id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
work_4nt4i7z6snffpebxsrboni6x2y	C. G. Willis	Phylogenetic patterns of species loss in Thoreau's woods are driven by climate change	2008.0	9	.pdf	application/pdf	6818	687	59	http://osc.hul.harvard.edu/dash/open-access-feedback?handle=&title=Phylogenetic%20patterns%20of%20species%20loss%20in%20Thoreau's%20woods%20are%20driven%20by%20climate%20change&community=1/1&collection=1/2&owningCollection1/2&harvardAuthors=c30265921a2698d382919ae653f63381&departmentOrganismic%20and%20Evolutionary%20Biology context, they indicate that change in abundance is strongly correlated with flowering-time response. evolutionary (i.e., phylogenetic) history of traits that are inf luenced by climate (e.g., f lowering phenology) has been an underexplored area of climate change biology, despite the fact that climate change may also help to explain the seemingly nonrandom pattern of species loss among certain plant groups. abundance and f lowering-time response traits were phylogenetically conser ved, which indicates that species evolutionar y Composite phylogeny of 429 flowering plant species from the Concord flora depicting changes in abundance from 1900 to 2007. Statistical tests of phylogenetic conservatism and trait correlations with change in abundance 1900), flowering season, and native/introduced status as covariates; Model 3 (multivariate model), correlation of change in abundance with all traits and Thus, our results suggest that f loweringtime response, and not species range, better explain the phylogenetic nature of extinction risk among f lowering plants experiencing rapid climate change in Concord.	./cache/work_4nt4i7z6snffpebxsrboni6x2y.pdf	./txt/work_4nt4i7z6snffpebxsrboni6x2y.txt