14	alga	alga	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	103	15	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	104	1	They	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	104	2	developed	develop	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	104	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	104	4	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	104	5	method	method	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	104	6	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	104	7	this	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	104	8	alga	alga	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	104	9	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	104	10	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	104	11	closed	closed	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	104	12	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	104	13	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	105	1	They	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	105	2	were	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	105	3	developing	develop	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	105	4	this	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	105	5	method	method	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	105	6	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	105	7	sue	sue	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	105	8	this	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	105	9	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	105	10	specie	specie	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	105	11	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	105	12	space	space	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	105	13	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	106	1	This	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	106	2	development	development	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	106	3	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	106	4	beneficial	beneficial	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	106	5	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	106	6	keep	keep	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	106	7	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	106	8	conditions	condition	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	106	9	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	106	10	growing	grow	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	106	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	106	12	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	106	13	homogenous	homogenous	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	106	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	107	1	This	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	107	2	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	107	3	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	107	4	good	good	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	107	5	step	step	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	107	6	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	107	7	obtain	obtain	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	107	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	107	9	products	product	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	107	10	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	107	11	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	107	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	108	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	108	2	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	108	3	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	108	4	made	make	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	108	5	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	108	6	such	such	PDT
work_wb7rpcpa6nh55k4ay7iayeodqq	108	7	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	108	8	way	way	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	108	9	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	108	10	carbon	carbon	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	108	11	dioxide	dioxide	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	108	12	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	108	13	oxygen	oxygen	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	108	14	control	control	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	108	15	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	108	16	made	make	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	108	17	beneficial	beneficial	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	108	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	109	1	Moreover	moreover	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	109	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	109	3	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	109	4	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	109	5	separation	separation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	109	6	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	109	7	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	109	8	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	109	9	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	109	10	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	109	11	product	product	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	109	12	isolation	isolation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	109	13	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	109	14	made	make	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	109	15	easy	easy	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	109	16	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	110	1	Leghari	Leghari	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	110	2	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	110	3	2002	2002	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	110	4	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	110	5	carried	carry	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	110	6	out	out	RP
work_wb7rpcpa6nh55k4ay7iayeodqq	110	7	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	110	8	ecological	ecological	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	110	9	study	study	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	110	10	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	110	11	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	110	12	flora	flora	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	110	13	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	110	14	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	110	15	Jhelum	Jhelum	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	110	16	River	River	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	110	17	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	110	18	Azad	Azad	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	110	19	Kashmir	Kashmir	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	110	20	during	during	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	110	21	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	110	22	period	period	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	110	23	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	110	24	January	January	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	110	25	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	110	26	June	June	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	110	27	1998	1998	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	110	28	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	111	1	This	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	111	2	included	include	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	111	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	111	4	research	research	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	111	5	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	111	6	134	134	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	111	7	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	111	8	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	111	9	belonging	belong	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	111	10	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	111	11	68	68	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	111	12	genera	genera	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	111	13	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	111	14	seven	seven	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	111	15	groups	group	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	111	16	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	111	17	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	111	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	112	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	112	2	basic	basic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	112	3	idea	idea	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	112	4	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	112	5	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	112	6	study	study	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	112	7	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	112	8	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	112	9	assess	assess	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	112	10	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	112	11	population	population	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	112	12	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	112	13	this	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	112	14	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	112	15	flora	flora	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	112	16	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	112	17	they	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	112	18	play	play	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	112	19	an	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	112	20	important	important	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	112	21	role	role	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	112	22	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	112	23	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	112	24	balanced	balanced	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	112	25	ecological	ecological	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	112	26	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	112	27	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	113	1	Water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	2	pollution	pollution	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	3	has	have	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	113	4	increased	increase	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	5	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	113	6	population	population	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	7	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	113	9	flora	flora	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	113	10	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	113	11	dangerously	dangerously	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	113	12	high	high	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	113	13	levels	level	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	113	14	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	113	15	inducing	induce	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	113	16	oxygen	oxygen	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	17	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	113	18	depletion	depletion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	19	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	20	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	21	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	113	22	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	113	23	unbalances	unbalance	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	113	24	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	113	25	ecosystem	ecosystem	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	26	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	27	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	113	28	hazardous	hazardous	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	113	29	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	30	aquatic	aquatic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	113	31	life	life	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	113	32	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	114	1	Scarcity	scarcity	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	114	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	114	3	such	such	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	114	4	plants	plant	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	114	5	may	may	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	114	6	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	114	7	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	114	8	dangerous	dangerous	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	114	9	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	114	10	they	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	114	11	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	114	12	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	114	13	primary	primary	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	114	14	producers	producer	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	114	15	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	114	16	their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	114	17	scarcity	scarcity	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	114	18	may	may	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	114	19	unbalance	unbalance	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	114	20	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	114	21	aquatic	aquatic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	114	22	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	114	23	chain	chain	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	114	24	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	115	1	Thus	thus	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	115	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	115	3	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	115	4	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	115	5	balanced	balanced	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	115	6	ecosystem	ecosystem	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	115	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	115	8	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	115	9	balanced	balanced	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	115	10	population	population	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	115	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	115	12	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	115	13	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	115	14	flora	flora	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	115	15	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	115	16	necessary	necessary	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	115	17	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	116	1	Leghari	Leghari	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	116	2	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	116	3	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	116	4	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	116	5	carried	carry	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	116	6	out	out	RP
work_wb7rpcpa6nh55k4ay7iayeodqq	116	7	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	116	8	comparative	comparative	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	116	9	ecological	ecological	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	116	10	study	study	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	116	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	116	12	algal	algal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	116	13	genera	genera	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	116	14	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	116	15	useful	useful	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	116	16	aquatic	aquatic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	116	17	weeds	weed	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	116	18	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	116	19	various	various	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	116	20	localities	locality	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	116	21	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	117	1	Twenty	twenty	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	117	2	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	117	3	nine	nine	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	117	4	genera	genera	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	117	5	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	117	6	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	117	7	belonging	belong	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	117	8	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	117	9	five	five	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	117	10	classes	class	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	117	11	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	117	12	47	47	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	117	13	aquatic	aquatic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	117	14	weeds	weed	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	117	15	belonging	belong	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	117	16	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	117	17	21	21	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	117	18	families	family	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	117	19	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	117	20	five	five	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	117	21	groups	group	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	117	22	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	117	23	35	35	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	117	24	physicochemical	physicochemical	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	117	25	parameters	parameter	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	117	26	were	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	117	27	recorded	record	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	117	28	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	118	1	Lakes	lake	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	118	2	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	118	3	rich	rich	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	118	4	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	118	5	primary	primary	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	118	6	productivity	productivity	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	118	7	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	118	8	fish	fish	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	118	9	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	118	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	119	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	119	2	study	study	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	119	3	revealed	reveal	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	119	4	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	119	5	search	search	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	119	6	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	119	7	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	119	8	flora	flora	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	119	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	119	10	aquatic	aquatic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	119	11	weeds	weed	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	119	12	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	119	13	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	119	14	analysis	analysis	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	119	15	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	119	16	observe	observe	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	119	17	physicochemical	physicochemical	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	119	18	proper-	proper-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	119	19	ties	tie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	119	20	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	119	21	comparative	comparative	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	119	22	study	study	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	119	23	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	119	24	explore	explore	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	119	25	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	119	26	either	either	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	119	27	rare	rare	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	119	28	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	119	29	common	common	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	119	30	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	119	31	observe	observe	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	119	32	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	119	33	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	119	34	beneficial	beneficial	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	119	35	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	119	36	toxic	toxic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	119	37	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	119	38	use	use	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	119	39	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	120	1	Ali	Ali	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	120	2	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	120	3	2007	2007	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	120	4	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	120	5	reviewed	review	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	120	6	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	120	7	limnological	limnological	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	120	8	studies	study	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	120	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	120	10	keeping	keep	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	120	11	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	120	12	view	view	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	120	13	their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	120	14	strong	strong	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	120	15	impact	impact	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	120	16	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	120	17	wetland	wetland	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	120	18	’s	’s	POS
work_wb7rpcpa6nh55k4ay7iayeodqq	120	19	biodiversity	biodiversity	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	120	20	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	121	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	121	2	results	result	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	121	3	revealed	reveal	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	121	4	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	121	5	among	among	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	121	6	total	total	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	121	7	103	103	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	121	8	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	121	9	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	121	10	planktons	plankton	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	121	11	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	121	12	51	51	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	121	13	were	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	121	14	found	find	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	121	15	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	121	16	Uchalli	Uchalli	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	121	17	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	121	18	47	47	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	121	19	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	121	20	Khabbaki	Khabbaki	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	121	21	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	121	22	39	39	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	121	23	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	121	24	Jahalar	Jahalar	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	121	25	Lake	Lake	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	121	26	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	121	27	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	121	28	31	31	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	121	29	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	121	30	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	121	31	were	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	121	32	phytoplankton	phytoplankton	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	121	33	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	121	34	whereas	whereas	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	121	35	69	69	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	121	36	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	121	37	were	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	121	38	zooplankton	zooplankton	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	121	39	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	122	1	Chisti	Chisti	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	122	2	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	122	3	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	122	4	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	122	5	revealed	reveal	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	122	6	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	7	because	because	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	8	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	9	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	122	10	higher	high	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	122	11	photosynthetic	photosynthetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	122	12	efficiency	efficiency	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	13	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	14	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	122	16	higher	high	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	122	17	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	18	productivities	productivity	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	122	19	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	122	20	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	122	21	faster	fast	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	122	22	growth	growth	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	23	rate	rate	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	24	than	than	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	25	higher	high	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	122	26	plants	plant	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	122	27	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	122	28	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	122	29	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	122	30	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	122	31	important	important	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	122	32	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	33	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	122	34	screening	screening	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	35	step	step	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	36	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	122	37	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	122	38	highest	high	JJS
work_wb7rpcpa6nh55k4ay7iayeodqq	122	39	CO2	CO2	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	122	40	fixation	fixation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	41	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	122	42	O2	o2	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	43	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	44	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	122	45	growing	grow	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	122	46	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	47	liquid	liquid	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	122	48	medium	medium	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	49	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	122	50	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	122	51	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	122	52	handled	handle	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	53	easily	easily	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	122	54	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	122	55	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	56	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	122	57	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	122	58	grown	grow	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	59	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	60	variable	variable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	122	61	cli-	cli-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	62	mates	mate	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	122	63	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	122	64	non	non	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	122	65	-	-	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	122	66	arable	arable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	122	67	land	land	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	68	including	include	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	122	69	marginal	marginal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	122	70	areas	area	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	122	71	unsuitable	unsuitable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	122	72	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	122	73	agricultural	agricultural	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	122	74	purposes	purpose	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	122	75	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	122	76	e.g.	e.g.	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	123	1	desert	desert	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	123	3	seashore	seashore	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	123	4	lands	lands	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	123	5	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	123	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	123	7	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	8	non-	non-	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	123	9	potable	potable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	123	10	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	11	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	123	12	even	even	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	123	13	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	14	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	123	15	waste	waste	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	16	treatment	treatment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	17	purpose	purpose	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	18	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	123	19	use	use	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	123	20	far	far	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	123	21	less	less	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	123	22	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	23	than	than	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	24	traditional	traditional	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	123	25	crops	crop	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	123	26	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	123	27	do	do	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	123	28	not	not	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	123	29	displace	displace	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	123	30	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	31	crop	crop	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	32	cultures	culture	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	123	33	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	123	34	their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	123	35	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	36	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	123	37	not	not	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	123	38	seasonal	seasonal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	123	39	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	123	40	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	123	41	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	123	42	harvested	harvest	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	123	43	daily	daily	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	123	44	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	124	1	Fernandez	Fernandez	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	124	2	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	124	3	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	124	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	125	1	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	125	2	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	125	3	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	125	4	studied	study	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	125	5	viability	viability	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	125	6	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	125	7	marine	marine	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	125	8	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	125	9	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	125	10	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	125	11	source	source	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	125	12	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	125	13	renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	125	14	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	125	15	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	125	16	laboratory	laboratory	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	125	17	scale	scale	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	125	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	126	1	They	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	126	2	evaluated	evaluate	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	126	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	126	4	anaerobic	anaerobic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	126	5	digestion	digestion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	6	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	7	Macrocystis	Macrocystis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	126	8	pyrifera	pyrifera	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	126	10	Durvillaea	Durvillaea	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	126	11	antarctica	antarctica	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	126	12	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	126	13	their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	126	14	blend	blend	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	15	1:1	1:1	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	126	16	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	126	17	w	w	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	126	18	/	/	SYM
work_wb7rpcpa6nh55k4ay7iayeodqq	126	19	w	w	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	126	20	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	126	21	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	22	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	126	23	two	two	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	126	24	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	126	25	phase	phase	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	26	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	27	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	126	28	observed	observe	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	29	methane	methane	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	30	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	31	biogas	biogas	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	32	yield	yield	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	33	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	34	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	35	blend	blend	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	36	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	126	37	but	but	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	126	38	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	126	39	lower	low	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	126	40	biogas	biogas	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	41	yield	yield	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	42	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	126	43	obtained	obtain	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	126	44	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	127	1	They	-PRON-	PRP
work_wb7rpcpa6nh55k4ay7iayeodqq	127	2	concluded	conclude	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	127	3	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	127	4	methane	methane	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	127	5	could	could	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	127	6	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	127	7	produced	produce	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	127	8	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	127	9	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	127	10	two	two	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	127	11	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	127	12	phase	phase	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	127	13	digestion	digestion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	127	14	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	127	15	using	use	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	127	16	either	either	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	127	17	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	127	18	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	127	19	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	127	20	their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	127	21	blend	blend	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	127	22	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	128	1	Mirza	Mirza	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	128	2	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	128	3	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	128	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	129	1	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	129	2	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	129	3	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	129	4	discussed	discuss	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	129	5	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	129	6	attention	attention	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	129	7	had	have	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	129	8	been	be	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	129	9	given	give	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	129	10	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	129	11	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	129	12	use	use	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	129	13	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	129	14	municipal	municipal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	129	15	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	129	16	industrial	industrial	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	129	17	wastes	waste	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	129	18	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	129	19	power	power	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	129	20	generation	generation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	129	21	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	130	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	130	2	government	government	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	3	had	have	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	130	4	been	be	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	5	financing	finance	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	130	6	many	many	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	130	7	projects	project	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	130	8	related	relate	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	9	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	10	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	11	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	12	development	development	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	13	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	14	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	130	15	country	country	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	16	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	130	17	but	but	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	130	18	still	still	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	130	19	lot	lot	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	130	20	more	more	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	130	21	ef-	ef-	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	130	22	forts	fort	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	130	23	were	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	130	24	being	be	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	130	25	needed	need	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	26	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	27	harnessing	harness	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	130	28	full	full	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	130	29	potential	potential	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	30	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	130	31	taking	take	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	130	32	maximum	maximum	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	130	33	benefit	benefit	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	34	out	out	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	35	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	36	this	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	130	37	important	important	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	130	38	renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	130	39	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	40	resource	resource	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	130	41	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	131	1	Gouveia	Gouveia	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	131	2	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	131	3	2009	2009	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	131	4	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	131	5	investigated	investigate	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	131	6	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	131	7	screening	screening	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	8	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	9	microalgae	microalgae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	10	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	131	11	Chlorella	Chlorella	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	131	12	vulgaris	vulgaris	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	13	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	131	14	Spirulina	Spirulina	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	131	15	maxima	maxima	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	16	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	131	17	Nannochloropsis	Nannochloropsis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	131	18	sp	sp	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	131	19	.	.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	131	20	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	131	21	Neochloris	Neochloris	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	131	22	oleoabundans	oleoabundan	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	131	23	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	131	24	Scenedesmus	Scenedesmus	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	131	25	obliquus	obliquus	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	26	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	131	27	Dunaliella	Dunaliella	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	131	28	tertiolecta	tertiolecta	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	29	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	131	30	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	131	31	which	which	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	131	32	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	131	33	performed	perform	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	34	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	131	35	choose	choose	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	131	36	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	131	37	best	good	JJS
work_wb7rpcpa6nh55k4ay7iayeodqq	131	38	one(s	one(s	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	39	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	131	40	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	131	41	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	42	terms	term	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	131	43	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	44	quantity	quantity	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	45	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	131	46	quality	quality	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	47	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	48	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	49	source	source	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	50	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	51	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	52	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	131	53	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	132	1	N.	N.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	132	2	oleoa-	oleoa-	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	132	3	bundans	bundan	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	132	4	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	132	5	fresh	fresh	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	132	6	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	132	7	microalga	microalga	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	132	8	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	132	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	132	10	Nannochloropsis	Nannochloropsis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	132	11	sp	sp	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	132	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	133	1	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	133	2	marine	marine	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	133	3	microalga	microalga	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	133	4	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	133	5	proved	prove	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	133	6	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	133	7	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	133	8	suitable	suitable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	133	9	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	133	10	raw	raw	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	133	11	materials	material	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	133	12	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	133	13	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	133	14	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	133	15	because	because	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	133	16	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	133	17	their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	133	18	high	high	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	133	19	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	133	20	content	content	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	133	21	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	133	22	29.0	29.0	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	133	23	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	133	24	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	133	25	28.7	28.7	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	133	26	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	133	27	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	133	28	respectively	respectively	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	133	29	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	133	30	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	134	1	Both	both	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	134	2	microalgae	microalgae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	134	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	134	4	when	when	WRB
work_wb7rpcpa6nh55k4ay7iayeodqq	134	5	grown	grow	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	134	6	under	under	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	134	7	nitrogen	nitrogen	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	134	8	shortage	shortage	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	134	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	134	10	showed	show	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	134	11	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	134	12	great	great	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	134	13	increase	increase	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	134	14	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	134	15	»	»	ADD
work_wb7rpcpa6nh55k4ay7iayeodqq	134	16	50	50	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	134	17	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	134	18	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	134	19	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	134	20	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	134	21	quantity	quantity	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	134	22	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	135	1	If	if	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	135	2	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	135	3	purpose	purpose	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	135	4	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	135	5	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	135	6	produce	produce	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	135	7	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	135	8	only	only	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	135	9	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	135	10	one	one	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	135	11	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	135	12	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	135	13	S.	S.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	135	14	obliquus	obliquus	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	135	15	presents	present	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	135	16	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	135	17	most	most	RBS
work_wb7rpcpa6nh55k4ay7iayeodqq	135	18	adequate	adequate	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	135	19	fatty	fatty	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	135	20	acid	acid	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	135	21	profile	profile	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	135	22	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	135	23	namely	namely	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	135	24	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	135	25	terms	term	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	135	26	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	135	27	linolenic	linolenic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	135	28	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	135	29	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	135	30	polyunsaturated	polyunsaturated	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	135	31	fatty	fatty	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	135	32	acids	acid	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	135	33	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	136	1	However	however	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	136	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	136	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	136	4	microalgae	microalgae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	136	5	N.	N.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	136	6	oleoabundans	oleoabundans	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	136	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	136	8	Nannochloropsis	Nannochloropsis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	136	9	sp	sp	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	136	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	137	1	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	137	2	D.	D.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	137	3	tertiolecta	tertiolecta	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	137	4	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	137	5	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	137	6	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	137	7	used	use	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	137	8	if	if	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	137	9	associated	associate	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	137	10	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	137	11	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	137	12	micro	micro	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	137	13	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	137	14	oils	oil	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	137	15	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	137	16	vegetable	vegetable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	137	17	oils	oil	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	137	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	138	1	Sharif	Sharif	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	138	2	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	138	3	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	138	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	139	1	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	139	2	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	139	3	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	139	4	studied	study	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	139	5	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	139	6	common	common	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	139	7	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	139	8	Oedogonium	Oedogonium	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	139	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	139	10	Spirogyra	Spirogyra	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	139	11	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	139	12	compare	compare	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	139	13	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	139	14	amount	amount	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	139	15	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	139	16	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	139	17	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	139	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	140	1	Algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	140	2	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	140	3	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	140	4	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	140	5	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	140	6	ester	ester	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	140	7	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	140	8	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	140	9	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	140	10	higher	high	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	140	11	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	140	12	Oedogonium	Oedogonium	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	140	13	than	than	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	140	14	Spirogyra	Spirogyra	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	140	15	sp	sp	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	140	16	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	141	1	However	however	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	141	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	141	3	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	141	4	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	141	5	after	after	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	141	6	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	141	7	extrac-	extrac-	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	141	8	tion	tion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	141	9	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	141	10	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	141	11	higher	high	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	141	12	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	141	13	Spirogyra	Spirogyra	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	141	14	than	than	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	141	15	Oedogonium	Oedogonium	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	141	16	sp	sp	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	141	17	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	142	1	Sediments	Sediments	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	142	2	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	142	3	glycerin	glycerin	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	142	4	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	142	5	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	142	6	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	142	7	pigments	pigment	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	142	8	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	142	9	were	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	142	10	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	142	11	higher	high	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	142	12	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	142	13	Spirogyra	Spirogyra	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	142	14	than	than	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	142	15	Oedogonium	Oedogonium	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	142	16	sp	sp	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	142	17	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	143	1	There	there	EX
work_wb7rpcpa6nh55k4ay7iayeodqq	143	2	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	143	3	no	no	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	143	4	difference	difference	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	143	5	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	143	6	pH	pH	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	143	7	between	between	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	143	8	Spirogyra	Spirogyra	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	143	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	143	10	Oedogonium	Oedogonium	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	143	11	specie	specie	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	143	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	144	1	These	these	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	144	2	results	result	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	144	3	indicate	indicate	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	144	4	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	144	5	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	144	6	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	144	7	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	144	8	produced	produce	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	144	9	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	144	10	both	both	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	144	11	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	144	12	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	144	13	Oedogonium	Oedogonium	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	144	14	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	144	15	better	well	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	144	16	source	source	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	144	17	than	than	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	144	18	Spirogyra	Spirogyra	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	144	19	specie	specie	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	144	20	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	145	1	Park	Park	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	145	2	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	145	3	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	145	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	146	1	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	146	2	2011	2011	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	146	3	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	146	4	reported	report	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	146	5	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	6	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	7	could	could	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	146	8	use	use	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	146	9	growth	growth	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	10	nutrients	nutrient	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	146	11	such	such	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	146	12	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	13	nitrogen	nitrogen	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	14	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	146	15	phosphorous	phosphorous	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	146	16	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	17	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	146	18	variety	variety	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	19	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	20	wastewater	wastewater	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	21	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	146	22	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	146	23	agricultural	agricultural	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	146	24	run	run	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	25	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	146	26	off	off	RP
work_wb7rpcpa6nh55k4ay7iayeodqq	146	27	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	146	28	concentrated	concentrated	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	146	29	animal	animal	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	30	feed	feed	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	31	S.	S.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	146	32	Khan	Khan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	146	33	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	146	34	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	146	35	al166	al166	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	146	36	operations	operation	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	146	37	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	146	38	industrial	industrial	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	146	39	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	146	40	municipal	municipal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	146	41	wastewater	wastewater	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	42	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	146	43	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	146	44	thus	thus	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	146	45	providing	provide	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	146	46	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	146	47	sustainable	sustainable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	146	48	bioremediation	bioremediation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	49	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	50	these	these	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	146	51	waste	waste	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	52	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	53	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	146	54	economic	economic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	146	55	benefits	benefit	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	146	56	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	146	57	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	147	1	Prem	Prem	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	147	2	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	147	3	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	147	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	148	1	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	148	2	2009	2009	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	148	3	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	148	4	reviewed	review	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	148	5	that	that	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	148	6	worldwide	worldwide	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	148	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	148	8	many	many	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	148	9	nations	nation	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	148	10	impose	impose	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	148	11	blending	blending	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	12	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	13	their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	148	14	transport	transport	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	15	fuels	fuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	148	16	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	17	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	148	18	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	148	19	approxi-	approxi-	XX
work_wb7rpcpa6nh55k4ay7iayeodqq	148	20	mating	mate	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	148	21	10	10	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	148	22	%	%	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	23	globally	globally	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	148	24	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	25	2020	2020	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	148	26	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	148	27	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	148	28	contribute	contribute	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	148	29	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	30	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	31	security	security	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	32	while	while	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	33	reducing	reduce	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	148	34	emission	emission	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	35	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	36	greenhouse	greenhouse	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	148	37	gases	gas	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	148	38	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	149	1	Pienkos	Pienkos	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	149	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	149	3	Darzins	Darzins	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	149	4	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	149	5	2009	2009	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	149	6	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	149	7	concluded	conclude	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	149	8	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	9	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	149	10	comparison	comparison	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	12	one	one	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	149	13	unique	unique	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	149	14	aspect	aspect	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	15	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	16	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	17	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	18	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	149	19	advanced	advanced	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	149	20	feedstock	feedstock	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	21	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	149	22	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	149	23	spectrum	spectrum	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	24	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	25	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	149	26	available	available	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	149	27	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	28	amenability	amenability	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	29	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	30	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	31	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	149	32	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	150	1	Various	various	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	150	2	species	specie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	150	3	may	may	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	150	4	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	150	5	selected	select	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	150	6	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	150	7	optimize	optimize	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	150	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	150	9	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	150	10	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	150	11	different	different	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	150	12	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	150	13	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	151	1	Algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	2	offer	offer	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	151	3	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	151	4	diverse	diverse	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	151	5	spectrum	spectrum	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	6	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	7	valuable	valuable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	151	8	products	product	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	151	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	151	10	pollution	pollution	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	11	solutions	solution	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	151	12	such	such	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	151	13	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	14	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	16	nutritional	nutritional	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	151	17	compounds	compound	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	151	18	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	19	animal	animal	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	20	feed	feed	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	21	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	22	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	23	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	151	24	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	151	25	including	include	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	151	26	jet	jet	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	27	fuel	fuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	28	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	29	aviation	aviation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	30	gas	gas	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	31	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	32	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	33	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	34	gasoline	gasoline	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	35	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	151	36	bioethanol	bioethanol	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	151	37	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	151	38	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	39	organic	organic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	151	40	fertilizers	fertilizer	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	151	41	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	42	biodegradable	biodegradable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	151	43	plastics	plastic	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	151	44	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	45	recombinant	recombinant	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	151	46	proteins	protein	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	151	47	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	48	pigments	pigment	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	151	49	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	50	medicines	medicine	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	151	51	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	151	52	pharmaceuticals	pharmaceutical	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	151	53	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	151	54	vaccines	vaccine	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	151	55	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	152	1	A	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	152	2	number	number	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	152	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	152	4	microorganisms	microorganism	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	152	5	belonging	belong	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	152	6	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	152	7	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	152	8	genera	genera	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	152	9	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	152	10	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	152	11	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	152	12	yeast	yeast	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	152	13	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	152	14	bacteria	bacteria	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	152	15	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	152	16	fungi	fungus	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	152	17	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	152	18	ability	ability	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	152	19	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	152	20	accumulate	accumulate	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	152	21	neutral	neutral	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	152	22	lipids	lipid	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	152	23	under	under	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	152	24	specific	specific	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	152	25	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	152	26	conditions	condition	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	152	27	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	153	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	153	2	microbial	microbial	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	153	3	lipids	lipid	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	153	4	contained	contain	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	153	5	high	high	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	153	6	fractions	fraction	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	153	7	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	153	8	polyunsaturated	polyunsaturated	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	153	9	fatty	fatty	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	153	10	acids	acid	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	153	11	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	153	12	had	have	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	153	13	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	153	14	potential	potential	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	153	15	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	153	16	serve	serve	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	153	17	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	153	18	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	153	19	source	source	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	153	20	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	153	21	significant	significant	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	153	22	quantities	quantity	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	153	23	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	153	24	transportation	transportation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	153	25	fuels	fuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	153	26	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	153	27	Liam	Liam	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	153	28	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	153	29	Owende	Owende	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	153	30	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	153	31	2010	2010	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	153	32	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	153	33	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	154	1	Subhadra	Subhadra	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	154	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	154	3	Edwards	Edwards	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	154	4	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	154	5	2010	2010	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	154	6	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	154	7	studied	study	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	154	8	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	154	9	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	154	10	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	154	11	provided	provide	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	154	12	viable	viable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	154	13	third	third	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	154	14	generation	generation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	154	15	feedstock	feedstock	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	154	16	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	154	17	liquid	liquid	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	154	18	transportation	transportation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	154	19	fuel	fuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	154	20	that	that	WDT
work_wb7rpcpa6nh55k4ay7iayeodqq	154	21	does	do	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	154	22	not	not	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	154	23	compete	compete	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	154	24	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	154	25	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	154	26	crops	crop	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	154	27	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	154	28	cropland	cropland	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	154	29	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	155	1	However	however	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	155	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	155	3	fossil	fossil	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	155	4	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	155	5	inputs	input	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	155	6	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	155	7	intensive	intensive	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	155	8	water	water	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	155	9	usage	usage	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	155	10	diminishes	diminish	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	155	11	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	155	12	positive	positive	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	155	13	aspects	aspect	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	155	14	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	155	15	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	155	16	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	155	17	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	155	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	156	1	An	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	156	2	in-	in-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	3	tegrated	tegrate	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	156	4	renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	156	5	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	6	park	park	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	7	approach	approach	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	8	was	be	VBD
work_wb7rpcpa6nh55k4ay7iayeodqq	156	9	proposed	propose	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	10	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	11	aligning	align	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	156	12	renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	156	13	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	14	industries	industry	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	156	15	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	16	resource	resource	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	17	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	156	18	specific	specific	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	156	19	regions	region	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	156	20	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	21	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	156	22	United	United	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	156	23	States	States	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	156	24	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	25	synergistic	synergistic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	156	26	electricity	electricity	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	27	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	156	28	liquid	liquid	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	156	29	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	30	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	31	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	32	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	156	33	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	34	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	35	net	net	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	156	36	zero	zero	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	156	37	carbon	carbon	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	156	38	emissions	emission	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	156	39	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	157	1	5	5	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	157	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	158	1	Role	Role	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	158	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	158	3	Gene	Gene	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	158	4	Technologies	Technologies	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	158	5	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	158	6	Biodiesel	Biodiesel	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	158	7	Production	Production	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	158	8	Genomics	Genomics	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	158	9	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	158	10	play	play	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	158	11	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	158	12	key	key	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	158	13	role	role	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	158	14	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	158	15	solving	solve	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	158	16	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	158	17	world	world	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	158	18	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	158	19	crisis	crisis	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	158	20	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	159	1	Through	through	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	159	2	genomics	genomic	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	159	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	159	4	scientists	scientist	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	159	5	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	159	6	develop	develop	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	159	7	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	159	8	better	well	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	159	9	approach	approach	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	159	10	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	159	11	how	how	WRB
work_wb7rpcpa6nh55k4ay7iayeodqq	159	12	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	159	13	harness	harness	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	159	14	various	various	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	159	15	renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	159	16	sources	source	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	159	17	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	159	18	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	159	19	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	159	20	such	such	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	159	21	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	159	22	cyanobacteria	cyanobacteria	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	159	23	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	159	24	microalgae	microalgae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	159	25	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	159	26	lignocellulosic	lignocellulosic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	159	27	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	159	28	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	160	1	One	one	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	160	2	day	day	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	160	3	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	160	4	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	160	5	global	global	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	160	6	scale	scale	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	160	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	160	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	160	9	development	development	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	160	10	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	160	11	sustainable	sustainable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	160	12	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	160	13	through	through	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	160	14	genetic	genetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	160	15	engineering	engineering	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	160	16	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	160	17	an	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	160	18	enzyme	enzyme	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	160	19	will	will	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	160	20	replace	replace	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	160	21	fossil	fossil	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	160	22	fuels	fuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	160	23	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	160	24	Davidson	Davidson	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	160	25	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	160	26	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	160	27	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	160	28	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	161	1	Cellulose	Cellulose	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	161	2	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	3	has	have	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	161	4	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	161	5	capability	capability	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	6	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	161	7	meet	meet	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	161	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	161	9	demand	demand	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	10	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	11	liquid	liquid	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	161	12	fuel	fuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	13	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	161	14	but	but	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	161	15	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	16	high	high	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	161	17	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	161	18	scale	scale	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	19	deployment	deployment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	20	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	21	biomass-	biomass-	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	161	22	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	23	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	161	24	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	25	technologies	technology	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	161	26	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	161	27	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	28	inefficiencies	inefficiency	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	161	29	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	161	30	land	land	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	31	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	161	32	use	use	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	161	33	requirements	requirement	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	161	34	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	161	35	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	161	36	main	main	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	161	37	obstacles	obstacle	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	161	38	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	162	1	Thus	thus	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	162	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	162	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	162	4	genomics	genomic	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	162	5	knowl-	knowl-	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	162	6	edge	edge	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	162	7	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	162	8	microorganisms	microorganism	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	162	9	can	can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	162	10	break	break	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	162	11	down	down	RP
work_wb7rpcpa6nh55k4ay7iayeodqq	162	12	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	162	13	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	162	14	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	162	15	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	162	16	po-	po-	XX
work_wb7rpcpa6nh55k4ay7iayeodqq	162	17	tential	tential	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	162	18	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	162	19	crops	crop	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	162	20	will	will	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	162	21	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	162	22	vital	vital	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	162	23	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	162	24	improving	improve	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	162	25	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	162	26	prospects	prospect	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	162	27	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	162	28	important	important	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	162	29	cellulosic	cellulosic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	162	30	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	162	31	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	162	32	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	162	33	Rubin	Rubin	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	162	34	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	162	35	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	162	36	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	162	37	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	163	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	163	2	genomic	genomic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	163	3	information	information	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	163	4	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	163	5	bioenergy	bioenergy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	163	6	crops	crop	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	163	7	will	will	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	163	8	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	163	9	accelerate	accelerate	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	163	10	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	163	11	domestication	domestication	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	163	12	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	163	13	these	these	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	163	14	plants	plant	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	163	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	163	16	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	163	17	even	even	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	163	18	will	will	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	163	19	improve	improve	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	163	20	their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	163	21	growth	growth	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	163	22	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	163	23	poor	poor	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	163	24	agricultural	agricultural	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	163	25	lands	land	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	163	26	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	163	27	avoid	avoid	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	163	28	competition	competition	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	163	29	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	163	30	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	163	31	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	163	32	crops	crop	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	163	33	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	163	34	Rubin	Rubin	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	163	35	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	163	36	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	163	37	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	163	38	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	164	1	Further	further	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	164	2	genetic	genetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	164	3	underpinning	underpinning	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	4	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	164	5	such	such	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	164	6	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	7	cell	cell	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	8	wall	wall	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	9	chemistry	chemistry	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	10	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	164	11	stem	stem	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	164	12	thickness	thickness	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	13	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	164	14	branching	branch	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	164	15	habit	habit	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	16	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	164	17	competition	competition	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	18	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	19	light	light	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	20	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	164	21	growth	growth	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	22	rates	rate	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	164	23	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	164	24	will	will	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	164	25	maximize	maximize	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	164	26	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	27	yield	yield	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	28	per	per	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	29	unit	unit	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	30	land	land	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	31	area	area	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	164	32	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	164	33	Tuskan	Tuskan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	164	34	et	et	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	164	35	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	164	36	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	165	1	2006	2006	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	165	2	;	;	:
work_wb7rpcpa6nh55k4ay7iayeodqq	165	3	Rubin	Rubin	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	165	4	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	165	5	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	165	6	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	165	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	166	1	Currently	currently	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	166	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	166	3	intensive	intensive	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	166	4	global	global	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	166	5	researches	research	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	166	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	166	7	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	8	increasing	increase	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	166	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	166	10	modifying	modify	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	166	11	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	166	12	accumulation	accumulation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	13	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	14	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	15	rich	rich	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	166	16	compounds	compound	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	166	17	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	166	18	such	such	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	166	19	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	20	polysaccharides	polysaccharide	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	166	21	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	166	22	hydrocarbons	hydrocarbon	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	166	23	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	166	24	alcohols	alcohol	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	166	25	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	166	26	lipids	lipid	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	166	27	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	166	28	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	166	29	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	30	rich	rich	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	166	31	chemical	chemical	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	32	compounds	compound	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	166	33	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	34	photosynthetic	photosynthetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	166	35	organisms	organism	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	166	36	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	166	37	bacteria	bacteria	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	166	38	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	166	39	yeast	yeast	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	40	via	via	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	41	genetic	genetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	166	42	engi-	engi-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	43	neering	neering	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	44	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	166	45	been	be	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	46	carried	carry	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	47	out	out	RP
work_wb7rpcpa6nh55k4ay7iayeodqq	166	48	with	with	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	166	49	good	good	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	166	50	results	result	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	166	51	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	167	1	Although	although	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	2	many	many	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	167	3	advances	advance	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	167	4	through	through	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	5	genetic	genetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	167	6	engineering	engineering	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	7	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	8	photosynthetic	photosynthetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	167	9	micro-	micro-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	10	organisms	organism	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	167	11	have	have	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	167	12	been	be	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	13	achieved	achieve	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	14	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	167	15	because	because	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	16	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	17	their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	167	18	capability	capability	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	19	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	167	20	secrete	secrete	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	167	21	or	or	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	167	22	store	store	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	167	23	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	24	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	167	25	rich	rich	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	167	26	hydrocarbons	hydrocarbon	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	167	27	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	167	28	superior	superior	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	167	29	growth	growth	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	30	rates	rate	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	167	31	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	167	32	diverse	diverse	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	167	33	metabolic	metabolic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	167	34	abilities	ability	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	167	35	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	167	36	high	high	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	167	37	photosynthetic	photosynthetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	167	38	conversion	conversion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	167	39	efficiencies	efficiency	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	167	40	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	167	41	Radakovits	Radakovits	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	167	42	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	167	43	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	167	44	.	.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	167	45	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	167	46	2010	2010	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	167	47	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	167	48	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	168	1	Still	still	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	168	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	168	3	further	further	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	168	4	studies	study	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	168	5	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	168	6	needed	need	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	168	7	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	168	8	extend	extend	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	168	9	these	these	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	168	10	advances	advance	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	168	11	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	168	12	industrially	industrially	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	168	13	relevant	relevant	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	168	14	microorganisms	microorganism	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	168	15	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	169	1	6	6	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	169	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	170	1	Conclusion	conclusion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	170	2	Although	although	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	170	3	much	much	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	170	4	work	work	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	170	5	has	have	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	170	6	been	be	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	170	7	performed	perform	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	170	8	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	170	9	identification	identification	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	170	10	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	170	11	suitable	suitable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	170	12	specie	specie	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	170	13	having	have	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	170	14	good	good	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	170	15	characteristics	characteristic	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	170	16	not	not	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	170	17	only	only	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	170	18	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	170	19	wise	wise	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	170	20	but	but	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	170	21	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	170	22	growth	growth	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	170	23	wise	wise	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	170	24	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	170	25	needed	need	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	170	26	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	171	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	171	2	growth	growth	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	4	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	5	needs	need	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	171	6	suitable	suitable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	171	7	environment	environment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	8	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	171	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	171	10	work	work	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	171	11	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	12	its	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	171	13	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	14	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	171	15	harvesting	harvesting	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	16	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	171	17	needed	need	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	18	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	171	19	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	171	20	developed	develop	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	21	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	22	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	171	23	large	large	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	171	24	amount	amount	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	25	could	could	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	171	26	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	171	27	grown	grow	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	171	28	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	172	1	Technical	technical	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	172	2	experience	experience	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	172	3	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	172	4	technological	technological	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	172	5	development	development	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	172	6	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	172	7	also	also	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	172	8	required	require	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	172	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	173	1	More	More	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	173	2	advancement	advancement	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	173	3	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	173	4	genetically	genetically	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	173	5	engineering	engineer	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	173	6	species	species	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	173	7	growth	growth	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	173	8	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	173	9	needed	need	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	173	10	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	173	11	produce	produce	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	173	12	required	required	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	173	13	amounts	amount	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	173	14	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	173	15	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	173	16	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	173	17	short	short	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	173	18	time	time	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	173	19	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	173	20	less	less	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	173	21	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	173	22	utilization	utilization	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	173	23	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	174	1	Conflict	conflict	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	174	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	174	3	Interest	Interest	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	174	4	Statement	Statement	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	174	5	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	174	6	authors	author	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	174	7	declare	declare	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	174	8	that	that	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	174	9	there	there	EX
work_wb7rpcpa6nh55k4ay7iayeodqq	174	10	is	be	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	174	11	no	no	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	174	12	conflict	conflict	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	174	13	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	174	14	interest	interest	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	174	15	regarding	regard	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	174	16	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	174	17	publication	publication	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	174	18	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	174	19	this	this	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	174	20	paper	paper	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	174	21	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	175	1	Acknowledgement	acknowledgement	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	175	2	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	175	3	authors	author	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	175	4	are	be	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	175	5	thankful	thankful	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	175	6	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	175	7	CAS	CAS	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	175	8	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	175	9	TWAS	TWAS	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	175	10	president	president	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	175	11	's	's	POS
work_wb7rpcpa6nh55k4ay7iayeodqq	175	12	fellowship	fellowship	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	175	13	program	program	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	175	14	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	175	15	State	State	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	175	16	Key	Key	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	175	17	Laboratory	Laboratory	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	175	18	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	175	19	Freshwater	Freshwater	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	175	20	Ecology	Ecology	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	175	21	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	175	22	Biotechnology	Biotechnology	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	175	23	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	175	24	Grant	Grant	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	175	25	No	No	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	175	26	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	176	1	Y119011F01	y119011f01	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	176	2	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	176	3	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	176	4	financial	financial	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	176	5	support	support	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	176	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	177	1	References	References	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	177	2	Ali	Ali	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	177	3	Z	Z	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	177	4	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	177	5	Ahmad	Ahmad	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	177	6	SS	SS	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	177	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	177	8	Akhtar	Akhtar	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	177	9	M	M	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	177	10	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	177	11	Khan	Khan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	177	12	MA	MA	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	177	13	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	177	14	Khan	Khan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	177	15	MN	MN	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	177	16	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	178	1	2007	2007	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	178	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	179	1	Ecology	ecology	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	179	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	179	3	diversity	diversity	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	179	4	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	179	5	planktons	plankton	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	179	6	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	179	7	lakes	lake	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	179	8	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	179	9	Uchalli	uchalli	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	179	10	wetlands	wetland	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	179	11	complex	complex	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	179	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	180	1	Pak	Pak	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	180	2	J	J	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	180	3	Anim	Anim	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	180	4	Plt	Plt	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	180	5	Sci	Sci	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	180	6	17:1e2	17:1e2	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	180	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	181	1	Balat	Balat	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	181	2	M.	M.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	181	3	2007	2007	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	181	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	182	1	An	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	182	2	overview	overview	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	182	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	182	4	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	182	5	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	182	6	policies	policy	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	182	7	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	182	8	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	182	9	European	European	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	182	10	Union	Union	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	182	11	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	183	1	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	183	2	Sources	Sources	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	183	3	B	B	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	183	4	Econ	Econ	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	183	5	Plann	Plann	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	183	6	2(2):167e81	2(2):167e81	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	183	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	184	1	Banerjee	Banerjee	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	184	2	A	A	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	184	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	184	4	Sharma	Sharma	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	184	5	R	R	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	184	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	184	7	Chisti	Chisti	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	184	8	Y	Y	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	184	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	184	10	Banerjee	Banerjee	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	184	11	UC	UC	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	184	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	185	1	2002	2002	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	185	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	186	1	Botryococcus	Botryococcus	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	186	2	braunii	braunii	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	186	3	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	186	4	renew-	renew-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	186	5	able	able	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	186	6	source	source	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	186	7	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	186	8	hydrocarbons	hydrocarbon	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	186	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	186	10	other	other	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	186	11	chemicals	chemical	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	186	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	187	1	Crit	Crit	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	187	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	188	1	Rev.	Rev.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	189	1	Biotech	Biotech	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	189	2	22(3	22(3	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	189	3	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	189	4	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	189	5	245e79	245e79	LS
work_wb7rpcpa6nh55k4ay7iayeodqq	189	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	190	1	Becker	Becker	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	190	2	K	K	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	190	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	190	4	Makkar	Makkar	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	190	5	HPS	HPS	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	190	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	191	1	May	May	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	191	2	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	191	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	192	1	Jatropha	Jatropha	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	192	2	curcas	curcas	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	192	3	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	192	4	A	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	192	5	Potential	Potential	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	192	6	Source	Source	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	192	7	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	192	8	Tomor-	Tomor-	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	192	9	row	row	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	192	10	's	's	POS
work_wb7rpcpa6nh55k4ay7iayeodqq	192	11	Oil	Oil	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	192	12	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	192	13	Biodiesel	Biodiesel	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	192	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	193	1	Lipid	Lipid	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	193	2	Technol	Technol	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	193	3	20(5):104e7	20(5):104e7	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	193	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	194	1	Charles	Charles	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	194	2	MB	MB	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	194	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	194	4	Ryan	Ryan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	194	5	R	R	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	194	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	194	7	Ryan	Ryan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	194	8	N	N	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	194	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	194	10	Oloruntoba	Oloruntoba	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	194	11	R.	R.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	194	12	2007	2007	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	194	13	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	195	1	Public	public	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	195	2	policy	policy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	195	3	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	195	4	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	195	5	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	195	6	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	195	7	way	way	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	195	8	forward	forward	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	195	9	?	?	.
work_wb7rpcpa6nh55k4ay7iayeodqq	196	1	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	196	2	Policy	Policy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	196	3	35(11):5737e46	35(11):5737e46	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	196	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	197	1	Chisti	Chisti	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	197	2	Y.	Y.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	198	1	2007	2007	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	198	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	199	1	Biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	199	2	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	199	3	microalgae	microalgae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	199	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	200	1	Biotechnology	Biotechnology	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	200	2	Adv	Adv	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	200	3	25(3):294e306	25(3):294e306	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	200	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	201	1	Chisti	Chisti	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	201	2	Y.	Y.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	202	1	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	202	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	203	1	Biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	203	2	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	203	3	microalgae	microalgae	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	203	4	beats	beat	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	203	5	bioethanol	bioethanol	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	203	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	204	1	Trends	trend	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	204	2	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	204	3	Biotechnol	Biotechnol	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	204	4	26(3):126e31	26(3):126e31	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	204	5	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	205	1	Chisti	Chisti	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	205	2	Y.	Y.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	206	1	2013	2013	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	206	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	207	1	Constraints	constraint	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	207	2	to	to	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	207	3	commercialization	commercialization	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	207	4	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	207	5	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	207	6	fuels	fuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	207	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	208	1	Journal	Journal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	208	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	208	3	Biotechnol	Biotechnol	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	208	4	167(3):201e14	167(3):201e14	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	208	5	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	209	1	Chojnacka	Chojnacka	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	209	2	K	K	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	209	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	209	4	Chojnacki	Chojnacki	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	209	5	A	A	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	209	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	209	7	Gorecka	Gorecka	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	209	8	H.	H.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	209	9	2005	2005	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	209	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	210	1	Biosorption	biosorption	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	210	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	210	3	Cr	Cr	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	210	4	3þ	3þ	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	210	5	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	210	6	Cd	Cd	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	210	7	2þ	2þ	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	210	8	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	210	9	Cu	Cu	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	210	10	2þ	2þ	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	210	11	ions	ion	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	210	12	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	210	13	blueegreen	blueegreen	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	210	14	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	210	15	Spirulina	Spirulina	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	210	16	sp	sp	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	210	17	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	211	1	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	211	2	kinetics	kinetics	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	211	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	211	4	equilibrium	equilibrium	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	211	5	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	211	6	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	211	7	mecha-	mecha-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	211	8	nism	nism	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	211	9	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	211	10	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	211	11	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	211	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	212	1	Chemosphere	Chemosphere	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	212	2	59(1):75e84	59(1):75e84	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	212	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	213	1	Chojnacka	Chojnacka	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	213	2	K	K	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	213	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	213	4	Marquez	Marquez	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	213	5	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	213	6	Rocha	Rocha	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	213	7	FJ	FJ	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	213	8	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	214	1	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	214	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	215	1	Kinetic	Kinetic	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	215	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	216	1	Stoichiometric	stoichiometric	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	216	2	relationships	relationship	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	216	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	216	4	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	216	5	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	216	6	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	216	7	carbon	carbon	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	216	8	metabolism	metabolism	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	216	9	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	216	10	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	216	11	culture	culture	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	216	12	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	216	13	microalgae	microalgae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	216	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	217	1	Biotechnology	biotechnology	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	217	2	3(1	3(1	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	217	3	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	217	4	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	217	5	21e34	21e34	LS
work_wb7rpcpa6nh55k4ay7iayeodqq	217	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	218	1	Davidson	Davidson	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	218	2	S.	S.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	218	3	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	218	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	219	1	Sustainable	sustainable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	219	2	bioenergy	bioenergy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	219	3	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	219	4	genomics	genomic	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	219	5	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	219	6	biofuels	biofuels	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	219	7	development	development	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	219	8	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	220	1	Nat	Nat	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	220	2	Educ	Educ	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	220	3	1(1):175	1(1):175	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	220	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	221	1	Dufey	Dufey	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	221	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	222	1	2006	2006	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	222	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	223	1	Biofuels	Biofuels	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	223	2	Production	Production	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	223	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	223	4	Trade	Trade	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	223	5	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	223	6	Sustainable	Sustainable	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	223	7	Development	Development	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	223	8	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	223	9	Emerging	Emerging	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	223	10	Issues	Issues	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	223	11	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	224	1	London	London	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	224	2	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	224	3	International	International	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	224	4	Institute	Institute	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	224	5	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	224	6	Environment	Environment	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	224	7	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	224	8	Development	Development	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	224	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	224	10	London	London	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	224	11	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	225	1	Dunahay	Dunahay	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	225	2	TG	TG	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	225	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	225	4	Jarvis	Jarvis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	225	5	EE	EE	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	225	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	225	7	Dais	Dais	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	225	8	SS	SS	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	225	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	225	10	Roessler	Roessler	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	225	11	PG	PG	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	225	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	226	1	1996	1996	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	226	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	227	1	Manipulation	manipulation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	227	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	227	3	microalgal	microalgal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	227	4	lipid	lipid	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	227	5	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	227	6	using	use	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	227	7	genetic	genetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	227	8	engineering	engineering	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	227	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	228	1	Appl	Appl	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	228	2	Biochem	Biochem	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	228	3	Biotechnol	Biotechnol	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	228	4	57e58:223e31	57e58:223e31	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	228	5	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	229	1	Dürre	Dürre	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	229	2	P.	P.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	229	3	1997	1997	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	229	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	230	1	Biobutanol	Biobutanol	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	230	2	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	230	3	an	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	230	4	attractive	attractive	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	230	5	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	230	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	231	1	Biotechnol	Biotechnol	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	231	2	J	J	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	231	3	2(12):1525e34	2(12):1525e34	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	231	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	231	5	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	231	6	2007	2007	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	231	7	Dec.	December	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	231	8	Fern	Fern	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	231	9	�	�	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	231	10	andez	andez	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	231	11	AV	av	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	231	12	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	231	13	Vargas	Vargas	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	231	14	G	G	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	231	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	231	16	Alarc	Alarc	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	231	17	�	�	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	231	18	on	on	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	231	19	N	N	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	231	20	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	231	21	Velasco	Velasco	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	231	22	A.	A.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	232	1	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	232	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	233	1	Evaluation	evaluation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	233	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	233	3	marine	marine	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	233	4	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	233	5	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	233	6	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	233	7	source	source	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	233	8	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	233	9	biogas	biogas	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	233	10	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	233	11	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	233	12	two	two	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	233	13	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	233	14	stage	stage	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	233	15	anaerobic	anaerobic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	233	16	reactor	reactor	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	233	17	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	233	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	234	1	Biomass	Biomass	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	234	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	234	3	Bio-	Bio-	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	234	4	energy:338e44	energy:338e44	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	234	5	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	235	1	Gouveia	Gouveia	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	235	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	235	3	Oliveira	Oliveira	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	235	4	LAC	LAC	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	235	5	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	236	1	2009	2009	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	236	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	237	1	Micro	Micro	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	237	2	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	237	3	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	237	4	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	237	5	raw	raw	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	237	6	material	material	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	237	7	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	237	8	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	237	9	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	237	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	238	1	J.	J.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	238	2	Ind.	Indiana	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	239	1	Microbial	Microbial	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	239	2	Biotech	Biotech	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	239	3	36:269e74	36:269e74	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	239	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	240	1	Grima	Grima	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	240	2	EM	EM	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	240	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	240	4	Belarbi	Belarbi	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	240	5	EH	EH	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	240	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	240	7	Fern	Fern	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	240	8	�	�	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	240	9	andez	andez	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	240	10	FA	FA	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	240	11	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	240	12	Medina	Medina	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	240	13	AR	AR	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	240	14	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	240	15	Chisti	Chisti	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	240	16	Y.	Y.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	241	1	2003	2003	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	241	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	242	1	Recovery	Recovery	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	242	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	242	3	microalgal	microalgal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	242	4	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	242	5	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	242	6	metabolites	metabolite	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	242	7	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	242	8	process	process	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	242	9	options	option	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	242	10	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	242	11	economics	economic	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	242	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	243	1	Biotechnol	Biotechnol	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	243	2	Advances	Advances	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	243	3	20(7):491e515	20(7):491e515	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	243	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	244	1	Kaewpintong	Kaewpintong	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	244	2	K.	K.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	244	3	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	244	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	245	1	Cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	245	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	245	3	Haeatococus	Haeatococus	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	245	4	pluvalis	pluvalis	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	245	5	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	245	6	Airlift	Airlift	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	245	7	Bioreactor	Bioreactor	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	245	8	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	246	1	Master	Master	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	246	2	Thesis	Thesis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	246	3	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	246	4	Chemical	Chemical	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	246	5	Engineering	Engineering	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	246	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	246	7	Department	Department	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	246	8	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	246	9	Chemical	Chemical	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	246	10	Engineering	Engineering	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	246	11	Faculty	Faculty	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	246	12	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	246	13	Engineering	Engineering	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	246	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	247	1	Chulalongkorn	Chulalongkorn	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	247	2	University	University	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	247	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	248	1	Kligerman	Kligerman	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	248	2	DC	DC	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	248	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	248	4	Bouwer	Bouwer	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	248	5	EJ	EJ	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	248	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	249	1	2015	2015	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	249	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	250	1	Prospects	prospect	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	250	2	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	250	3	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	250	4	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	250	5	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	250	6	algae-	algae-	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	250	7	based	base	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	250	8	wastewater	wastewater	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	250	9	treatment	treatment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	250	10	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	250	11	Brazil	Brazil	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	250	12	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	250	13	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	250	14	review	review	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	250	15	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	251	1	Renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	251	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	251	3	Sustainable	Sustainable	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	251	4	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	251	5	Reviews	Reviews	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	251	6	52:1834e46	52:1834e46	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	251	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	252	1	Lam	Lam	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	252	2	MK	MK	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	252	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	252	4	Lee	Lee	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	252	5	KT	KT	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	252	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	253	1	2011	2011	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	253	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	254	1	Renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	254	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	254	3	sustainable	sustainable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	254	4	bioenergies	bioenergie	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	254	5	production	production	VBP
work_wb7rpcpa6nh55k4ay7iayeodqq	254	6	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	254	7	palm	palm	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	254	8	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	254	9	mill	mill	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	254	10	effluent	effluent	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	254	11	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	254	12	POME	POME	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	254	13	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	254	14	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	254	15	winewin	winewin	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	254	16	strategies	strategy	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	254	17	toward	toward	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	254	18	better	well	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	254	19	environmental	environmental	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	254	20	protection	protection	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	254	21	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	255	1	Biotechnology	Biotechnology	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	255	2	Advances	Advances	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	255	3	29(1):124e41	29(1):124e41	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	255	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	256	1	Lam	Lam	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	256	2	MK	MK	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	256	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	256	4	Lee	Lee	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	256	5	KT	KT	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	256	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	257	1	2012	2012	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	257	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	258	1	Microalgae	Microalgae	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	258	2	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	258	3	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	258	4	a	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	258	5	critical	critical	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	258	6	review	review	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	258	7	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	258	8	issues	issue	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	258	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	258	10	problems	problem	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	258	11	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	258	12	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	258	13	way	way	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	258	14	forward	forward	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	258	15	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	259	1	Biotechnology	Biotechnology	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	259	2	Advances	Advances	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	259	3	30(3):673e90	30(3):673e90	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	259	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	260	1	Leghari	Leghari	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	260	2	MK	MK	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	260	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	260	4	Leghari	Leghari	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	260	5	MY	MY	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	260	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	260	7	Shah	Shah	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	260	8	M	M	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	260	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	260	10	Arbani	Arbani	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	260	11	SN	SN	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	260	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	261	1	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	261	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	262	1	Comparative	comparative	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	262	2	ecological	ecological	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	262	3	study	study	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	262	4	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	262	5	algal	algal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	262	6	genera	genera	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	262	7	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	262	8	useful	useful	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	262	9	aquatic	aquatic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	262	10	weeds	weed	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	262	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	262	12	various	various	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	262	13	localities	locality	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	262	14	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	262	15	Pakistan	Pakistan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	262	16	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	263	1	Pak	Pak	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	263	2	J	J	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	263	3	Water	Water	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	263	4	Resources	Resources	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	263	5	8(2):17e28	8(2):17e28	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	263	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	264	1	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref1	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref1	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	2	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref1	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref1	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	3	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref1	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref1	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	4	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref2	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref2	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	5	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref2	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref2	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	6	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref2	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref2	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	7	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref3	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref3	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	8	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref3	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref3	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	9	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref3	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref3	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	10	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref3	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref3	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	11	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref4	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref4	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	264	12	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref4	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref4	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	264	13	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref4	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref4	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	14	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref5	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref5	UH
work_wb7rpcpa6nh55k4ay7iayeodqq	264	15	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref5	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref5	UH
work_wb7rpcpa6nh55k4ay7iayeodqq	264	16	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref5	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref5	UH
work_wb7rpcpa6nh55k4ay7iayeodqq	264	17	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref6	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref6	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	18	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref6	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref6	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	19	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref7	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref7	UH
work_wb7rpcpa6nh55k4ay7iayeodqq	264	20	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref7	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref7	UH
work_wb7rpcpa6nh55k4ay7iayeodqq	264	21	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref7	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref7	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	264	22	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref8	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref8	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	23	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref8	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref8	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	24	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref8	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref8	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	264	25	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref9	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref9	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	264	26	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref9	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref9	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	264	27	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref9	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref9	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	264	28	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref9	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref9	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	264	29	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref9	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref9	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	264	30	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref9	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref9	FW
work_wb7rpcpa6nh55k4ay7iayeodqq	264	31	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref9	http://refhub.elsevier.com/s1978-3019(17)30019-0/sref9	UH
work_wb7rpcpa6nh55k4ay7iayeodqq	264	32	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref10	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref10	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	33	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref10	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref10	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	34	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref10	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref10	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	35	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref10	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref10	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	36	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref11	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref11	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	37	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref11	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref11	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	38	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref12	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref12	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	39	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref12	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref12	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	40	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref13	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref13	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	41	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref13	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref13	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	42	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref13	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref13	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	43	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref13	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref13	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	44	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref14	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref14	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	45	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref14	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref14	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	46	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	47	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	48	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	49	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	50	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	51	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref15	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	52	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref16	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref16	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	53	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref16	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref16	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	54	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref16	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref16	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	55	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref17	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref17	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	56	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref17	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref17	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	57	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref17	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref17	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	58	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref17	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref17	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	59	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref17	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref17	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	60	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref19	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref19	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	61	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref20	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref20	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	62	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref20	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref20	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	63	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref20	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref20	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	64	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref20	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref20	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	65	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref21	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref21	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	66	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref21	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref21	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	67	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref21	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref21	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	68	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref21	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref21	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	69	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref21	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref21	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	70	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref22	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref22	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	71	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref22	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref22	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	72	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref22	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref22	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	73	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref23	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref23	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	74	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref23	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref23	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	75	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref23	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref23	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	76	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref23	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref23	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	77	Biodiesel	Biodiesel	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	78	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	264	79	Overcome	overcome	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	264	80	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	264	81	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	82	Crisis	Crisis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	83	167	167	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	264	84	Leghari	Leghari	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	85	MK	MK	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	86	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	264	87	Shah	Shah	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	88	M	M	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	89	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	264	90	Leghari	Leghari	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	91	MY	MY	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	264	92	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	265	1	2002	2002	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	265	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	266	1	Ecological	ecological	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	266	2	study	study	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	266	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	266	4	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	266	5	flora	flora	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	266	6	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	266	7	Jhelum	Jhelum	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	266	8	river	river	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	266	9	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	266	10	Azad	Azad	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	266	11	Kashmir	Kashmir	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	266	12	[	[	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	266	13	Pakistan	Pakistan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	266	14	]	]	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	266	15	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	267	1	J	J	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	267	2	Drain	Drain	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	267	3	Water	Water	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	267	4	Manag	Manag	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	267	5	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	267	6	Pakistan	Pakistan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	267	7	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	267	8	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	268	1	Liam	Liam	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	268	2	B	B	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	268	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	268	4	Owende	Owende	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	268	5	P.	P.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	268	6	2010	2010	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	268	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	269	1	Biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	269	2	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	269	3	microalgae	microalgae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	269	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	270	1	A	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	270	2	review	review	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	270	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	270	4	technologies	technology	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	270	5	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	270	6	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	270	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	270	8	processing	processing	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	270	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	270	10	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	270	11	extractions	extraction	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	270	12	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	270	13	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	270	14	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	270	15	co	co	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	270	16	-	-	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	270	17	products	product	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	270	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	271	1	Renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	271	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	271	3	Sustainable	Sustainable	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	271	4	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	271	5	Reviews	Reviews	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	271	6	14(2):557e77	14(2):557e77	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	271	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	272	1	Mes	Mes	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	272	2	TZD	TZD	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	272	3	d	d	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	272	4	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	272	5	Stams	Stams	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	272	6	AJM	AJM	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	272	7	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	272	8	Reith	Reith	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	272	9	JH	JH	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	272	10	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	272	11	Zeeman	Zeeman	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	272	12	G.	G.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	272	13	2003	2003	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	272	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	273	1	Methane	methane	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	273	2	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	273	3	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	273	4	anaerobic	anaerobic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	273	5	digestion	digestion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	273	6	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	273	7	wastewater	wastewater	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	273	8	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	273	9	solid	solid	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	273	10	wastes	waste	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	273	11	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	274	1	Bio	Bio	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	274	2	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	274	3	methane	methane	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	274	4	&	&	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	274	5	bio-	bio-	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	274	6	hydrogen	hydrogen	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	274	7	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	274	8	status	status	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	274	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	274	10	perspectives	perspective	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	274	11	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	274	12	biological	biological	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	274	13	methane	methane	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	274	14	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	274	15	hydrogen	hydrogen	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	274	16	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	274	17	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	275	1	pp	pp	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	275	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	276	1	58e102	58e102	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	276	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	277	1	Mirza	Mirza	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	277	2	UK	UK	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	277	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	277	4	Ahmad	Ahmad	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	277	5	N	N	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	277	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	277	7	Majeed	Majeed	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	277	8	T.	T.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	277	9	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	277	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	278	1	An	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	278	2	Overview	Overview	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	278	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	278	4	Biomass	Biomass	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	278	5	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	278	6	Utilization	Utilization	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	278	7	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	278	8	Pakistan	Pakistan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	278	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	279	1	pp	pp	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	279	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	280	1	1988e96	1988e96	ADD
work_wb7rpcpa6nh55k4ay7iayeodqq	280	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	281	1	Mitsuo	Mitsuo	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	281	3	Oguchi	Oguchi	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	4	M	M	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	5	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	281	6	Otsubo	Otsubo	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	7	K	K	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	8	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	281	9	Nitta	Nitta	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	10	K	K	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	11	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	281	12	Shimada	Shimada	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	13	A	A	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	14	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	281	15	Fujii	Fujii	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	16	S	S	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	17	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	281	18	Koyano	Koyano	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	19	T	T	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	20	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	281	21	Miki	Miki	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	22	K.	K.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	281	23	1989	1989	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	281	24	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	282	1	Closed	closed	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	282	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	282	3	continuous	continuous	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	282	4	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	282	5	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	282	6	system	system	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	282	7	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	282	8	food	food	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	282	9	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	282	10	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	282	11	gas	gas	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	282	12	exchange	exchange	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	282	13	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	282	14	CELSS	CELSS	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	282	15	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	283	1	Adv	Adv	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	283	2	Space	Space	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	283	3	Res:169e77	Res:169e77	NFP
work_wb7rpcpa6nh55k4ay7iayeodqq	283	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	284	1	O	o	UH
work_wb7rpcpa6nh55k4ay7iayeodqq	284	2	European	European	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	284	3	Commission	Commission	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	284	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	285	1	2006	2006	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	285	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	286	1	An	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	286	2	EU	EU	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	286	3	Strategy	Strategy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	286	4	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	286	5	Biofuels	Biofuels	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	286	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	287	1	Communication	communication	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	287	2	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	287	3	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	287	4	Commission	Commission	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	287	5	COM	COM	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	287	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	288	1	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	288	2	2006	2006	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	288	3	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	288	4	34	34	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	288	5	final	final	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	288	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	288	7	Brussels	Brussels	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	288	8	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	288	9	29	29	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	288	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	289	1	Park	Park	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	289	2	JBK	JBK	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	289	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	289	4	Craggs	Craggs	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	289	5	RJ	RJ	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	289	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	289	7	Shilton	Shilton	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	289	8	AN	AN	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	289	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	290	1	2011	2011	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	290	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	291	1	Wastewater	wastewater	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	291	2	treatment	treatment	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	291	3	high	high	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	291	4	rate	rate	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	291	5	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	291	6	ponds	pond	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	291	7	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	291	8	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	291	9	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	291	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	292	1	Bioresource	Bioresource	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	292	2	Technology	Technology	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	292	3	102(1):35e42	102(1):35e42	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	292	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	293	1	Patil	Patil	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	293	2	V	V	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	293	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	293	4	Tran	Tran	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	293	5	KQ	KQ	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	293	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	293	7	Giselrød	Giselrød	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	293	8	HR	hr	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	293	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	294	1	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	294	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	295	1	Towards	towards	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	295	2	sustainable	sustainable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	295	3	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	295	4	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	295	5	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	295	6	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	295	7	microalgae	microalgae	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	295	8	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	296	1	International	International	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	296	2	Journal	Journal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	296	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	296	4	Molecular	Molecular	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	296	5	Sciences	Sciences	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	296	6	9(7):1188e95	9(7):1188e95	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	296	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	297	1	Pienkos	Pienkos	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	297	2	PT	PT	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	297	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	297	4	Darzins	Darzins	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	297	5	A.	a.	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	298	1	2009	2009	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	298	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	299	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	299	2	promise	promise	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	299	3	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	299	4	challenges	challenge	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	299	5	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	299	6	micro	micro	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	299	7	-	-	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	299	8	algal	algal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	299	9	derived	derive	VBN
work_wb7rpcpa6nh55k4ay7iayeodqq	299	10	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	299	11	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	300	1	Biofuel	Biofuel	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	300	2	Bioprod	Bioprod	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	300	3	Biorefin	Biorefin	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	300	4	3:431e40	3:431e40	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	300	5	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	301	1	Pittman	Pittman	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	301	2	JK	JK	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	301	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	301	4	Dean	Dean	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	301	5	AP	AP	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	301	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	301	7	Osundeko	Osundeko	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	301	8	O.	O.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	302	1	2011	2011	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	302	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	303	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	303	2	potential	potential	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	303	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	303	4	sustainable	sustainable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	303	5	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	303	6	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	303	7	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	303	8	using	use	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	303	9	wastewater	wastewater	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	303	10	resources	resource	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	303	11	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	304	1	Bioresour	Bioresour	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	304	2	Technol	Technol	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	304	3	102(1	102(1	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	304	4	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	304	5	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	304	6	17e25	17e25	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	304	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	305	1	Bindraban	Bindraban	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	305	2	Prem	Prem	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	305	3	S	S	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	305	4	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	305	5	Bulte	Bulte	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	305	6	Erwin	Erwin	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	305	7	H	H	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	305	8	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	305	9	Conijn	Conijn	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	305	10	Sjaak	Sjaak	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	305	11	G.	G.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	305	12	2009	2009	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	305	13	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	306	1	Can	Can	MD
work_wb7rpcpa6nh55k4ay7iayeodqq	306	2	large	large	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	306	3	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	306	4	scale	scale	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	306	5	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	306	6	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	306	7	be	be	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	306	8	sustainable	sustainable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	306	9	by	by	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	306	10	2020	2020	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	306	11	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	307	1	Agric	Agric	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	307	2	Syst	Syst	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	307	3	101(Iss	101(iss	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	307	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	308	1	3):197e9	3):197e9	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	308	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	309	1	Radakovits	Radakovits	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	309	2	R	R	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	309	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	309	4	Jinkerson	Jinkerson	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	309	5	RE	RE	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	309	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	309	7	Darzins	Darzins	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	309	8	A	A	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	309	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	309	10	Posewitz	Posewitz	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	309	11	MC	MC	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	309	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	310	1	2010	2010	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	310	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	311	1	Genetic	genetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	311	2	engineering	engineering	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	311	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	311	4	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	311	5	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	311	6	enhanced	enhanced	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	311	7	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	311	8	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	311	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	312	1	Eukaryotic	eukaryotic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	312	2	Cell	Cell	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	312	3	9(4):486e501	9(4):486e501	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	312	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	313	1	Rawat	Rawat	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	313	2	I	I	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	313	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	313	4	Kumar	Kumar	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	313	5	RR	RR	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	313	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	313	7	Mutanda	Mutanda	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	313	8	T	T	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	313	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	313	10	Bux	Bux	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	313	11	F.	F.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	313	12	2011	2011	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	313	13	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	314	1	Dual	dual	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	314	2	role	role	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	314	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	314	4	microalgae	microalgae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	314	5	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	314	6	phycor-	phycor-	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	314	7	emediation	emediation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	314	8	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	314	9	domestic	domestic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	314	10	wastewater	wastewater	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	314	11	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	314	12	biomass	biomass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	314	13	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	314	14	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	314	15	sustainable	sustainable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	314	16	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	314	17	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	314	18	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	315	1	Appl	Appl	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	315	2	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	315	3	88(10):3411e24	88(10):3411e24	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	315	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	316	1	Reith	Reith	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	316	2	JH	JH	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	316	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	317	1	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	317	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	318	1	Duurzame	duurzame	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	318	2	co	co	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	318	3	-	-	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	318	4	productie	productie	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	318	5	van	van	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	318	6	fijnchemicali€en	fijnchemicali€en	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	318	7	en	en	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	318	8	energie	energie	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	318	9	uit	uit	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	318	10	micro-	micro-	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	318	11	algen	algen	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	318	12	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	318	13	openbaar	openbaar	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	318	14	eindrapport	eindrapport	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	318	15	E.E.T.	E.E.T.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	319	1	project	project	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	319	2	K99005/398,510e1010	K99005/398,510e1010	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	319	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	320	1	Richmond	Richmond	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	320	2	A.	A.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	321	1	2004	2004	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	321	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	322	1	Handbook	Handbook	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	322	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	322	3	Micro	Micro	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	322	4	Algal	Algal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	322	5	Culture	Culture	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	322	6	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	322	7	Biotechnology	Biotechnology	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	322	8	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	322	9	Applied	Applied	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	322	10	Phycology	Phycology	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	322	11	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	323	1	Blackwell	Blackwell	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	2	Science	Science	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	3	Ltd.	Ltd.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	4	Roberts	Roberts	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	5	GW	GW	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	323	7	Fortier	Fortier	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	8	MOP	MOP	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	323	10	Sturm	Sturm	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	11	BS	BS	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	12	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	323	13	Stagg	Stagg	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	14	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	323	15	Williams	Williams	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	16	SM	SM	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	323	17	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	324	1	2013	2013	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	324	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	325	1	Promising	promise	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	325	2	pathway	pathway	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	325	3	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	325	4	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	325	5	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	325	6	through	through	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	325	7	wastewater	wastewat	JJR
work_wb7rpcpa6nh55k4ay7iayeodqq	325	8	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	325	9	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	325	10	hydrothermal	hydrothermal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	325	11	conversion	conversion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	325	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	326	1	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	326	2	&	&	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	326	3	Fuels	Fuels	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	326	4	27(2):857e67	27(2):857e67	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	326	5	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	327	1	Roessler	Roessler	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	2	PG	PG	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	327	4	Brown	Brown	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	5	LM	LM	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	327	7	Dunahay	Dunahay	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	8	TG	TG	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	327	10	Heacox	Heacox	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	11	DA	DA	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	12	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	327	13	Jarvis	Jarvis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	14	EE	EE	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	327	16	Schneider	Schneider	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	17	JC	JC	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	18	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	327	19	et	et	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	20	al	al	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	327	21	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	328	1	1994	1994	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	328	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	329	1	Genetic	genetic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	329	2	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	329	3	engineering	engineering	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	329	4	approaches	approach	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	329	5	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	329	6	enhanced	enhanced	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	329	7	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	329	8	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	329	9	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	329	10	fuel	fuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	329	11	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	329	12	microalgae	microalgae	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	329	13	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	330	1	ACS	ACS	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	330	2	Symp	Symp	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	330	3	Ser	Ser	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	330	4	566:255e70	566:255e70	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	330	5	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	331	1	Rubin	Rubin	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	331	2	EM	EM	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	331	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	332	1	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	332	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	333	1	Genomics	genomic	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	333	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	333	3	cellulosic	cellulosic	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	333	4	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	333	5	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	334	1	Nature	nature	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	334	2	454(7206):841e5	454(7206):841e5	VBZ
work_wb7rpcpa6nh55k4ay7iayeodqq	334	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	335	1	Sawayama	Sawayama	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	335	2	S	S	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	335	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	335	4	Inoue	Inoue	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	335	5	S	S	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	335	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	335	7	Dote	Dote	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	335	8	Y	Y	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	335	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	335	10	Yokoyama	Yokoyama	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	335	11	S	S	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	335	12	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	335	13	Y.	Y.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	336	1	1995	1995	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	336	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	337	1	CO2	co2	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	337	2	fixation	fixation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	337	3	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	337	4	oil	oil	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	337	5	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	337	6	through	through	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	337	7	microalga	microalga	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	337	8	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	338	1	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	338	2	Convers	Convers	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	338	3	Manag	Manag	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	338	4	36:729e31	36:729e31	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	338	5	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	339	1	Schenk	Schenk	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	2	PM	PM	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	339	4	Thomas	Thomas	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	5	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	339	6	Hall	Hall	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	7	SR	SR	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	8	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	339	9	E.	E.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	10	S	S	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	11	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	339	12	Marx	Marx	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	13	UC	UC	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	14	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	339	15	Mussgnug	Mussgnug	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	16	JH	JH	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	17	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	339	18	Posten	Posten	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	19	C	C	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	20	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	339	21	Kruse	Kruse	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	22	O	O	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	339	23	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	339	24	B.	B.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	340	1	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	340	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	341	1	Hankamer	Hankamer	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	341	2	second	second	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	341	3	generation	generation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	341	4	biofuels	biofuel	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	341	5	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	341	6	high	high	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	341	7	-	-	HYPH
work_wb7rpcpa6nh55k4ay7iayeodqq	341	8	efficiency	efficiency	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	341	9	microalgae	microalgae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	341	10	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	341	11	biodiesel	biodiesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	341	12	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	341	13	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	342	1	Bioenerg	Bioenerg	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	342	2	Res	Res	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	342	3	1:20e43	1:20e43	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	342	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	343	1	Sharif	Sharif	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	343	2	HABM	HABM	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	343	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	343	4	Salleh	Salleh	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	343	5	A	A	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	343	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	343	7	Boyce	Boyce	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	343	8	AN	AN	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	343	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	343	10	Chowdhury	Chowdhury	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	343	11	P	P	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	343	12	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	343	13	Naqiuddin	Naqiuddin	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	343	14	M.	M.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	343	15	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	343	16	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	344	1	Biodiesel	biodiesel	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	344	2	fuel	fuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	344	3	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	344	4	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	344	5	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	344	6	as	as	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	344	7	renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	344	8	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	344	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	345	1	Am	Am	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	345	2	J	J	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	345	3	Biochem	Biochem	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	345	4	Biotech	Biotech	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	345	5	4(3):250e4	4(3):250e4	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	345	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	346	1	Shay	shay	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	346	2	EG	EG	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	346	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	347	1	1993	1993	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	347	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	348	1	Diesel	diesel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	348	2	fuel	fuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	348	3	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	348	4	vegetable	vegetable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	348	5	oils	oil	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	348	6	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	348	7	status	status	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	348	8	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	348	9	opportunities	opportunity	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	348	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	349	1	Biomass	Biomass	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	349	2	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	349	3	Bioenergy	Bioenergy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	349	4	4(4):227e42	4(4):227e42	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	349	5	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	350	1	Sheehan	Sheehan	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	350	2	J	J	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	350	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	350	4	Dunahay	Dunahay	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	350	5	T	T	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	350	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	350	7	Benemann	Benemann	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	350	8	J	J	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	350	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	350	10	Roessler	Roessler	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	350	11	P.	P.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	350	12	1998	1998	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	350	13	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	351	1	A	a	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	351	2	look	look	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	351	3	back	back	RB
work_wb7rpcpa6nh55k4ay7iayeodqq	351	4	at	at	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	351	5	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	351	6	U.S.	U.S.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	351	7	Department	Department	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	351	8	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	351	9	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	351	10	's	's	POS
work_wb7rpcpa6nh55k4ay7iayeodqq	351	11	Aquatic	Aquatic	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	351	12	Species	Species	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	351	13	Programdbiodiesel	Programdbiodiesel	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	351	14	from	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	351	15	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	351	16	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	352	1	Golden	Golden	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	2	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	352	3	CO	CO	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	4	:	:	:
work_wb7rpcpa6nh55k4ay7iayeodqq	352	5	National	National	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	6	Renewable	Renewable	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	7	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	8	Laboratory	Laboratory	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	352	10	Golden	Golden	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	11	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	352	12	CO	CO	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	13	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	352	14	Subhadra	Subhadra	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	15	B	B	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	16	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	352	17	Edwards	Edwards	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	18	M.	M.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	352	19	2010	2010	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	352	20	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	353	1	An	an	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	353	2	integrated	integrated	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	353	3	renewable	renewable	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	353	4	energy	energy	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	353	5	park	park	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	353	6	approach	approach	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	353	7	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	353	8	algal	algal	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	353	9	biofuel	biofuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	353	10	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	353	11	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	353	12	United	United	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	353	13	States	States	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	353	14	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	354	1	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	354	2	Policy	Policy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	354	3	38(9):4897e902	38(9):4897e902	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	354	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	355	1	Tsukahara	Tsukahara	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	355	2	K	K	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	355	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	355	4	Sawayama	Sawayama	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	355	5	S.	S.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	355	6	2005	2005	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	355	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	356	1	Liquid	liquid	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	356	2	fuel	fuel	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	356	3	production	production	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	356	4	using	use	VBG
work_wb7rpcpa6nh55k4ay7iayeodqq	356	5	microalgae	microalgae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	356	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	357	1	J	J	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	357	2	Jpn	Jpn	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	357	3	Pet	Pet	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	357	4	Inst	Inst	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	357	5	48(5):251	48(5):251	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	357	6	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	358	1	Tuskan	tuskan	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	358	2	GA	GA	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	358	4	Difazio	Difazio	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	5	S	S	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	358	7	Jansson	Jansson	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	8	S	S	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	9	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	358	10	Bohlmann	Bohlmann	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	11	J	J	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	12	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	358	13	Grigoriev	Grigoriev	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	14	I	I	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	15	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	358	16	Hellsten	Hellsten	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	17	U	U	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	18	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	358	19	Schein	Schein	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	358	20	J.	J.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	359	1	2006	2006	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	359	2	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	360	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	360	2	genome	genome	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	360	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	360	4	black	black	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	360	5	cottonwood	cottonwood	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	360	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	360	7	Populus	populus	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	360	8	trichocarpa	trichocarpa	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	360	9	(	(	-LRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	360	10	Torr	Torr	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	360	11	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	361	1	&	&	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	361	2	Gray	Gray	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	361	3	)	)	-RRB-
work_wb7rpcpa6nh55k4ay7iayeodqq	361	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	362	1	Science	science	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	362	2	313(5793):1596e604	313(5793):1596e604	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	362	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	363	1	Ugwu	Ugwu	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	363	2	CU	CU	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	363	3	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	363	4	Aoyagi	Aoyagi	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	363	5	H	H	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	363	6	,	,	,
work_wb7rpcpa6nh55k4ay7iayeodqq	363	7	Uchiyama	Uchiyama	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	363	8	H.	H.	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	363	9	2008	2008	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	363	10	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	364	1	Photobioreactors	photobioreactor	NNS
work_wb7rpcpa6nh55k4ay7iayeodqq	364	2	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	364	3	mass	mass	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	364	4	cultivation	cultivation	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	364	5	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	364	6	algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	364	7	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	365	1	Bioresour	bioresour	UH
work_wb7rpcpa6nh55k4ay7iayeodqq	365	2	Technol:4021e8	technol:4021e8	ADD
work_wb7rpcpa6nh55k4ay7iayeodqq	365	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	366	1	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref24	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref24	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	2	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref24	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref24	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	3	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref25	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref25	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	4	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref25	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref25	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	5	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref25	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref25	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	6	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref25	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref25	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	7	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref26	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref26	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	8	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref26	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref26	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	9	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref26	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref26	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	10	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref26	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref26	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	11	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref26	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref26	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	12	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref27	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref27	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	13	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref27	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref27	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	14	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref28	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref28	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	15	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref28	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref28	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	16	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref28	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref28	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	17	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref28	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref28	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	18	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref29	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref29	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	19	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref29	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref29	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	20	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref30	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref30	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	21	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref30	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref30	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	22	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref30	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref30	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	23	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref31	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref31	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	24	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref31	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref31	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	25	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref31	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref31	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	26	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref31	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref31	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	27	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref32	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref32	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	28	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref32	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref32	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	29	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref32	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref32	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	30	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref33	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref33	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	31	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref33	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref33	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	32	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref33	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref33	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	33	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref33	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref33	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	34	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref34	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref34	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	35	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref34	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref34	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	36	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref34	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref34	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	37	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref35	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref35	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	38	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref35	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref35	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	39	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref35	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref35	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	40	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref36	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref36	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	41	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref36	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref36	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	42	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref36	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref36	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	43	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref36	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref36	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	44	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref37	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref37	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	45	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref37	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref37	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	46	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref37	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref37	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	47	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref37	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref37	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	48	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref38	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref38	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	49	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref38	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref38	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	50	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref39	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref39	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	51	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref39	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref39	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	52	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref39	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref39	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	53	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref39	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref39	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	54	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref39	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref39	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	55	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref40	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref40	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	56	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref40	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref40	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	57	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref40	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref40	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	58	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref40	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref40	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	59	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref41	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref41	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	60	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref41	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref41	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	61	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref42	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref42	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	62	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref42	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref42	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	63	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref42	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref42	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	64	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref43	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref43	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	65	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref43	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref43	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	66	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref43	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref43	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	67	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref43	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref43	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	68	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref44	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref44	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	69	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref44	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref44	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	70	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref44	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref44	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	71	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref45	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref45	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	72	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref45	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref45	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	73	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref45	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref45	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	74	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref46	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref46	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	75	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref46	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref46	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	76	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref46	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref46	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	77	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref47	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref47	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	78	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref47	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref47	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	79	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref47	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref47	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	80	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref48	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref48	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	81	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref48	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref48	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	82	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref49	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref49	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	83	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref49	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref49	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	84	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref49	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref49	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	85	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref49	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref49	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	86	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref49	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref49	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	87	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref50	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref50	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	88	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref50	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref50	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	89	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref50	http://refhub.elsevier.com/S1978-3019(17)30019-0/sref50	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	90	Biodiesel	Biodiesel	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	91	Production	Production	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	92	From	from	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	366	93	Algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	366	94	to	to	TO
work_wb7rpcpa6nh55k4ay7iayeodqq	366	95	Overcome	overcome	VB
work_wb7rpcpa6nh55k4ay7iayeodqq	366	96	the	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	366	97	Energy	Energy	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	98	Crisis	Crisis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	366	99	1	1	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	366	100	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	367	1	Introduction	introduction	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	367	2	2	2	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	367	3	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	368	1	The	the	DT
work_wb7rpcpa6nh55k4ay7iayeodqq	368	2	Processes	Processes	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	368	3	for	for	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	368	4	Biofuel	Biofuel	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	368	5	Production	Production	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	368	6	Using	Using	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	368	7	Algae	algae	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	368	8	3	3	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	368	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	369	1	Cultivation	Cultivation	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	369	2	Systems	Systems	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	369	3	4	4	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	369	4	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	370	1	Comparative	comparative	JJ
work_wb7rpcpa6nh55k4ay7iayeodqq	370	2	Analysis	Analysis	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	370	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	370	4	Algal	Algal	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	370	5	Growth	Growth	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	370	6	and	and	CC
work_wb7rpcpa6nh55k4ay7iayeodqq	370	7	Their	-PRON-	PRP$
work_wb7rpcpa6nh55k4ay7iayeodqq	370	8	Oil	Oil	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	370	9	Contents	Contents	NNPS
work_wb7rpcpa6nh55k4ay7iayeodqq	370	10	Production	Production	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	370	11	5	5	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	370	12	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	371	1	Role	Role	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	371	2	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	371	3	Gene	Gene	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	371	4	Technologies	Technologies	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	371	5	in	in	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	371	6	Biodiesel	Biodiesel	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	371	7	Production	Production	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	371	8	6	6	CD
work_wb7rpcpa6nh55k4ay7iayeodqq	371	9	.	.	.
work_wb7rpcpa6nh55k4ay7iayeodqq	372	1	Conclusion	conclusion	NN
work_wb7rpcpa6nh55k4ay7iayeodqq	372	2	Conflict	Conflict	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	372	3	of	of	IN
work_wb7rpcpa6nh55k4ay7iayeodqq	372	4	Interest	Interest	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	372	5	Statement	Statement	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	372	6	Acknowledgement	Acknowledgement	NNP
work_wb7rpcpa6nh55k4ay7iayeodqq	372	7	References	References	NNPS