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ILLINOIS GEOLOGICAL 
 SURVEY LSBRAnY 
 
Digitized by the Internet Archive 
 
 in 2012 with funding from 
 
 University of Illinois Urbana-Champaign 
 
 http://archive.org/details/oilinvestigation35illi 
 
STATE OF ILLINOIS 
 
 STATE GEOLOGICAL SURVEY 
 
 FRANK W. DE WOLF. Director 
 
 BULLETIN No. 35 
 
 OIL INVESTIGATIONS IN ILLINOIS IN 1916 
 
 UNDER DIRECTION OF FRED H. KAY 
 
 Petroleum in Illinois in 1916 
 By Fred H. Kay 
 
 Parts of Saline, Williamson, Pope and Johnson counties 
 By Albert D. Brokaw 
 
 Parts of Williamson, Union and Jackson counties 
 By Stuart St. Clair 
 
 The Ava area 
 By Stuart St. Glair 
 
 The Gentralia area 
 By Stuart St. Glair 
 
 Parts of Hardin, Pope, and Saline counties 
 By Charles Butts 
 
 WORK IN COOPERATION WITH U. S. GEOLOGICAL SURVEY 
 
 PRINTED BY AUTHORITY OF THE STATE OF ILLINOIS 
 
 ILLINOIS STATE GEOLOGICAL SURVEY 
 
 UNIVERSITY OF ILLINOIS 
 
 URBANA 
 
 1917 
 
CL . 2- 
 
 STATE GEOLOGICAL COMMISSION 
 
 Frank O. Lowden, Chairman 
 Governor of Illinois 
 
 Thomas C. Chamberlin, Vice-Chairman 
 
 Edmund J. James, Secretary 
 President of the University of Illinois 
 
 Frank W. DeWolf, Director 
 Fred H. Kay, Asst. State Geologist 
 
LETTER OF TRANSMITTAL 
 
 State Geological Survey 
 University of Illinois, January 26, 1917 
 
 Governor Frank O. Lozvden, Chairman, and Members of the Geological 
 Commission. 
 
 Gentlemen : I submit herewith manuscript of reports on oil investiga- 
 tions in Illinois in 1916, and recommend their publication as Bulletin 35. 
 
 Because of its importance, part of this bulletin appeared in abbreviated 
 form as an Extract, and development in the field described is now proceed- 
 ing according to recommendations. The demand for these publications 
 increases constantly. 
 
 Very respectfully, 
 
 Frank W. DeWolf, Director 
 
CONTENTS 
 
 PAGE 
 
 Petroleum in Illinois in 1916, by Fred H. Kay 11 
 
 Parts of Saline, Johnson, Pope, and Williamson counties, by 
 
 Albert D. Brokaw 19 
 
 Parts of Williamson, Union, and Jackson counties, by Stuart 
 
 St. Clair 39 
 
 Ava area, by Stuart St. Clair 57 
 
 Centralia area, by Stuart St. Clair 67 
 
 Parts of Hardin, Pope, and Saline counties, by Charles Butts . . 75 
 
PETROLEUM IN ILLINOIS IN 1916 
 
 By Fred H. Kay 
 
 OUTLINE 
 
 PAGE 
 
 General review 11 
 
 Southeastern Illinois 12 
 
 Cumberland, Coles, Clark, Jasper, and Edgar counties 12 
 
 Crawford County 13 
 
 Lawrence County 13 
 
 Wabash County 14 
 
 South-central Illinois 14 
 
 Macoupin County 14 
 
 Clinton County 15 
 
 Marion County 15 
 
 Western Illinois 15 
 
 Southern Illinois 16 
 
 Northern Illinois 16 
 
 Miscellaneous drilling 17 
 
 Summary tables 17 
 
 TABLES 
 
 1. Illinois oil production, 1905-1916 . . 12 
 
 2. Fluctuation in prices per barrel of Illinois petroleum, 1916 13 
 
 3. Monthly record of wells drilled in Illinois, 1916 18 
 
 4. County record of wells drilled in Illinois, 1916 18 
 
 GENERAL REVIEW 
 
 In spite of the fact that nearly twice as many wells were drilled in 
 1916, as the previous year, J. D. Northrup 1 estimates that the Illinois pro- 
 duction for 1916 was 16,500,000 barrels, as compared with 19,041,695 
 barrels for the year 1915. This represents a decline of about 13.3 per cent 
 as compared with a 13 per cent reduction for the year 1915. Table 1 shows 
 the annual production and value of Illinois oil from 1905 to 1916, inclusive. 
 According to present estimates, Illinois remains fourth in production for 
 1916, owing to the decline in the yield of the Louisiana fields. 
 
 The year 1916 was characterized by high prices which resulted in a 
 large amount of development work and wildcat drilling. The decline in 
 prices, beginning August first, curbed activity slightly during the fall months, 
 but the prices at the end of the year and the general outlook are very en- 
 couraging to oil operators, and, unless some unforeseen event occurs, ac- 
 
 'Northrup, J. D., U. S. Geological Survey Press Bulletin, January 8, 1917. 
 
 (ID 
 
12 
 
 OIL INVESTIGATIONS 
 
 tivity will continue unabated. Table 2 shows the fluctuation in price per 
 barrel for the two grades of Illinois oil for the year 1916. In 1916 there 
 were 1,469 wells completed, according to the Oil City Derrick and the Oil 
 
 Table 1. — Illinois oil production, 1905-1916 
 
 Year 
 
 Previous 
 
 1905 
 
 1906 
 
 1907 
 
 1908 
 
 1909 
 
 1910 
 
 1911 
 
 1912 
 
 1913 
 
 1914 
 
 1915 
 
 1916 (estimate) 
 
 Barrels 
 
 6,576 
 
 $ 
 
 181,084 
 
 116,561 
 
 4,379,050 
 
 3,274,818 
 
 24,281,973 
 
 16,432,947 
 
 33,686,238 
 
 22,649,561 
 
 30,898,339 
 
 19.788,864 
 
 33,143,262 
 
 19,669,383 
 
 31,317,038 
 
 19,734,339 
 
 28,601,308 
 
 24,332,605 
 
 23,893,899 
 
 30,971,910 
 
 21,919,749 
 
 25,426,179 
 
 19,041,695 
 
 18,655,850 
 
 16,500,000 
 
 27,060,000 
 
 Value 
 
 and Gas Journal. Of these 1,104, or 75.1 per cent yielded an average initial 
 production of 22.2 barrels each; 36, or 2.4 per cent, were gas wells; and 
 317, or 21.5 per cent, were dry. During the year 1916 there were 145 wells 
 abandoned, as compared with 155 wells in 1915. 
 
 SOUTHEASTERN ILLINOIS 
 Cumberland, Coles, Clark, Jasper, and Edgar counties 
 
 Out of a total of 1,469 wells drilled in Illinois in 1916, there were 
 307, or 21 per cent, in the shallow-sand field. Clark County was by far 
 the most active part of the shallow-sand field, with 256 wells completed, 
 showing an average initial production of 14.6 barrels per well. The dis- 
 covery of a new sand in the northern part of the Clark County field at a 
 depth of 400 to 500 feet created great activity in drilling old wells deeper 
 and sinking new ones between old locations. 
 
 The production at the north end of the Clark County field is from 
 beds corresponding to the McClosky sand. It is a porous dolomite which 
 varies greatly in its texture and consequently in its productivity from place 
 to place. Its variable nature is well shown in areas where a vacuum has 
 been used to increase production. New wells drilled between old locations 
 frequently disclose the absence of any vacuum, whereas upon drilling the 
 old wells deeper the vacuum is pronounced and even troublesome. 
 
PETROLEUM IN ILLINOIS IN 1916 
 
 L3 
 
 Crawford County 
 
 In 1916 there were 568 wells drilled in Crawford County, as compared 
 with 215 in 1915. Of the wells drilled in 1916 there were 391 which pro- 
 duced oil with an average yield of 15.5 barrels. Marked activity existed 
 throughout the year in Honey Creek Township, where a number of good 
 producers were drilled. In this area an initial production of 100 barrels 
 was not uncommon. The production is from the Robinson sand which is 
 extremely irregular in thickness and in character. 
 
 Table 2. — Fluctuation in prices per barrel of Illinois petroleum, 1916 
 
 1916 
 
 Illinois 
 
 January 1 . 
 January 3 . 
 January 21 . 
 January 27 . 
 February 16 
 March 6 . . . 
 March 13. . . 
 March 16. . . 
 
 July 28 
 
 August 1 . . 
 August 3.. 
 August 4. . 
 August 14.. 
 
 August 17.... 
 
 August 28 
 
 November 18. 
 November 30. 
 December 13 . 
 December 19 . 
 December 28 . 
 December 29 . 
 
 Average . 
 
 $1.64 
 
 Plymouth 
 
 $1.47 
 
 $1.33 
 
 1.57 
 
 
 
 1.38 
 
 1.62 
 
 1.43 
 
 1.72 
 
 
 
 1.53 
 
 
 1.58 
 
 1.82 
 
 1.68 
 
 1.72 
 
 1.58 
 
 1.62 
 
 1.48 
 
 
 1.38 
 
 1.52 
 
 
 1.47 
 
 1.18 
 
 
 1.08 
 
 
 1.03 
 
 1.52 
 
 
 
 1.13 
 
 1.57 
 
 1.23 
 
 1.62 
 
 1.33 
 
 
 1.43 
 
 
 1.53 
 
 $1.38 
 
 Lawrence County 
 
 The favorable market stimulated drilling in the deep-sand field of Law- 
 rence County, where 246 wells were completed in 1916 as compared with 
 157 in 1915. Of those drilled in 1916 there were 33 dry and the remainder 
 had an average initial yield of nearly 45 barrels. 
 
 Drilling in the deep sands is expensive, especially with the prevailing 
 high prices for material, but if oil continues to hold its present market 
 value, much drilling will be done during 1917. The large number of sands 
 in Lawrence County renders it extremely attractive to the oil operator. 
 
14 OIL INVESTIGATIONS 
 
 The Ohio Oil Company wells, mentioned below, are among the best 
 of those recently drilled in the county: 
 
 1. Clay Seed No. 2 farm, well No. 6, sec. 15, Lawrence Township ; 310 barrels 
 
 from Buchanan sand at 1,297 feet. 
 
 2. J. R. King No. 3 farm, sec. 13, Lawrence Township ; 100 barrels from Kirk- 
 
 wood sand. 
 
 3. Win, Buchanan No. 6, sec. 6, Dennison Township ; 480 barrels from Mc- 
 
 Closky sand at 1,845 feet. 
 
 Wabash County 
 
 The Allendale field was the scene of considerable activity during the 
 year ; 29 wells were completed, 12 of which were dry. The average initial 
 yield of the producers was 137 barrels, which was the best record of any 
 Illinois field. 
 
 The present production comes from two sands — the Biehl above, and 
 the Jordan which lies about 35 feet lower. The two sands occupy about the 
 position of the Buchanan sand of the main fields, although it may be a new 
 sand lying between the Buchanan and the Kirkwood. The Chester beds 
 are thicker in Wabash County than in Lawrence County, and it is believed 
 that the Kirkwood sand should be reached about 450 to 475 feet, the Tracey 
 575 feet, and the McClosky 700 to 750 feet below the top of the Biehl 
 sand. These sands should be tested in the area of best present produc- 
 tion, in other words, on the anticline. 
 
 The newer wells in sections 3 and 4 had an initial production of from 
 100 to 280 barrels. 
 
 SOUTH-CENTRAL ILLINOIS 
 Macoupin County 
 
 Six wells were drilled in Macoupin County during 1916. Of these, 
 three are gas wells and the remainder are dry. 
 
 Arrangements were made for the commercial utilization of the Staun- 
 ton gas, and a pipe line was laid connecting the field with Belleville, Ed- 
 wardsville, Collinsville, Marysville, and Staunton. Wherever gas mains 
 were available, they were utilized and the artificial plants rendered idle. 
 
 The owners of the field should have field tests made to determine the 
 exact gasoline content of their product. The new absorption process of 
 extracting gasoline from natural gas is commercially profitable with gas 
 that contains as little as one pint to V/2 pints of gasoline per thousand cubic 
 feet of gas. The gas associated with the oil at Staunton should be tested 
 first, since it is likely to contain a larger amount of the lighter constituents 
 than the gas from the dry sands on top of the dome. 
 
PETROLEUM IN ILLINOIS IN 1916 
 
 Clinton County 
 
 Drilling in Clinton County was confined mostly to inside locations in 
 the Carlyle field and to the area near the Frogtown pool opened up at the 
 close of 1915. In the latter area a few fair producers were drilled during 
 the early part of the year, together with a number of dry holes. The oil 
 sand is found at a depth of about 950 feet. Of the 33 wells drilled in the 
 county, 22 were dry. The average initial yield of the producers was about 
 26 barrels. 
 
 The Flat Branch Oil Company drilled dry holes on the Philip Schafer 
 farm in section 1, and on the H. Meyer farm in section 24, both in Wheat- 
 field Township. The Bartelso Oil Company's test on the H. Varrell farm ; 
 section 1, Germantown Township, was dry at 1,045 feet. 
 
 Marion County 
 
 Interest was revived during the year in the Junction City dome where 
 several sands are productive at shallow depth. The field lies about midway 
 between Centralia and the Sandoval field. 
 
 The Dykstra sand lies about 560 feet below the surface or 20 feet 
 below coal No. 6; the Wilson sand is 100 to 110 feet below the coal; and 
 a lower sand produces in Tilton No. 1 at a depth of 160 feet below the coal. 
 
 The Stein and Benoist sands which produce oil at Sandoval and in the 
 wells east of Centralia, should be tested in the Junction City dome. For this 
 purpose a well should be located in the midst of the best shallow sand 
 production. Stuart St. Clair of the Survey spent ten days in the Centralia 
 area, and the results of his work are published in this bulletin. 
 
 During the year, 26 wells were completed in the county, 8 of which 
 were dry. The average initial production was 12 barrels. 
 
 WESTERN ILLINOIS 
 
 No important developments featured the western part of the State in 
 1916. McDonough County fields were practically drilled up by the com- 
 pletion of 210 wells, 185 of which were producers with an average initial 
 yield of 10 barrels. 
 
 After about 20 failures in Hancock County, where Roberts No. 1 was 
 drilled early in the history of the field, Snowden Brothers found oil in hole 
 No. 3 on the Charles Aleshire farm, sec. 24, St. Mary's Township. The 
 pay sand is 11 feet thick at a depth of 360 feet. Aleshire Nos. 3, 4, and 
 5 had an initial production of 50, 25, and 20 barrels, respectively. 
 
 In attempts to extend the field 23 wells were drilled in the county dur- 
 ing the year, but except for the wells close to the McDonough County line, 
 all were failures. 
 
16 OIL INVESTIGATIONS 
 
 A dry hole was completed in Schuyler County and two in Brown 
 County. 
 
 The Ohio Oil Company drilled dry holes in sec. 6, New Salem Town- 
 ship, and in sec. .23, Beverly Township, both in Adams County. In the 
 former, the lower 12 feet of the "Second lime" showed water and a very 
 heavy oil characteristic of former wells drilled in the Pike County area. 
 
 In sec. 27, Washington Township, Pike County, a dry hole was drilled 
 on the Goodrich farm. 
 
 Four dry holes were drilled in Henderson County, located as follows: 
 sec. 12 and NW. V 4 sec. 8, T. 9 N., R. 4 W. ; SE. y 4 sec. 17 and SW. y 4 
 sec. 22, T. 10 N., R. 4 W. One dry hole was drilled in Warren County 
 on the Parrish farm, NW. J / 4 sec. 34, T. 9 N., R. 3 W. 
 
 The results of the wildcat drilling in western Illinois served to em- 
 phasize the "spotty" character of the Hoing oil sand. So far as the Sur- 
 vey has been able to learn, no well outside the producing field has penetrated 
 sand at the base of the Second (Niagaran) limestone. Despite this fact, 
 one or two of the Plenderson County wells had a show of oil or gas at 
 the contact of the Second limestone and the underlying Maquoketa shale. 
 
 It is certain that favorable geological structure exists outside the Col- 
 mar-Plymouth fields, but the prevailing absence of the sand is a discour- 
 aging feature. 
 
 SOUTHERN ILLINOIS 
 
 During the summer the Survey maintained two parties in Saline, Wil- 
 liamson, Johnson, Pope, Union, and Jackson counties for the purpose of 
 determining the geological structure of the region. Two prominent anti- 
 clines were mapped and described in Extract from Bulletin 35. Little is 
 known regarding water conditions, but the possibility of locating the best 
 structure in advance of drilling appeals to operators, since two or three 
 wells, located properly, test the entire area, whereas a hundred holes, incor- 
 rectly placed, merely leave the question open. 
 
 Dry holes were drilled in Saline County as follows: center sec. 21, and 
 NW. y 4 NE. y 4 sec. 35, T. 10 S., R. 5 E. ; NW. corner sec. 9, T. 11 S., 
 R. 5 E. At the close of the year wells were being drilled in the SE. y 4 
 sec. 9, T. 10 S., R. 6 E., and in the SE. cor. sec. 33, T. 10 S., R. 5 E., the 
 latter being the best location of any made, so far as structure is concerned. 
 
 NORTHERN ILLINOIS 
 
 In March, 1916, the presence of oil and gas was noted along a small 
 fault plane in mine No. 7 of the Wilmington Star Coal Company, near Coal 
 City. At the time of the writer's examination it was estimated that the 
 flow of oil amounted to about two gallons per 24 hours, whereas the gas 
 did not issue at a rate sufficient to burn continuously. The oil has a gravity 
 
PETROLEUM IN ILLINOIS IN 1916 
 
 of 32° Beaume, and the gas is of good quality. The oil and gas may have 
 originated either in the Maquoketa shale, which underlies the "Coal Meas- 
 ures" in the region or in the Galena-Platteville ("Trenton") limestone, 
 which lies directly beneath the Maquoketa shale. 
 
 In a shallow hole drilled in mine No. 7 sandstone 3 or 4 feet thick was 
 found at a depth of about 20 feet below the coal. The fire clay under the 
 coal and above the sandstone acts as an impervious layer and helps to seal 
 the oil in the sandstone and to prevent its escape except along fault lines 
 which afford channels upward. 
 
 A dome exists in sees. 35 and 36, T. 33 N., R. 7 E., and in sees. 2 and 
 11, T. 32 N., R. 7 E. It is not certain that any porous sandstones underlie 
 the areas mentioned, but if they do, the tendency of any oil and gas in the 
 vicinity would be to accumulate in the area where the rocks lie highest 
 above sea level. A well located in sec. 35, T. 32 N., R. 7 E., was drilled 
 to a depth of 101 feet, No sandstone was found, but gas was struck at a 
 depth of 45 feet in limestone. No record is available as to the amount 
 of flow, but presumably it was not enough to cause excitement at the time. 
 
 The top of the Galena-Platteville limestone lies not more than 200 
 to 250 feet below the surface on the dome. The Galena-Platteville itself 
 should be penetrated in any attempt to test the area, but drilling in rocks 
 below the Galena-Platteville would be useless. The geological structure 
 of the area is mapped and described in a previous bulletin 2 of the Survey. 
 
 MISCELLANEOUS DRILLING 
 
 During 1916 scattered dry holes not mentioned above were drilled near 
 Eldorado, Saline County; sec. 29, Mulberry Grove Township, and sec. 11, 
 Mills Township, Bond County; sec. 13, Otego Township, Fayette County; 
 near Campbell Hill, Jackson County; near Unity and Tamms, Alexander 
 County; near Ullin, Pulaski County; and near Coal City, Grundy County. 
 
 SUMMARY TABLES 
 
 The following tables show the oil development in Illinois during 1916. 
 The figures are compiled from the Oil City Derrick and the Oil and Gas 
 Journal with additions by the author. 
 
 The total number of wells drilled to Jan. 1, 1917 was 25,323 of which 
 4,645 or 18.3 per cent were dry. 
 
 2 Cady, G. H., Coal resources of District I: Illinois State Geol. Survey Coal Mining Series 
 
 Bull. 10, 1915. 
 
IS 
 
 OIL INVESTIGATIONS 
 
 Table 3. — Monthly record of wells drilled in Illinois, 1916 
 
 Month 
 
 Completed 
 
 New- 
 
 Dry 
 
 production 
 
 holes 
 
 Bbls. 
 
 
 984 
 
 33 
 
 1,105 
 
 23 
 
 2,339 
 
 29 
 
 1,056 
 
 22 
 
 2,678 
 
 38 
 
 2,828 
 
 43 
 
 2,647 
 
 25 
 
 2,957 
 
 32 
 
 2,700 
 
 28 
 
 1,862 
 
 32 
 
 2,478 
 
 24 
 
 1,134 
 
 14 
 
 24,713 
 
 317 
 
 14,055 
 
 1*97 
 
 Average 
 
 initial 
 
 production 
 
 Abandoned 
 wells 
 
 Gas 
 
 wells 
 
 January . 
 February 
 March . . 
 
 April 
 
 May 
 
 June 
 
 July 
 
 August . . 
 September 
 October . 
 November 
 December 
 
 Total.. 
 1915 
 
 93 
 
 82 
 119 
 
 93 
 169 
 184 
 142 
 156 
 142 
 103 
 110 
 
 66 
 
 Bbls. 
 16.4 
 18.8 
 26.7 
 14.9 
 21.1 
 20.1 
 22.6 
 23.0 
 23.7 
 26.3 
 28.8 
 21.8 
 
 1,459 
 756 
 
 14 
 
 16 
 
 5 
 
 7 
 
 5 
 
 36 
 
 10 
 
 5 
 
 10 
 
 17 
 
 6 
 
 14 
 
 145 
 
 155 
 
 36 
 18 
 
 Table 4. — County record of wells drilled in Illinois, 1916 
 
 County 
 
 Completed 
 
 New 
 production 
 
 Dry 
 
 Gas 
 
 Abandoned 
 
 Clark 
 
 Cumberland 
 
 Crawford 
 
 Lawrence 
 
 Clinton 
 
 Marion 
 
 Wabash 
 
 McDonough , 
 
 Hancock 
 
 Schuyler , 
 
 Macoupin 
 
 Bond 
 
 Coles 
 
 Brown 
 
 Saline 
 
 Jackson 
 
 Fayette 
 
 Henderson 
 
 Warren" 
 
 Adams" 
 
 Pike" 
 
 Alexander" 
 
 Pulaski" 
 
 Grundy" 
 
 Totals 
 
 "Added by author. 
 
 256 
 
 40 
 
 568 
 
 246 
 
 33 
 
 26 
 
 29 
 
 210 
 
 23 
 
 1 
 
 6 
 
 2 
 
 11 
 
 2 
 
 3 
 
 1 
 
 1 
 
 4 
 
 1 
 
 2 
 
 1 
 
 1 
 
 1 
 
 1 
 
 Bbls. 
 3,749 
 
 434 
 6,071 
 9,540 
 
 291 
 
 217 
 2,325 
 1,855 
 
 167 
 
 57 
 
 1,469 
 
 24,606 
 
 36 
 
 3 
 
 151 
 
 33 
 22 
 8 
 12 
 25 
 10 
 1 
 3 
 2 
 5 
 2 
 3 
 1 
 1 
 4 
 1 
 2 
 1 
 1 
 1 
 1 
 
 329 
 
 4 
 
 3 
 
 26 
 
 36 
 
 30 
 
 64 
 
 47 
 
 4 
 
 145 
 
PARTS OF SALINE, JOHNSON, POPK, AND 
 WILLIAMSON COUNTIES 
 
 By Albert D. Brokaw 
 
 OUTLINE 
 
 PAGE 
 
 Introduction 20 
 
 Purpose and scope of report 20 
 
 Acknowledgments 20 
 
 Geography 20 
 
 Topography 20 
 
 Drainage 22 
 
 Transportation 22 
 
 Stratigraphy 23 
 
 Beds to be penetrated in drilling 23 
 
 Rocks exposed at surface 24 
 
 General relationships 24 
 
 Pottsville series 24 
 
 Carbondale formation 28 
 
 Glacial drift , 29 
 
 Oil and gas 29 
 
 Relation of geologic structure to oil and gas accumulation 29 
 
 Structural features of area 31 
 
 Gold Hill fault 31 
 
 McCormick and New Burnside anticlines 32 
 
 Recommendations for future drilling 33 
 
 Localities already tested 35 
 
 ILLUSTRATIONS 
 
 PLATE 
 
 L Graphic section showing beds to be penetrated in drilling 24 
 
 II. Map showing geologic structure in parts of Saline, Johnson, and Wil- 
 liamson counties 32 
 
 III. Geologic cross-sections in Pope and Saline counties 34 
 
 FIGURE 
 
 1. Map showing area covered by this report 21 
 
 2. Map showing the approximate position of the outcrop of coal Xo. 2 and 
 
 the position of the Chester-Pottsville contact 2o 
 
 3. Concretionary iron bands in the middle cliff-making sandstone 
 
 4. Cross-bedding in Pottsville sandstone in east bank of Mud Springs Hollow 28 
 
 5. Diagrammatic cross-section showing effect of geologic structure on oil 
 
 accumulation 30 
 
 6. Steeply tilted beds in faulted contact with gently dipping beds in I - 
 
 Hollow 33 
 
 7. Diagrammatic cross-section showing proper location for tost well on an 
 
 unsymmetrical anticline 34 
 
 8. Graphic sections of the Royse, Bynum, and Warren wells 36 
 
 (19) 
 
20 OIL INVESTIGATIONS 
 
 INTRODUCTION 
 Purpose and Scope of Report 
 
 The area covered in this report lies in the southern parts of Saline and 
 Williamson and in the northern parts of Pope and Johnson counties (fig. 1). 
 It embraces the greater part of Tps. 10 and US. and the north half of 
 12 S., in Rs. 2, 3, 4, 5, and 6 E. of the Third Principal Meridian. 
 
 The field work was done in June, July, August, and September, 1916, 
 by the writer with the assistance of Mr. Horace A. Scott. The work is in 
 the nature of more or less detailed reconnaissance, as the area to be cov- 
 ered (450 sq. mi.) and the lack of accurate maps precluded the possibility 
 of detailed field work. 
 
 The report calls attention to the presence of two anticlines that appear 
 to warrant conservative exploration. It is to be emphasized, however, that 
 the uncertainties are great, even in the most favorable localities, on account 
 of unknown faults which may break the reservoirs or restrict collecting 
 areas, and because there may never have been important quantities of oil 
 in the rocks of the region. 
 
 Since the relationship between geologic structure and oil accumulation 
 has been so well established, the publication of an official report showing 
 the existence of an anticline or a dome is the signal for wholesale leasing 
 and drilling. Usually the resulting drilling far exceeds the amount neces- 
 sary for proper tests. Until oil has actually been found in paying quantity, 
 all activities in leasing and in drilling must be considered extremely spec- 
 ulative. 
 
 Acknowledgments 
 
 The writer wishes to acknowledge the many favors granted and the 
 courtesies shown by the residents of the region. For information he is 
 especially indebted to Messrs. Hugh Murray, W. M. Page, Trammel and 
 Joyner, and Dr. S. J. Blackman for maps, and other materials. The careful 
 work of his field assistant, Mr. H. A. Scott, is also gratefully acknowledged. 
 
 GEOGRAPHY 
 Topography 
 
 The northern part of the region is a lowland area, the elevations above 
 sea level ranging from about 375 to 450 or 500 feet. It includes the broad 
 alluvial plain of Saline River and its larger tributaries. Here and there 
 shale hills rise above the general level, and throughout a large part of the 
 lowland area the topography is gently rolling rather than flat. In southern 
 Williamson County the terminal moraine of one of the earlier glacial epochs 
 is found along the border of the lowland area. 
 
Fig. 1. — Map showing area covered by tins report. 
 
22 OIL INVESTIGATIONS 
 
 The southern portion of the district is notably higher, the elevations 
 reaching 800 feet above sea level. In the adjacent area to the east the 
 maximum elevation is 1,060 feet above the sea, the highest point in southern 
 Illinois. This highland area is often designated "a spur of the Ozarks", 
 and the topography is not unlike that of part of the Ozark regions. The 
 county is very rough — the stream valleys are deep and steep walled, the 
 divides are commonly narrow, but in a few places are found broad, rolling 
 uplands. A considerable portion of the upland area is forested. Numerous 
 tracts have been cleared, and after a few years of cultivation have been 
 abandoned to persimmon and sassafras. Roads are steep and rocky, since 
 they must follow ridges or valleys more commonly than surveyed land lines. 
 
 The highland area is terminated on the south by an escarpment from 
 150 to 300 feet high, which forms the most striking and picturesque top- 
 ographic feature of the area. The escarpment marks the boundary be- 
 tween the "sandstone country" of the upland and the limestone country to 
 the south. 
 
 Drainage 
 
 The northern portion of the area is drained chiefly by the tributaries of 
 South Fork of Saline River. The northwestern corner is drained by Wolf 
 Creek, a tributary of Big Muddy. The southern drainage is by tributaries 
 of Lusk Creek, Bay Creek, and Cache River. In the smaller stream valleys 
 striking scenic features are not uncommon ; among the most widely known 
 are the natural bridge on Hunting Branch southeast of McCormick ; on 
 Jackson Springs in sec. 31, T. 11 S., R. 4 E. ; on Gum Springs in sec. 3, 
 T. 12 S., R. 4 E.; on Leigh Falls in sec. 35, T. 11 S., R. 4 E. ; and Fern 
 Cliff, one-half mile southwest of Goreville. 
 
 Transportation 
 
 Three railways cross the region : the Big Four through Carriers Mills, 
 Stonefort, New Burnside, Parker, Tunnel Hill, and Sanborn ; the Illinois 
 Central through Willeford, Creal Springs, Parker, Ozark, and Simpson 1 ; 
 and the Chicago and Eastern Illinois through Hudgens, Goreville, and 
 Buncombe. The Chicago, Burlington and Quincy Railroad operates trains 
 over the Chicago & Eastern Illinois tracks. 
 
 A number of postoffices in the area are situated at considerable dis- 
 tance from the railroads. With the exception of Eddyville, a thriving vil- 
 lage of about three hundred inhabitants, these are very small communities, 
 and accommodations for travelers are available only in private houses. The 
 roads are rough, but during the summer and fall the main highways can 
 be traveled by automobile. Automobiles are available at Harrisburg (seven 
 miles north of Mitchellsville), Carriers Mills, Stonefort, New Burnside, 
 
 'Simpson is % mile south of the southern edge of the map, in see. 22, T. 12 S., R. 4 E. 
 
SALINE, JOHNSON, POPE, AND WILLIAMSON COUNTIES 
 
 Creal Springs, Vienna (about 10 miles south of Tunnel Hill), at Marion 
 (5 miles north of Hudgens) at Goreville, and at Eddyville. Eddyville may 
 be reached by stage or automobile from Golconda. 
 
 STRATIGRAPHY 
 Beds To Be Penetrated in Drilling 
 
 The beds with which the oil operator is concerned in the region under 
 consideration include the Pottsville formation, the underlying Chester group 
 of formations, and the Ste. Genevieve limestone. In terms of the well- 
 known oil sands of southeastern Illinois, these beds include the horizon 
 of the Bridgeport and Robinson sands at the top, and, in descending order, 
 the Buchanan, the Kirkwood, the Tracey, and the McClosky sands. How- 
 ever, both the Pottsville and the Chester are very much thicker in the area 
 described than in the main oil fields, and it is not to be expected that any 
 one sand may be traced from the main oil fields to the southern end of 
 the State. 
 
 It must be remembered that on the crests of the anticlines a large 
 part of the Pottsville rocks have been eroded, and that the sands of the 
 Chester group, together with the underlying Ste. Genevieve, offer the best 
 opportunities for exploration. 
 
 In general, the Pottsville in the area under discussion consists of three 
 heavy, cliff-making sandstones 75 to 150 feet or more thick, separated from 
 each other by softer beds consisting of thinner sandstone, shale, and mix- 
 tures of the two. The latter beds weather into valleys and depressions, 
 whereas the thick sandstone members stand out boldly as cliffs. The Potts- 
 ville is approximately 1,000 feet thick, but the uppermost part of the forma- 
 tion is not included in the graphic section, Plate I. 
 
 The Chester group consists of approximately 1,000 feet of limestones, 
 shales, and sandstones. Four prominent sandstone formations are present 
 in Pope County and should be represented throughout the area. The lime- 
 stones and red shales are the most conspicuous features of the group. Drill- 
 ing should penetrate the Ste. Genevieve in order to test the horizon 
 corresponding to the McClosky "sand" of the main fields. 
 
 The graphic section (Plate I) includes the record of the Ohio Oil 
 Co.'s J. H. Bynum well, sec. 35, Stonefort Township, Saline County, from 
 the top of the well which is located at the base of the upper cliffmaking 
 sandstone of the Pottsville to the base of this formation (see also figure 8). 
 From a depth of 590 feet, or the top of the Chester beds, the section is 
 from surface measurements and deep-well studies by Professor Stuart 
 Wetter. 
 
 The formation names in Plate 1 are tentative and are subject to revision. 
 
24 oil investigations 
 
 Rocks Exposed at Surface 
 general relationships 
 
 The surface rocks of the area comprise the lower portion of the "Coal 
 Measures" known as the Pottsville series, a small area of glacial drift and 
 loess, some alluvial deposits of Pleistocene age, and recent alluvial de- 
 posits in the stream valleys. 
 
 The Chester formations, which underlie the Pottsville series, outcrop 
 to the south, and the overlying Carbondale formation outcrops to the north. 
 The southern boundary of the Carbondale is the outcrop of coal No. 2 or 
 Murphysboro coal. The Pottsville series may be defined as that portion 
 of the "Coal Measures" below coal No. 2. The field work of the present 
 report was restricted to the area immediately underlain by the Pottsville 
 series. 
 
 POTTSVILLE SERIES 
 
 The Pottsville series of southern Illinois consists of sandstones, con- 
 glomerates, and shales, containing local "pocket coals" or nonpersistent coal 
 beds and a very few thin limestones of local extent. The total thickness 
 of the Pottsville is estimated at about 1,100 feet; the maximum measure- 
 ment was obtained from the log of the Royse well, connected with a traverse 
 from that point to the Henshaw mine, which is operating on coal No. 2; 
 this gave a thickness of 1,060 feet. 
 
 A generalized cross-section, derived from a study of logs in conjunc- 
 tion with observations on the outcrop of the more resistant members is 
 given below, numbered in order from the bottom up : 
 
 Generalized section of Pottsville series 
 
 Thickness 
 Feet 
 
 7. Brown gritty shale 10-40 
 
 6. Lower cliff-making sandstone, massive cross-bedded sandstone with 
 
 conglomeratic beds 100-250 
 
 5. Shale with thin micaceous sandy beds and local dirty coals 40-60 
 
 4. Middle cliff-making sandstone, massive, cross-bedded, quartzose sand- 
 stone with local conglomeratic lenses 40-150 
 
 3. Shale with thin sandy layers and local coal beds; one cannel coal.. . . 75-125 
 2. Upper cliff-making sandstone, massive, cross-bedded sandstones not 
 
 conglomeratic, commonly ironstained 100-200 
 
 1. Shales with thin beds of sandstone and sandy, micaceous shale; local 
 
 limestones and coal beds ; some gypsiferous shale 400 
 
 In western Kentucky the Pottsville series has been divided into the 
 Caseyville sandstone and the Tradewater formations. 2 Apparently the for- 
 
 2 Lee, Wallace, Geology of the Kentucky part of the Shawneetown quadrangle : Kentucky 
 Geol. Survey, 1916. 
 
SALINE, JOHNSON, POPE, AND WILLIAMSON COUNTIES 
 
 25 
 
 mer corresponds approximately to the 
 sandstones and the underH — - 
 
 lower and midc 
 
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 coal has been opened southeast of Ozark in sees. 35 and 2o, T. 1 1 S., R. 6 E. 
 
24 
 
 OIL INVESTIGATIONS 
 
 
 
 Rocks Exposed at Surface 
 
 
 o 
 
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 fc»tife%Vk.Y h^TAWft Wfe«Y8& 
 
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 Caseyville sandstone and the Traclewater lormations.- Apparently u.^ i^ 
 
 2 Le e, Wallace, Geology of the Kentucky part of the Shawneetown quadrangle: Kentucky 
 Geol. Survey, 1916. 
 
SALINE, JOHNSON, POPE, AND WILLIAMSON COUNTIES 25 
 
 mer corresponds approximately to the lower and middle cliff-making 
 sandstones and the underlying shales, and the latter may be equivalent in 
 part at least, to the upper sandstone and shales of the section. The basal 
 shale of the series is exposed at a few points in the southern edge of the 
 area, and is recorded in the logs of all wells which have entirely penetrated 
 the Pottsville series. It is characteristically brown in color and in most 
 places thin bedded and gritty. Exposures are not numerous, as the out- 
 crops are at the foot of the southern escarpment and as the shale is com- 
 monly covered with talus. The lower cliff-making sandstone is a massive 
 cross-bedded sandstone notably conglomeratic with pebbles less than an 
 inch in diameter. Conglomeratic lenses are scattered irregularly through 
 the formation, and are no more abundant near the base than at many other 
 horizons. The sand is for the most part coarse, a quality that gives locally 
 a sugary texture to the rock. Occasional grains of chert are found. This 
 sandstone forms the bold south-facing escarpment which marks the southern 
 boundary of the upland. It is a resistant rock, and a few outliers are 
 found capping high hills south of the escarpment. The approximate posi- 
 tion of this escarpment is shown in figure 2. 
 
 Exposures of the overlying shale are not abundant, but the area it 
 immediately underlies is characterized by gently rolling topography in 
 contrast to the rougher sandstone country. Such an area is found north 
 of Eddyville, and in various other parts of the region. The shale is com- 
 monly reported in well logs, but its thickness varies considerably. 
 
 The middle cliff-making sandstone is typically developed at Buffalo 
 Gap, south of Goreville, where it forms a low escarpment. It may be traced 
 southeastward, running from a little south of Sanborn through Moccasin 
 Gap and along the north flank of the McCormick anticline to the Pope 
 County line. Here this sandstone is buried under later formations, but 
 it reappears at McCormick in the head of Ogden Hollow and may be traced 
 continuously along the McCormick anticline to a point south of Colorado 
 (fig. 3) where it again disappears, to reappear in the flank of the small 
 dome-like structure north of Delwood. Farther east exposures are inter- 
 rupted, and as this sandstone can not be definitely distinguished from the 
 lower one, it can not be positively stated which outcrops are to be correlated 
 with this sandstone. It is believed to be the sandstone forming most of 
 the cliffs near the Pope-Saline County line. 
 
 The overlying shale is again evidenced more commonly by rolling 
 topography than by outcrops, though a large number of rather limited ex- 
 posures are to be found. Coals of local extent are found in various parts 
 of this shale, and most of the coal banks or small local mines in the Potts- 
 ville are working coals in this shale member. One 40-inch bed of cannel 
 coal has been opened southeast of Ozark in sees. 35 and 26, T. 11 S., R. 6 E. 
 
26 
 
 OIL INVESTIGATIONS 
 
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SALINE, JOHNSON, POPE, AND WILLIAMSON COUNTIES 
 
 27 
 
 The top of the shale is exposed in the south end of the tunnel at Tunnel 
 Hill, where it is overlain by the lower part of the upper cliff-making sand- 
 stone. 
 
 The upper cliff-making sandstone is exposed in the walls of Sugar 
 Creek at Parker. The lower portion is a rather thin-bedded, dense, fine- 
 grained, brown sandstone that grades upward into coarser cross-bedded 
 sandstone closely resembling the non-conglomeratic phases of the lower 
 
 Fig. 3. — Concretionary iron bands in middle cliff-making sandstone, sec. 7, T. 
 11 S., R. 6 E. 
 
 sandstones. At Parker the sandstone is nearly 200 feet thick, but con- 
 siderable variation in thickness is shown in logs of drilling holes and at 
 exposures. The formation is exposed here and there along the New 
 Burnside anticline. It forms the striking ridge at the Bynum well, and 
 is thought to form the steep bluffs along Creed Creek at least as far east as 
 
26 
 
 OIL INVESTIGATIONS 
 
 sec. 32, T. 10 S„ R. 6 E. It may possibly be correlated with the sandstone 
 high up in the walls of Mud Spring Hollow in sec. 35, T. 10 S., R. 6 E. 
 Figure 4 is from this locality. 
 
 North of the exposures of the upper cliff-making sandstone the topog- 
 raphy is characteristically rolling, and most of the outcrops are shale or 
 thin-bedded, friable sandstones usually in very limited exposures. The 
 thickness of this formation, which is predominantly shale is estimated at 
 400 feet. This upper shale includes a few local coal beds, and thin local 
 limestones. From one locality gypsum flakes in the shale were reported. 
 
 Fig. 4. — Cross-bedding in Pottsville sandstone in east bank of Mud Springs Hol- 
 low, sec. 35, T. 10 S, R. 6 E. 
 
 The bluffs west of Stonefort and at Bald Mountain, northeast of New 
 Burnside, are tentatively referred to a lens of sandstone at or near the 
 top of the Pottsville series. 
 
 CARBONDALE FORMATION 
 
 Coal No. 2, or Murphysboro coal, is the basal member of the over- 
 lying Carbondale formation. In this region it consists of two 36-inch 
 coal seams separated by 15 to 25 feet of shale. The parting thins to the 
 west, and at Murphysboro it is not noted. Farther east the two seams 
 are said to be 40 feet apart. Exposures are not abundant, but the prob- 
 able outcrop was traced by locating old workings many of which are caved 
 and inaccessible, and by the few active local mines on one or the other 
 
SALINE, JOHNSON, POPE, AND WILLIAMSON COUNTIES 
 
 of these seams. What is believed to be coal No. 2 was traced from the 
 hills northwest of Mitchellsville to the point where the Big Four crosses 
 the South Fork of Saline River, thence southwestward to a point \ l / 2 miles 
 west of New Burnside. From this point the outcrop swings northward 
 and is shortly covered by glacial drift. A coal mined lli miles southeast 
 of Hudgens is thought to belong to the same horizon. No exposures were 
 found within the area west of this point, but an 8-foot bed is reported 
 in sec. 8, T. 10 S., R. 1 E., which may be coal No. 2. 
 
 GLACIAL DRIFT 
 
 The southern limit of glaciation is near the Williamson-Johnson county 
 line. Drift was observed as far south as the north side of sec. 12, T. 11 S., 
 R. 2 E. In Saline County the drift has not extended so far south as in 
 Williamson and Johnson counties, and the terminal moraine was not fol- 
 lowed. Near the Williamson-Johnson County line few large bowlders 
 were seen, but igneous pebbles are abundant. Owing to the deep mantle 
 of drift in this vicinity rock outcrops are very scarce. 
 
 South of the drift-covered area in many places the upland soils con- 
 sist of yellow, fine-grained, gritty material designated as "yellow silt loam" 
 by the Soil Survey. This material is believed to be in part loess. In the 
 upland area of Johnson County this type is probably more common than 
 residual soil. 
 
 OIL AND GAS 
 Relation of Geologic Structure to Oil and Gas Accumulation 
 
 The following paragraphs on theories of oil and gas accumulation will 
 aid the reader in understanding the significance of the structures to be 
 described. 
 
 Petroleum and natural gas have been so commonly found in anti- 
 clinal structures, as shown in figure 5, that it is generally conceded that 
 such structures offer the best situation for test wells, and the search for 
 and study of such structures have come to be the accepted method of the 
 petroleum geologist. This is particularly true for rocks saturated with 
 water. If oil and water occur in the same sand, the oil is always found 
 above the water. It is evident that in an anticline in which an impervious 
 stratum lies above an oil sand, the oil, being lighter than the water, tends 
 to accumulate at the crest of the fold. Gas, if present, actually occupies 
 the crest, below it is the oil, and still lower, water — usually salt water 
 (fig. 5, A). 
 
Fig. 5. — Diagrammatic cross-sections showing- effect of geologic structure on oil 
 accumulation. In B and C the fault plane is supposed to afford a channel by which 
 the oil has escaped, whereas in 1), impervious material fills the fault and provides 
 an effective seal. 
 
SALINE, JOHNSON, POPE, AND WILLIAMSON COUNTIES 
 
 Three important conditions must be fulfilled if oil is to accumulate in 
 commercial quantities in anticlines : 
 
 1. The rocks (or sandstones) that contain the oil must be saturated with water. 
 
 as the oil will rise in the rocks only so far as it is buoyed up by the 
 underlying water. If the rocks are dry the oil will sink until it re-t- 
 on water, or on an impervious stratum. It may even be in the base of 
 a syncline. 
 
 2. The anticline must be tight. That is, it must contain a relatively impervious 
 
 layer above the oil sand, and must not be seriously broken by faults which 
 would allow the oil to escape (fig. 5, B). 
 
 3. There must be a collecting area of sufficient size to supply a considerable 
 
 amount of petroleum. The oil was doubtless originally dispersed through 
 a large area, and has later collected in pools. In a given pool the amount 
 of oil may depend directly upon the collecting area. 
 
 In a prospective region the presence of anticlines is of great import- 
 ance, but the amount and character of faulting and the location of faults 
 is no less important. The effect of faults in producing leaks in the struc- 
 ture has already been mentioned. A fault below the crest of an anticline 
 may cut off, or seriously restrict the collecting area, and allow only small 
 amounts to accumulate (fig. 5, C). 
 
 Sealed faults — that is, faults so completely filled with impervious ma- 
 terial as to offer no avenue of escape for oil — may in some cases afford 
 important places for the accumulation of oil and gas (fig. 5, D). 
 
 Some important oil fields have been located where no structural con- 
 ditions would suggest the probability of oil, and no doubt others will be 
 found, but in the majority of cases accumulation is found to be definitely 
 related to structural features. For this reason knowledge of the geological 
 structure of a prospective oil region is eminently desirable and may save 
 a great deal of unnecessary drilling in unfavorable localities. If oil or 
 gas is not found in the anticlines, the chance of finding them elsewhere in 
 the region is comparatively small. On the other hand, any number of dry 
 wells drilled off the favorable structures may give no information as to 
 the presence or absence of oil in the region. 
 
 Structural Features of Area 
 gold hill fault 
 
 The Gold Hill fault in the area to the east is probably the most strik- 
 ing structural feature of southern Illinois. Tt involves beds of Pennsyl 
 vanian and Mississippian age in a vertical displacement estimated at l.(XM) 
 to 1,500 feet, and forms the conspicuous range of hills known as Gold Mill 
 and Cave Hill. 
 
 In discussing this fault in connection with early studies oi the region, 
 Cox 3 says, "Though the Gold Mill fault disappears beneath the lowlands 
 
 'Cox, E. T., Geology of Saline County: Geological Survey of [llinoia vol. 6, p 
 
 
32 OIL INVESTIGATIONS 
 
 west of this hill, it is seen again as a conspicuous ridge of massive conglom- 
 eratic sandstone in the southwestern part of the county near the village 
 of Stone Fort 4 ". He further notes that "the strata here present the ap- 
 pearance of an anticlinal axis". The correlation of the structures in this 
 region with the Gold Hill fault is one which readily suggests itself, but 
 proof is lacking, as it is impossible to trace the effects of the eastern dis- 
 turbance into the region covered in this report. 
 
 MCCORMICK AND NEW BURNSIDE ANTICLINES 
 
 Two well-marked anticlines, traceable for a number of miles, are the 
 important structural features of the region. Both have a general southwest- 
 northeast trend, swinging to a nearly east-west direction in the eastern part 
 of the area. They have been designated the McCormick and New Burn- 
 side anticlines, from localities on or near their respective crests (see Plate 
 
 ii). 
 
 The McCormick anticline was traced from the vicinity of Gum Springs, 
 about two miles north of Simpson, northeastward across sees. 10, 3, and 2, 
 T. 12 S., R.4E.; 35 and 36, T. 11 S., R. 4 E. ; 31, 30, 29, 20, 16, 15, 10, 
 11, 12, and 1, T. 11 S., R. 5 E. ; 6, 5, and into 4, T. 11 S., R. 6 E. 
 
 The anticline is in general not symmetrical, but has its steeper dip, 
 ranging up to 50 degrees, on the north limb. The southward dips are rarely 
 over 20 degrees. At Gum Springs a well-marked fault was noted in the 
 north flank about 300 yards north of the crest of the fold. The fault brings 
 up gently north-dipping Chester limestone and shale into contact with the 
 Pottsville sandstone and conglomerate having a northwest dip of 50 degrees 
 (see cross-section A- A, Plates II and III). This fault probably persists 
 along the anticline at least into sec. 35, T. 11 S., R. 4 E., where Chester 
 limestone is found in the bottom of a stream valley near the crest of the 
 anticline. There is also evidence of faulting west of Flat Rock schoolhouse, 
 where a nearly vertical dip was observed. In sec. 4, T. 11 S., R. 6 E., and 
 eastward, considerable faulting has occurred, but in the rest of the struc- 
 ture no positive evidence of faulting was found. 
 
 The New Burnside anticline extends from Parker northeastward 
 through sees. 17, 16, 9, 10, 3, 2, and 1, T. 11 S., R. 4 E., into sec. 6, T. 11 S., 
 R. 5 E., where the structure is apparently interrupted, but possibly con- 
 tinued along the south side of sees. 6, 5, and part of 4. It is then resumed 
 in the north part of 4, extends through 3, T. 11 S., R. 5 E., 34, 35, and 36, 
 T. 10 S., R. 5 E., and with possible interruptions through 31, 32, and 33, 
 T. 10 S., R. 6 E. Southwest of Parker the anticline widens and flattens. 
 It extends through sees. 18 and 19, T. 11 S., R. 4 E., and 24 and 23, T. 11 S., 
 R. 3 E., beyond which the structure gradually disappears under the influ- 
 ence of the broad uplift to the southwest. 
 
 4 The "Old Town", as it is now called, is located about 2 J4 miles southeast of the present 
 village. To this, rather than the present village, reference is made. 
 
BULLETIN NO. 35, PLATE II 
 
 21 
 
 LEGEND 
 
 _____ County line 
 
 — Township line 
 
 Railroad 
 
 _fi) Town 
 
 do i f \ T.10S. 
 I Rudement_ 
 
 
 5 
 
 B'« 
 
 12 
 
 fK 
 
 5 2 
 
 43 
 
 JS 
 
 Direction of dip is shown by the arrow, 
 the strike by the straight line perpen- 
 dicular to the arrow, and the amount of 
 
 a:^ k,. 4.1. ~ c~~ 
 

 
 
 
 
 
 p 
 
 
 
 
 
 
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 a 
 
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 8 ' 
 
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 1 
 
 
 
 
 
 
 
 
 
 
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 er 
 
 
 
 
 
 8 0fT 
 
SALINE, JOHNSON, POPE, AND WILLIAMSON COUNTIES 
 
 33 
 
 Some indications of continuation of both structures to the east were 
 noted, but considerable faulting on a small scale at least, is evident (fig. 6), 
 and this easternmost area is believed to be unpromising. 
 
 With the exception of these two anticlines and the faulted area in the 
 eastern portion, the structure of the region is gently north-dipping — in 
 general, northwestward in the eastern part and northeastward in the west- 
 ern part, with gentle undulations but no reversed dips. No effort was 
 made to trace the McCormick anticline into the limestone area to the south, 
 but the fact that it extends into that area was established. 
 
 Fig. 6. — Steeply tilted beds in faulted contact with gently dipping beds in Dog 
 Hollow, NW./4 sec. 11, T. 11 S, R. 6 E. 
 
 Recommendations for Future Drilling 
 
 The general northward dips indicate that the collecting areas for the 
 two anticlines are chiefly north of the axes, and it is at once evident that 
 the New Burnside anticline has a very much greater collecting area than 
 the McCormick. This fact, and the presence of known faults in the lat- 
 ter, make the New Burnside anticline the more favorable of the two, though 
 the unfaulted portion of the McCormick anticline may yield important de- 
 velopments. Indeed it is possible that the faulting may not be sufficient 
 to seriously affect the structure, but the probability is against this. The 
 apparently large collecting area of the New Burnside anticline may be less 
 than it appears to be, as it is possible that the strong Gold Hill faults extend 
 
.34 
 
 OIL INVESTIGATIONS 
 
 through the area north of the anticlines, but can not be found because 
 of the thick cover of silt in the broad valleys of Saline River and its trib- 
 utaries. Such faults may so seriously restrict the collecting areas as to 
 prevent the accumulation of commercial quantities of oil in the anticlines. 
 In testing the field, wells should be located near the crest of the anti- 
 clines, preferably a little south of the crest, because of the steeper dips on 
 the north limb. (See figure 7 and Plate II.) The areas believed to be 
 most favorable for drilling have been outlined on the map. Topographic 
 conditions must, of course, be taken into account, but in general the pos- 
 sibilities of a field are most surely determined by drilling the proper struc- 
 tures, without reference to topography. 
 
 LEGEND 
 
 Sand 
 
 Shale 
 
 Oil 
 
 Fig. 7. — Diagrammatic cross-section showing proper location for test well on an 
 unsymmetrical anticline. 
 
 In studying structures with a view to testing the area for oil it is im- 
 portant to locate any domelike portions of the anticlines, which should in 
 general be more favorable than other points along the crest of the struc- 
 ture. Where possible it is desirable to construct structure-contour maps, 
 but in the present work the inaccuracy of the maps available and the lack 
 of any means of accurately determining levels would not justify the attempt. 
 
 Two methods for determining domelike areas presented themselves. 
 
 1. To determine altitudes along the crest of the anticline and location in the 
 
 sections ; then by assuming an average thickness for underlying forma- 
 tions estimating the altitude of the base of the Pottsville series. 
 
 2. To study the data assembled on the map with reference to areas from which 
 
 the direction of dip is roughly radial ; such an area will be seen on the 
 map in sees. 5 and 6, T. 11 S., R. 6 E. 
 
 The first method was attempted in the field, but the results are far 
 from satisfactory. The difficulty of determining the position in the section 
 
ILLINOIS STA^ BULLETIN NO. 35, PLATE III 
 
 B 
 
 C 
 
SALINE, JOHNSON, POPE, AND WILLIAMSON COUNTIES 35 
 
 with any accuracy was almost insuperable ; add to that the known variability 
 in thickness of the underlying beds and the inaccuracies of barometer deter- 
 minations, and it will be seen that the results are no more than an extremely 
 rough estimate. The general result of these studies indicated that both 
 structures plunge gently eastward, but undulations along the axis could not 
 be established. 
 
 The second method strongly suggests a dome in sees. 5 and 6, T. 11 S., 
 R. 6 E., as mentioned, one in sees. 33 and 34, T. 10 S., R. 5 E., and sees. 
 3 and 4, T. 11 S., R. 5 E., and less strongly suggests one south of Parker 
 in sec. 17. Similar structures are vaguely suggested at various points along 
 the crests of both the McCormick and New Burnside anticlines in sec. 10, 
 T. 11 S., R. 5 E. 
 
 Localities Already Tested 
 
 It is stated by Mr. J. E. Joyner of Stonefort, Illinois, that in drilling a 
 well some twenty years ago, on what is now known as the Royse farm, in 
 sec. 21, T. 10 S., R. 5 E., a flow of oil was struck at about 180 feet. The 
 oil is said to have flowed for several hours, but as water was desired, drill- 
 ing was resumed and when water was struck the well was pumped out 
 At the time the writer visited the well no evidence of oil was seen. A test 
 well drilled on the same farm in the summer of 1916 yielded salt water, 
 but no indications of oil. 
 
 The Warren well in sec. 3, T. 10 S., R. 6 E., was drilled for oil (fig. 8), 
 and at 1,120 feet small amounts of gas and oil were struck with a flow of 
 fresh water. Drilling was continued to 1,716 feet, where salt water, but 
 no oil, was obtained. The salt water was shut off, and at present the well 
 is flowing, yielding fresh water, with occasional gas bubbles and a very small 
 amount of oil, not more than a few ounces per day. 
 
 Dry holes have resulted from drilling at the following points : 
 
 Bynum farm, sec. 35, T. 10 S., R. 5 E. (fig. 8). 
 Royse farm, sec. 21, T. 10 S., R. 5 E. (fig. 8). 
 Reeves farm, sec. 15, T. 11 S., R. 4 E. 
 Allen (?) farm, sec. 4, T. 10 S„ R. 2 E. 
 
 One reported from near Creal Springs, sec. 17, T. 10 S., R. 2 E. 
 Wells are now being drilled at the following points : 
 
 Sec. 9, T. 10 S., R. 6 E. 
 Sec. 23, T. 10 S., R. 5 E. 
 Sec. 9, T. 11 S., R. 5 E. 
 
 Practically all the dry holes ended in salt water, which is almost uni- 
 formly present in the deeper strata, and is not uncommonly encountered 
 n the Pottsville sandstones. 
 
 With the exception of the Royse and Warren wells (fig. 8), the writer 
 las no information of oil having been struck in wells, nor has he seen any 
 )il seeps or other surface indications of oil. 
 
36 
 
 OIL INVESTIGATIONS 
 
 100 
 
 300 
 
 400 
 
 600 
 
 700 
 
 800 
 
 1000 
 
 1100 
 
 1200 
 
 1300 
 
 1400 
 
 1500 
 
 1600 
 
 1700 
 
 1800 
 
 LEGEND 
 
 m 
 
 m 
 
 Shale Sandstone 
 
 Red shale Limestone 
 
 Sandy shale Shaly 
 
 limestone 
 
 B 
 
 /Coal r 
 
 Top of 
 
 m. 
 
 Coal 1 
 Coal 3 
 
 Gas $ oil 
 
 Tar 
 Springs 
 
 Fig. 8. — Graphic sections of the Royse, Bynum, and Warren wells. 
 
SALINE, JOHNSON, POPE, AND WILLIAMSON COUNTIES 
 
 The fact that the strata which are oil bearing in the main Illinois fields 
 underlie the Pottsville rocks of this area would seem to justify a reason- 
 able amount of prospecting, and it is to be noted that none of the holes 
 so far completed are in reality favorable locations with reference to the 
 structures. The well in sec. 9, T. 11 S., R. 5 E., and especially the one 
 in sec. 33, T. 10 S., R. 5 E., are in much more favorable locations and 
 may yield important information. 
 
 One adverse feature has been pointed out by Professor Stuart Weller 5 . 
 It is his opinion that several of the important oil sands in the eastern Illi- 
 nois fields are lenticular sandstones in the Renault formation. In southern 
 Pope County the corresponding formation consists entirely of massive 
 limestone, which would not offer a favorable reservoir for the accumulation 
 of petroleum. It is highly probable that this character of the Renault forma- 
 tion persists under the Pottsville series of this region. 
 
 5 Oral communication. 
 
PARTS OF WILLIAMSON, UNION, VXD 
 JACKSON COUNTIES 
 
 By Stuart St. Glair 
 
 OUTLINE 
 
 Introduction 
 
 Unconformities and their significance 
 
 Recommendations for drilling 
 
 Localities already tested 
 
 ( 39 ) 
 
 P VGE 
 
 40 
 
 Area covered by report 40 
 
 Reconnaissance methods 40 
 
 Geography 42 
 
 Topography 42 
 
 Drainage 42 
 
 Culture 42 
 
 Stratigraphy 43 
 
 General relationships 43 
 
 Quaternary deposits 43 
 
 Alluvium 43 
 
 Valley deposits 43 
 
 Loess 44 
 
 Glacial drift 44 
 
 Carboniferous system 44 
 
 Pennsylvanian series 44 
 
 Carboniferous formation 44 
 
 Pottsville formation 44 
 
 Mississippian series 45 
 
 Chester group 45 
 
 General relationships 45 
 
 Clore formation 46 
 
 Palestine formation 46 
 
 Menard formation 46 
 
 Tar Springs formation 46 
 
 Sloans Valley formation 46 
 
 Hardinsburg formation 46 
 
 Golconda formation 46 
 
 Cypress formation 46 
 
 Renault formation 47 
 
 Ste. Genevieve formation 47 
 
 St. Louis formation 4/ 
 
 Oil and gas 47 
 
 Accumulation of oil and gas 47 
 
 Structure 48 
 
 General statement -4- s 
 
 Makanda anticline 48 
 
 Cedar Creek dome 
 
 Cobden terrace 
 
 Faults 51 
 
40 OIL INVESTIGATIONS 
 
 ILLUSTRATIONS 
 
 PLATE PAGE 
 
 IV. Graphic section showing beds to be drilled 46 
 
 V. Map of parts of Williamson, Jackson, and Union counties showing 
 
 geologic structure 48 
 
 VI. Geologic cross-sections in Williamson, Jackson, and Union counties 50 
 
 FIGURE 
 
 9. Map showing area covered by report 41 
 
 10. Pottsville escarpment east of Lick Creek, Union County 43 
 
 11. Uncomformity between the Chester and Pottsville formations two miles 
 
 south of Pomona 52 
 
 INTRODUCTION 
 Area Covered by Report 
 
 The area treated in this report lies wholly within southern Jackson, 
 northern Union, and western Williamson counties. This area is shown in 
 figure 9. A line drawn southeast from Murphysboro through Carbondale 
 and on into Williamson County through Cottage Home and Wolf Creek to 
 the county line, south along the Union- Johnson County line for about nine 
 miles to Cache River valley, from there northwest through Cobden and 
 Alto Pass to the county line, thence north to Land Ridge and northeast to 
 Murphysboro would accurately outline the area studied. 
 
 Reconnaissance Methods 
 
 The report is the result of about eight weeks of reconnaissance work 
 in the southern part of Illinois, and points out the position of a low anti- 
 clinal fold which was traced for eight miles, a low irregular dome structure 
 which covers approximately five square miles, and a terrace structure which 
 may have possibilities. The writer was assisted in the field work by Mr. 
 Marvin Weller. The maps used were United States post office maps of 
 Jackson, Williamson counties and a land survey map of Union County. 
 
 The object of the work was to make a reconnaissance examination of 
 the assigned territory to determine the general structure and to map the 
 position and extent of any area where structural irregularities were devel- 
 oped to such a degree that the accumulation of oil, in so far as structure is 
 a factor in this process, might at least be a possibility. From the character 
 of the work done and the almost total lack of past prospecting the writer 
 is able only to call attention to limited areas where there are some possibil- 
 ities, and negatively to show the much larger area, where probabilities of 
 oil accumulation in commercial pools are entirely lacking. 
 
WILLIAMSON, UNION, AND JACKSON COUNTIES 
 
 41 
 
 Fig. 9. — Map showing area covered by report 
 
42 OIL INVESTIGATIONS 
 
 GEOGRAPHY 
 Topography 
 
 The lowest point in this area is found in the northwest corner where 
 the valley bottom, of Muddy River is about 370 feet above sea level. Other 
 low areas are in the drainage basins of Muddy River on the north and 
 Cache River on the south. In these the low points range close to 400 feet 
 above sea level. 
 
 The high points are along the divide which crosses northern Union 
 County and which separates the Muddy basin from the Cache basin. This 
 divide ranges from 840 feet above sea level on the west to about 750 feet 
 on the east. Bald Knob, the highest point in the immediate region, is in 
 the extreme southwest part of the area. Aneroid measurement based on 
 the railroad bench mark at Alto Pass credits the Knob with an elevation 
 of 1,050 feet. 
 
 The extreme northern part of the area is level prairie land so typical 
 of the greater part of the State. Southward this merges gradually into 
 a gentle hilly country broken by deep ravines and in places steep slopes. 
 The original topography of this northern portion of the area has been 
 greatly altered by a covering of glacial drift and wind-blown loess, the 
 thicknesses of which are variable. South from this glacial boundary the 
 country is much more rugged, the hills are higher, and the immediate relief 
 is greater. The rough country terminates with the divide which irregularly 
 crosses the northern part of Union County. The divide is formed by the 
 northward-dipping beds of the lower Pottsville sandstone. Long spurs 
 (fig. 10) of this rugged formation extend southward into a rolling country, 
 giving a very serrate contour to the divide. The reentrants between these 
 arms are a rolling country that is in marked contrast with the rougher hills. 
 
 South of the distinctive Pottsville topography and in the extreme 
 southern and southeastern part of the area the country is rolling. 
 
 Drainage 
 The master streams of the area are Muddy River on the north, with 
 Cedar and Crab Orchard creeks as main tributaries and Cache River on 
 the south with Lick and Bradshaw creeks as tributaries. 
 
 Culture 
 The principal towns in the northern part of the area are Murphysboro. 
 which is a center for the Mobile and Ohio Railroad, Illinois Central Rail- 
 road, and St. Louis, Iron Mountain, and Southern Railway; Carbondale, a 
 railroad center for the Illinois Central Railroad branches ; and Carterville 
 on the Illinois Central Railroad. The principal towns in the southern part 
 are Anna with Illinois Central Railroad connections and Jonesboro on the 
 Mobile and Ohio Railroad, although Cobden and Alto Pass are centers for 
 large fruit shipments. 
 
WILLIAMSON, UNION, AND JACKSON COUNTIES 43 
 
 The chief agricultural products of the country are fruits and sweet 
 potatoes in the hilly country, and grains in the lower and rolling parts of 
 the area. A large part of the area is too rough to utilize except for grazing 
 purposes. 
 
 STRATIGRAPHY 
 General Relationships 
 
 The consolidated rocks of the area belong to the Carboniferous system, 
 the lower half of the Pennsylvanian and the upper half of the Mississippian 
 series being represented. Overlying the consolidated rocks are the uncon- 
 
 Fig. 10. — Pottsville escarpment east of Lick Creek, Union County. 
 
 solidated deposits of the Quaternary comprising glacial drift, fluvio-lacu- 
 strine deposits, loess, and alluvium. A graphic section showing the succes- 
 sion of formations and their general characteristics is given on Plate IV. 
 
 Quaternary Deposits 
 alluvium 
 
 Flood plains are present along most of the streams in the area. The 
 deposits are usually made up of silt and clay with some sand. In the hilly 
 part the alluvium along the streams is composed of coarser material, sub- 
 angular pebbles of sandstone and shale, sand, and silt. 
 
 VALLEY DEPOSITS 
 
 In the valleys of the master streams are deposits of fluvio-lacustrine 
 material of two ages. The lower and younger deposit consists chiefly of 
 greenish-gray to purple clay, the upper part being concretionary. A little 
 sand is present in places. 
 
 The earlier and topographically higher valley fill is composed of clay 
 and fine sand. This deposit forms two fairly well-defined terraces, the 
 tops of which are about 410 and 390 feet, respectively, above sea level. 
 
44 OIL INVESTIGATIONS 
 
 LOESS 
 
 Deposits of loess are found scattered irregularly over the area, being 
 thicker near the main streams and Mississippi River than in the hills in the 
 interior of the area. The loess is a fine-grained, massive earth or loam of 
 yellowish to brownish color and is usually calcareous. A characteristic 
 weathering feature of the loess is its steep and even cliff-like faces which 
 may rise from a few feet to as much as 20 feet. The loess on the hills is 
 of wind-blown origin. 
 
 GLACIAL DRIFT 
 
 The boundary of the glacial drift is approximately shown on the map, 
 Plate V. The drift varies in thickness from place to place, and has been 
 entirely eroded in some localities. Where the drift is thick the typical 
 topography of the underlying rock formation has been greatly altered and 
 the ledge outcrops are covered except in some stream valleys. 
 
 The drift is composed of clay and pebbles, and decayed bowlders of 
 varying sizes. The pebbles and bowlders are of many kinds of rock, some 
 entirely foreign to the region. A few glacial bowlders were found on the 
 tops of the hills as far south as the Union County line. • 
 
 Carboniferous System 
 
 pennsylvanian series 
 
 CARBONDALE FORMATION 
 
 The Carbondale formation is the youngest consolidated rock forma- 
 tion found in the area covered by this report. Its upper limit is denned by 
 the top of coal No. 6; the lower limit, by the floor of coal No. 2. The 
 formation is composed essentially of shale containing thin interbedded sand- 
 stones. Some limestone lies in the upper part, one bed being above coal 
 No. 5, which is approximately 40 feet below coal No. 6 in the immediate 
 region; a second limestone is a little below coal No. 5. A persistent sand- 
 stone which is 30 feet or more in thickness is found about 20 feet above the 
 upper bench of coal No. 2. Coal No. 2 is divided into two benches separated 
 by a shale parting of variable thickness ; at one place near Murphysboro it 
 is only a few feet thick; a mile southeast of Carbondale it has increased 
 to 20 feet; and at the local mines Z l / 2 miles southeast of Carbondale the 
 parting has increased to 30 feet in thickness. 
 
 Topographically the Carbondale area is level to slightly rolling with a 
 few scattered hills which are caused by more resistant sandstone beds. 
 
 POTTSV1LLE FORMATION 
 
 The Pottsville formation is composed of thick, cross-bedded sandstone 
 and shale members interbedded with thinner sandstones and shales. A few 
 irregular and discontinuous thin coal beds lie at various stratigraphic posi- 
 
WILLIAMSON, UNION, AND JACKSON COUNTIES 45 
 
 tions. The irregularity of the strata and the frequent lateral gradations of 
 shale and sandstone made it impracticable to compile an accurate section. 
 No accurate measurement of the Pottsville formation was practicable in 
 the area. A drill record north of Carbondale shows a thickness of 676 
 feet. Northwest of Murphysboro the formation in places does not exceed 
 420 feet in thickness. East of the area covered by this report, in northern 
 Johnson County the Pottsville attains a thickness of approximately 1,000 
 feet. 
 
 In the northwestern part of the area the upper 20 to 30 feet is sandy 
 shale underlain by sandstone. In the eastern part of the area this upper 
 shale member thickens materially, probably attaining a thickness of 100 
 feet or more. Below this are no distinctive members in the formation except 
 in the vicinities of Pomona and especially Makanda, and in the southern 
 part of the area. At the first two places a heavy clifl-forming sandstone is 
 present, the base of which is probably about 100 to 150 feet above the base 
 of the Pottsville. Locally, just south of Makanda, a thin, irregular coal 
 bed is near the base of this member. The sandstone exposure near Makanda 
 is over 100 feet. In the southern part of the area the base of the Pottsville 
 is distinctive, being a heavy and at certain horizons a conglomeratic, clifl- 
 forming sandstone which varies in thickness from 30 feet in the west to over 
 100 feet in the hills east of Lick Creek. This basal member is responsible 
 for the long Pottsville arms which protrude south into the Chester area. 
 
 Between 50 and 60 feet below the top of the Pottsville occurs a lenti- 
 cular coal bed which has been mined in several localities. Two miles south- 
 west of Murphysboro the coal is three feet thick. Four miles southeast of 
 Carbondale 8 feet of coal is reported in a drill hole, 50 feet below the lower 
 bench of coal No. 2. Other lenticular but thin coal beds outcrop at several 
 other lower positions in this formation. 
 
 The Pottsville rests unconformably upon the Chester. One of the 
 causes of variation in thickness of the Pottsville is the irregular surface 
 upon which the basal sediments were deposited. The possibility of accumu- 
 lation of oil and gas in certain sandstone horizons of the Pottsville where 
 structural conditions are favorable is of economic interest and importance. 
 In the Lawrence County field the Buchanan sand is in the basal part of this 
 formation. 
 
 MISSISSIPPIAN SERIES 
 CHESTER GROUP 
 
 General relationships. — Wherever observed the upper formation of the 
 Chester group was the Clore. On account of the erosional unconformity 
 at the top of the Chester the thickness of the Clore necessarily varies from 
 place to place. The whole formation may be absent in some localities, and 
 the Pottsville rest directly upon the Palestine sandstone, the formation 
 
46 OIL INVESTIGATIONS 
 
 which underlies the Clore. The succession of Chester formations and thick- 
 ness are given on Plate IV. An erosional break exists between nearly 
 every two adjacent Chester formations, but practically all these irregularities 
 are comparatively small. In the Lawrence County oil field the Chester 
 group contains the "Gas", Kirkwood, and Tracey sands. 
 
 Clore formation. — The Clore formation as exposed in the southern 
 part of the area varies from 80 to 110 feet in thickness. It may be much 
 thinner underneath the Pottsville to the north of the outcrop. The forma- 
 tion comprises limestone and shale members with thinner interbedded shaly 
 limestone and shale. The shales are typically red and green in color. 
 
 Palestine formation. — The Palestine is essentially a sandstone forma- 
 tion. Typical exposures for the area may be seen about three miles east 
 of Cobden. The formation here comprises an upper member of white, 
 medium-grained, cliff- forming sandstone about 50 feet in thickness, and a 
 lower member of thin-bedded, brownish sandstone interbedded with sandy 
 shale, about 30 feet thick. 
 
 Menard formation. — The Menard formation is composed of limestone 
 and shale beds. Much of the limestone is shaly, and the shale contains 
 limestone lenses and some concretions. The limestone is dark colored and 
 near the base contains considerable dark chert. The thickness is approxi- 
 mately 150 feet. 
 
 Tar Springs formation. — The Tar Springs formation is principally 
 sandstone. In places sandy shales are interbedded with the thicker sand- 
 stones. The latter is much cross-bedded locally. The thickness is probably 
 between 125 and 150 feet, 
 
 Sloans Valley formation. — The Sloans Valley formation is composed 
 of interbedded limestones and shales. What is probably Sloans Valley, 
 but is possibly Golconda, outcrops in the southern part of the area. The 
 thickness seen was not over 50 feet and was chiefly limestone. 
 
 Hardinsburg formation. — The Hardinsburg formation is a moderately 
 fine-grained, yellowish-brown sandstone. It was not recognized in the 
 section in the southern part of the area. It may or may not be penetrated 
 by the drill north of the Chester area. 
 
 Golconda formation. — The Golconda formation is principally lime- 
 stone. Some shale which is variable in color and character is found. A 
 red shale has been seen locally. What was tentatively thought to be Sloans 
 Valley may be part of the Golconda formation. The thickness, however, is 
 probably not much more than 50 feet. 
 
 Cypress formation.— The Cypress is chiefly a sandstone formation, 
 although in the lower part is a sandy, greenish shale which may have a 
 limestone bed in the middle. The sandstone is fine grained and yellowish 
 brown in color. The upper sandstone forms cliffs in places. The thick- 
 ness is between 100 and 150 feet. 
 
WILLIAMSON, UNION, AND JACKSON COUNTIES 
 
 47 
 
 Renault formation. — The Renault comprises interbedded limestones and 
 shales. The limestone is finite variable in Krvfti plraro^or ~^a — — :±:-.. 
 
 
 
 
 
 »fe- QB\ 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 -fj 
 
 
 D 
 
 
 & ._ ^^^ ^^w*^ oix^v»x li& UK. Liicti ui certain geologic 
 
 structures on oil accumulation are given in figure 5 of the preceding paper 
 in this bulletin. 
 
46 
 
 OIL INVESTIGATIONS 
 
 W 
 
 hich underlies the Clore. The succession of Chester formations and thick- 
 
 TMif^i J\T An oi-Acintinl K-r^alr pvlcfc hp»f 
 
 wap>h nparlv 
 
 • 
 
 
 
 
 
 
 
 
 
 
 aiucu ami \ tmn\ i .- i 
 
 limestone Deo in me nnuuic. rnc sanusxuuc is Liii 
 
 brown in color. The upper sandstone forms cliffs in places. The thick- 
 ness is between 100 and 150 feet. 
 
WILLIAMSON, UNION, AND JACKSON COUNTIES 47 
 
 Renault formation. — The Renault comprises interbedded limestones and 
 shales. The limestone is quite variable in both character and composition. 
 The shales are both clayey and sandy and green, blue, or purple in color. 
 It contains some oolitic limestones and limestone conglomerate beds. The 
 thickness is about 100 feet. 
 
 STE. GENEVIEVE LIMESTONE 
 
 The Ste. Genevieve formation is made up almost entirely of limestone, 
 some of which is oolitic. Near the middle of the formation in the Lawrence 
 County field an oolite bed produces large quantities of oil. It is in the posi- 
 tion of the McClosky sand in Illinois. The thickness of the formation in 
 this area is about 80 feet. 
 
 ST. LOUIS LIMESTONE 
 
 The St. Louis formation is composed of hard, dense limestone and con- 
 siderable chert. The top of this formation should limit any drilling opera- 
 tions in the district. 
 
 OIL AND GAS 
 
 Accumulation of Oil 
 
 Oil as it is formed in the sediments is in so disseminated a condition 
 that it has no economic value, but through the factors that cause circulation 
 the oil gathers into pools of such size that commercial exploitation is made 
 possible. To assure such circulation a porous stratum is essential ; sand- 
 stones are the most favorable strata for this movement. Another important 
 requirement is that the porous stratum must have an impervious cap rock. 
 Without this condition all the lighter constituents of the petroleum would 
 escape and leave only the heavier and less valuable materials. 
 
 Numerous geologic structures are favorable for the accumulation of 
 oil and gas. In the area described in this report only a few of these type 
 structures were found and therefore only these will be mentioned. They 
 are the anticline, the dome, the terrace, and combinations of these types of 
 structure. 
 
 After the geologic structure is known, the next factor to be determined 
 is the degree of saturation of the rocks. Oil and gas will appear only as 
 high in a structure as is the level of the water in the oil-bearing stratum or 
 strata. If the oil sand is completely saturated the oil or gas, or both, will 
 be found in the higher parts of the structure, the gas being above, the oil 
 next, and water below. If the oil sand is dry, the accumulation will be in 
 the lowest structure or syncline. If the oil sand is partly saturated the oil 
 and gas will rise to an elevation in the structure dependent upon the height 
 of the water and the amount of oil and gas trapped in the structure. 
 
 Diagrammatic cross-sections showing the effect of certain geologic 
 structures on oil accumulation are given in figure 5 of the preceding paper 
 in this bulletin. 
 
48 OIL INVESTIGATIONS 
 
 It should be made clear that in addition to these general laws there are 
 numerous factors which may arise that make each region, almost each local- 
 ity, a special problem. Such things as irregularity in sedimentation during 
 the deposition of the various sands whereby a given oil-bearing stratum 
 may thin or pinch out entirely, differential cementation of parts of the 
 oil sand, unconformities between, and in cases within, the various forma- 
 tions, and varying depths to the sands at different localities are conditions 
 that can be determined only by a very careful study of a region and of 
 each particular locality. 
 
 Structure 
 general statement 
 
 The general structure of the rocks in southern Illinois is a gentle dip 
 north and northeast toward the center of the Illinois basin which lies in 
 Wayne, Hamilton, White, and Edwards counties. The general dip is inter- 
 rupted in many places by small irregularities which are the result of earth 
 movements in past ages. The lines along which the more pronounced dis- 
 turbances have taken place mark, in many cases, old shore-lines of previous 
 geologic periods. This interpretation may aid us in accounting for the 
 irregular character and thickness of the various beds penetrated with the 
 drill in prospecting for oil. Many of the smaller irregularities have been 
 formed as a result of the larger disturbances and, therefore, parallel them 
 in many cases. 
 
 MAKANDA ANTICLINE 
 
 The Makanda anticline is shown on Plates V and VI. It extends from 
 a point one-half mile west of Makanda, in the SW. 34 sec. 28, T. 10 S., 
 R. 1 W., in a general east-northeast direction to the NE. % sec. 22, T. 10 
 S., R. 1 E., a point 1% miles southeast of Cottage Home. The length is 
 about eight miles. The full lines marking the axis of the anticline show 
 areas where outcrops made the location of the structure relatively accur- 
 ate; the broken lines cover areas where practically all rock outcrops are 
 hidden beneath drift and loess. However, the anticline is probably con- 
 tinuous. It is wholly within the Pottsville area. 
 
 Both limbs of the anticline dip gently, and the axis pitches to the 
 northeast with the regional dip. The axis, however, apparently has high 
 and low areas making a series of low, elongate domes. 
 
 The arch is so low and the sides dip so gently that the structure has 
 had practically no effect upon the development of the topography. The 
 west and east ends of the anticline are in rough country, the heavy sand- 
 stones having been deeply eroded. The sandstones of these two parts of 
 the anticline are at different stratigraphic positions. The one at the east 
 end is much higher in the Pottsville formation than the Makanda sand- 
 
T.12S. 
 
 PBORO 
 
 *3 
 
 Scale 
 2 
 
 of parts of Williams 
 
 LEGEND 
 
 County line 
 Township line 
 
 " Railroad 
 
 ™ Town location 
 

 we.fl 
 
 W P.H 
 
 8 9.T 
 
 ZOt.l 
 
WILLIAMSON, UNION, AND JACKSON COUNTIES 49 
 
 stone. Between the rough areas near the two ends the country is hilly 
 and rolling, the sandstone beds being relatively thin. 
 
 One of the high areas on the Makanda anticline is near the town of 
 Makanda. As shown on the map^ this area extends from the east side of 
 section 28 to the northeast side of section 27, a distance of about one mile. 
 The highest point is probably close to the north center of the SW. %, 
 section 27 on the east side of the railroad. At this point the arch is prob- 
 ably about 60 feet in height, an amount which shows a very low anticlinal 
 fold. 
 
 In the NE. % section 27 the sandstone dips several degrees to the 
 northeast. From this point to the NE. 34 section 26 there is a low area 
 on the anticline. On the map this is shown as a less favorable area. From 
 the NE. y A sec. 26, T. 10 S., R. 1 W., to the north center sec. 19, T. 10 
 S., R. 1 E., the relations of high and low areas could not be determined. 
 However, general conditions point to the existence of a slightly higher area 
 over this distance. 
 
 From the north center of section 19 to the NW. %. section 21 the axis 
 of the anticline is probably lower than to the east or west. The high area 
 at the eastern end of the anticline extends from the NW. %. section 21 
 to the north center of section 22. The highest point is where Big Grassy 
 Creek cuts across the anticline in the NE. Y^ section 21. East of this 
 area the anticline dips to the east, and, owing to the topography, could not 
 be traced farther. 
 
 The thickness of the Pottsville, or depth to the Chester beds, along 
 the Makanda anticline is variable; the least distance to these beds would 
 be at the western end, the greatest at the eastern end, a condition due 
 entirely to the regional dip. In the stream valley near Makanda probably 
 less than 100 feet of Pottsville would have to be penetrated before reach- 
 ing the Chester limestone. On the surrounding hills the depth to the Ches- 
 ter would be greater according to the location chosen. In the stream valley 
 which crosses the high area at the eastern end of the anticline close to 
 600 feet of the Pottsville formation would have to be penetrated before 
 the Chester limestone would be reached. Between these two areas the 
 thickness of the Pottsville would vary proportionately. 
 
 CEDAR CREEK DOME 
 
 The Cedar Creek dome occupies approximately the center of the 
 square formed by lines drawn between the towns of Pomona and Etherton 
 on the west, and Makanda and Boskydell on the east. The dome lies 
 principally within sees. 11, 12, 13, 14, 23, 24, 25, and 26, T. 10 S., R. 
 2 W. (See Plates V and VI.) 
 
 The Cedar Creek dome is an irregular structure and is elongate in a 
 north-south direction. The creek apparently has cut the dome along the 
 
50 OIL INVESTIGATIONS 
 
 axis. The topography is very rough, sandstone cliffs rising above the 
 creek on both sides to a height of over 100 feet. The creek bends west 
 just a little south of the high point at the northern end of the dome. In 
 pre-glacial time this bend of Cedar Creek was about one-fourth mile north 
 of the present bend. The road which runs west to the south center of 
 section 11 approximately follows the pre-glacial channel of the stream. 
 The drift deposited by the glacier, which is thick in the central and north- 
 ern half of section 12, dammed the stream and caused it to cut a new 
 channel westward in the southwest corner of section 12. The branch 
 which flows from the south through sections 14 and 13 has a fall of about 
 50 feet where it empties into Cedar Creek and the topographic expression 
 along its course is in marked contrast to that of the older and larger stream. 
 A shallow syncline is present in the northeastern corner of the dome ex- 
 tending from the NE. %. section 13 to the south center section 12. The 
 high, cliff-surrounded ridge separating Cedar Creek proper and the eastern 
 branch, which bends in through section 12, outlines the synclinal structure. 
 It is clear that the courses of the pre-glacial parts of the stream system in 
 the immediate area followed the high parts of the structure. A small shal- 
 low synclinal trough is also present on the west side of the dome in sec- 
 tion 14. 
 
 Probably the maximum dip of any side of the dome is about 3 degrees, 
 although locally there may be a few places where this figure is exceeded. 
 The average dip of the steepest part of the structure will not exceed 2 
 degrees. The height of the dome, therefore, probably does not exceed 100 
 feet at any point, and in some parts it is much less than 100 feet. 
 
 The shallow syncline in sections 12 and 13 is of such minor proportions 
 that it would probably have but small influence upon the larger and general 
 relations of the structure. The small syncline in section 14 should be 
 avoided in the initial prospecting of the dome. 
 
 COBDEN TERRACE 
 
 The Cobden terrace, shown on Plates V and VI, is an irregular struc- 
 ture which lies about three miles east of Cobden. Only reconnaissance 
 work was done on the area, no levels having been run on any horizon, 
 and, therefore, the writer wishes only to call attention to the area as a 
 possible structure which may possess some attractive features. 
 
 At least a partially developed terrace lies within the escarpment hills 
 the western boundary of which is the ridge running northeast through sees. 
 29, 20, 19, and 18, T. 11 S., R. 1 E. The southern boundary follows 
 approximately the county road from the SW. corner sec. 27, T. 11 S., R. 
 1 W., to Pleasant Hill School, west center sec. 29, T. 11 S., R. 1. E. 
 The northern boundary is about at the divide in the north center sec. 
 13, T. 11 S., R. 1 W. Part of the evidence used in determining this struc- 
 
ILLINOIS STATE GEOLOGICAL SURVEY 
 
 S 
 
 Feet 
 
 400 -E 
 
 ss 
 
 300 
 200": 
 
 B 
 
WILLIAMSON, UNION, AND JACKSON COUNTIES 
 
 ture is based upon the approximate elevations on the Pottsville-Chester 
 contact which is an unconformable one. However, throughout the region 
 the thickness of the upper formation of the Chester, the Clore, did not 
 show a variation of over 30 feet, a characteristic that shows that the un- 
 conformity, at least for this area, is not very pronounced. 
 
 The most pronounced dips are shown in the Palestine formation in 
 sees. 27 and SW. Y^ sec. 23, where the sandstone forms an escarpment. Dips 
 as high as 8 degrees are displayed in places, although the average is close 
 to 3 degrees. The prevailing direction of dip is west and a little north of 
 west. 
 
 To the north of the terrace the strata dip gently to the north and east 
 of north ; on the east, the beds dip gently to the east and northeast. 
 
 Attention is called to the following minor irregularities more for their 
 physical features than for their possible value as oil structures. Should 
 the sand formations underlying the more pronounced structures of the 
 region prove to be oil bearing, further and more detailed consideration 
 should then be given to the minor structures. 
 
 In T. 11 S., R. 1 E., is a very small fold which starts approximately at 
 the center of section 14, curves slightly northwest, then west to the center 
 of section 15, and then curves northwest to the SE. ^4 section 9. 
 
 In the south center of sec. 4, east half sec. 8, and NW. half sec. 9, 
 T. 11 S., R. 1 W., is a low, partial doming of the rocks. To the south 
 and east the structure is indefinite. 
 
 A somewhat similar, irregularly shaped, low, partial doming is to be 
 seen in the south half of sec. 33, T. 10 S., R. 1 W. 
 
 In T. 9.S., R. 2 W., a small terrace extends from the center of section 
 16 west to the center of section 17, thence northwest to the section line. 
 
 faults 
 
 The faults which were found in this area are too far removed from 
 the structures described to have any effect upon the possible accumulation of 
 oil in these particular structures. The usual effect of faulting is to lessen 
 the probability of oil accumulation. Where the strata have been broken 
 there are avenues of escape for the hydrocarbons. However, in some 
 localities faulting has produced the opposite effect. The fault planes may 
 be sealed by the shearing and by the metamorphism resulting from the 
 movement thereby causing a ponding of the oil on the down-dip side of 
 the fault. 
 
 No faulting was found which might affect accumulation in cither the 
 Makanda anticline or the Cedar Creek dome. A small fault is thought to 
 be present at the extreme southwest corner of the Cobden terrace. Its 
 influence, however, is considered negligible. 
 
 The large fault in the southwestern part of the area is of regional 
 importance. Its location on the map is only approximate, the intention 
 
52 
 
 OIL INVESTIGATIONS 
 
 being simply to show the general relations of the structure. The rocks 
 on the south side of the fault belong to very much older formations than 
 those on the north side. In the former are represented Devonian and 
 lower Mississippian ; in the latter Chester and Pennsylvanian. 
 
 The smaller faults which were encountered in the reconnaissance of 
 the ■ area are recorded on the map, but no effort was made to trace them 
 for any distance. Their displacements are thought to be small in all cases. 
 
 UNCONFORMITIES AND THEIR SIGNIFICANCE 
 
 Unconformities exist between most of the formations found in this 
 area. However, the only important one is recorded between the Chester 
 group and the Pottsville formation of the Pennsylvanian series. No great 
 
 Fig. 11. — Unconformity between the Chester and Pottsville formations two miles 
 south of Pomona. 
 
 amount of erosion and probably no folding took place at the breaks recorded 
 between the various Chester formations. Therefore these formations should 
 be uniformly regular in their thicknesses and the strata of each formation 
 practically parallel with the underlying or overlying strata. 
 
 The break between the Chester and Pottsville was marked by both 
 erosion and folding. The amount of erosion has been considerable 
 in many places. In the area described in this report the erosion of the upper 
 Chester formation, the Clore, was relatively slight, a variation in thickness 
 of only 30 or 40 feet being recorded. This estimate has been gathered 
 both from outcrops of the Clore and from the few drill records available in 
 the area. 
 
WILLIAMSON, UNION, AND JACKSON COUNTIES 
 
 Striking discordances of dip were found in only two places in the area 
 described in this report. Near the center of sec. 33, T. 10 S., R. 2 W., 
 along the Mobile and Ohio tracks, a small fault, producing steeply dipping 
 beds is recorded in the Clore formation. Overlying the Clore the basal 
 beds of the Pottsville are undisturbed (fig. 11). The second discordance 
 is shown in the dips of the Palestine and Pottsville sandstones at the 
 southwest corner of the Cobden terrace, in the NE. % sec. 27, T. 11 S., 
 R. 1 W. Both sandstones form escarpments which are close together. 
 The Palestine has a dip of 8 to 9 degrees westward and the overlying Potts- 
 ville has a dip of only 3 degrees. 
 
 The existence of this structural discordance between Chester and 
 Pottsville is emphasized so that caution should be exercised in drilling low 
 structures which are recorded in the Pennsylvanian rocks. Although only 
 minor differences in the attitude or lay of the rocks of the two series have 
 been shown to exist where geological data are available, there is the 
 possibility of such irregularities being present and offsetting the value of 
 later folding in the higher rocks. In pronounced structures such as are 
 found in Johnson and Pope counties the slight structure of the Chester 
 may be considered negligible, but in low structures such as are described 
 in this report, the influence which may be exerted by pre-Pennsylvanian 
 structure should be given due consideration. 
 
 Recommendations for Drilling 
 
 The Survey does not pretend to predict the presence of commercial 
 oil and gas in this region. Furthermore, the structure is extremely mild 
 as compared with that farther east in Williamson and Saline counties. 
 
 If oil should be developed in either the New Burnside or the Mc- 
 Cormick anticlines, described in the second part of this bulletin, the struc- 
 tures mentioned herein, would be worthy of conservative exploration. 
 
 The beds to be penetrated in this area are part of the Pottsville forma- 
 tion and the Chester formations. The lower limit should be the oolitic 
 beds of the Ste. Genevieve. 
 
 On the Makanda anticline near the west end, should drilling be done 
 in the stream valley which crosses the anticline, probably not more than 
 100 feet of Pottsville would be encountered. The approximate depths of 
 the Chester horizons below this are shown on the graphic section ( Plate 
 IV). At any point on the surrounding hills the depths would be increased 
 according to increase of the topographic elevation. East of Makanda on 
 the anticline the thickness of the Pottsville which must be penetrated by 
 the drill increases proportionately until at the eastern end the depth to the 
 Chester limestone is about 600 feet. 
 
54 OIL INVESTIGATIONS 
 
 On the Cedar Creek dome drilling in the stream valley would encounter 
 probably not more than 100 feet of Pottsville. On the higher elevations the 
 depths would be proportionately greater. 
 
 On the Cobden terrace the minimum depth of drilling in the entire 
 area would penetrate all the possible Chester oil horizons. Depths of from 
 700 to 950 feet, according to the location chosen, would reach the oolitic 
 Ste. Genevieve beds. 
 
 The Chester formations probably vary in thickness and character in 
 different parts of the area. The graphic section (PL IV) is given merely 
 as a guide. Although the Hardinsburg sandstone and the Golconda lime- 
 stone were not recognized in the southern part of the area where they 
 should outcrop, they may be encountered by the drill farther north. Their 
 thicknesses, however, should not be very great. 
 
 Any sandstone that is continuous in its distribution toward the region 
 from where the oil is supposed to have migrated — in this case the central 
 Illinois basin — and that is not too closely cemented, can be regarded as a 
 possible oil horizon. The Chester formations thin northward, some pinch- 
 ing out probably before the central Illinois basin, which lies approximately 
 in the vicinity of southern Wayne County, is reached. Since it is impos- 
 sible to determine which one of the Chester sandstones may be thus affected, 
 all the sandstone horizons which underlie the area described herein may,, 
 for the present, be regarded as possible oil sands. There are four produc- 
 ing Chester sands in the Lawrence-Crawford County oil field and as many 
 may be present in this region. Where the Pottsville has sufficient thick- 
 ness, oil may also be found at favorable positions within the formation. 
 
 Since the structures described are low and the dips small, test wells 
 should be located with great care. The highest parts of the Makanda anti- 
 cline should be tested first. If this be done and the rocks found to be dry, 
 or to contain a little gas, the drill should be moved a little lower down the 
 dip of the limbs or pitch of the anticline until either oil or salt water is 
 encountered in the various sand horizons. 
 
 On the Cedar Creek dome the highest part should be the first chosen. 
 This is approximately along the course of Cedar Creek except in a small 
 area in the SW. %. section 12, where the course of the pre-glacial stream 
 probably follows the higher part. Similar methods to those described 
 above should be used to locate the upper and lower limits of the possible 
 oil pool. 
 
 On the Cobden terrace, because of its irregularities, more detailed 
 work should be clone before a location is selected for a test well. 
 
 Localities Already Tested 
 
 A drill hole was put down near the center of section 16, T. 10 S... 
 R. 1 W., 2y 2 miles north of Makanda, to a depth of 390 feet. The for- 
 
WILLIAMSON, UNION, AND JACKSON COUNTIES 
 
 mations penetrated were the Pottsville, composed of sandstone and sandy 
 shale to a depth of 305 feet, and the Gore limestone, the drilling having 
 been discontinued after going 85 feet into this formation. 
 
 A test well for oil was drilled in the extreme NE. cor. sec. 16, T. 11 
 S., R. 1 W., about 3 miles northeast of Cobden, to a depth of 1,240 feet. 
 The location was practically at the base of the Pottsville, so the beds 
 penetrated were Chester and lower. From the log of the well it is probable 
 that the drill passed through the St. Louis cherty formation and stopped 
 in the Salem limestone. The expected succession of Chester was encoun- 
 tered, several sand horizons having been present. According to the record 
 salt water was struck at 970 feet and probably came from the Ste. Genevieve. 
 Salt water was also encountered at 1,240 feet, the bottom of the hole. At 
 the present time an excellent flow of fresh water conies from the drive 
 pipe. The hole was, unfortunately, located in a pronounced syncline. The 
 test is, therefore, of no value whatever and should not discourage well- 
 directed efforts where favorable structure exists. 
 
 A drill hole north of Carbondale is of value only in showing the thick- 
 nesses of the formations penetrated. The Carbondale formation was 257 
 feet thick, the Pottsville 676 feet, the Clore 79 feet, and the Palestine about 
 70 feet. The hole, which was 1,379 feet in depth ended in the Menard 
 formation, having passed through about 146 feet of it. 
 
OIL POSSIBILITIES OF AVA AREA 
 
 By Stuart St. Glair 
 
 OUTLINE 
 
 PAGE 
 
 Introduction 57 
 
 Area treated in report 57 
 
 Character and object of investigations 57 
 
 Topography 58 
 
 Stratigraphy 58 
 
 General relationships 58 
 
 Carbondale formation 58 
 
 Pottsville formation 58 
 
 Chester group 59 
 
 Ste. Genevieve and St. Louis formations 59 
 
 Oil and gas 59 
 
 Accumulation of oil and gas 59 
 
 Structure 60 
 
 General relationships 60 
 
 Sugar Hill dome 60 
 
 Campbell Hill anticline 61 
 
 Record of drilling 63 
 
 Recommendations for drilling 64 
 
 ILLUSTRATIONS 
 
 PLATE 
 
 VII. Map of Ava area showing geologic structure 60 
 
 FIGURE 
 
 12. Cross-section of Campbell Hill anticline 62 
 
 INTRODUCTION 
 
 Area Treated in Report 
 The area covered by this report lies in the extreme northwestern 
 corner of Jackson County. The principal town is Ava which is on the 
 Mobile and Ohio Railroad. Campbell Hill, four miles to the northwest 
 of Ava, is also located on the same railroad. 
 
 Character and Object of Investigations 
 
 The area was very superficially examined by the writer during the 
 early part of August, 1916. Several days were spent in the vicinity of Ava, 
 but only two days were actually put upon, the structure described in this 
 report. The work was prompted by numerous requests from residents 
 of the district and also by the discovery of some oil and gas. 
 
 (57) 
 
58 OIL INVESTIGATIONS 
 
 The Sugar Hill dome shown on Plate VII was mapped by E. W. 
 Shaw of the United States Geological Survey in cooperation with the 
 State Geological Survey. The result of that work appeared in the folio 
 report on the Murphysboro quadrangle. The object of the writer's work 
 was to determine whether or not the structure continued westward, and 
 approximately how far. 
 
 One producing gas well is in the south center of sec. 11, T. 7 S., R. 4 
 W., on the Froemling farm. The well has been capped, and the gas is 
 used for domestic purposes by the owner of the property. Records of 
 other wells are given under a subsequent heading. 
 
 TOPOGRAPHY 
 The topography of the area is somewhat varied. Where the heavy 
 sandstones of the Pottsville outcrop, the surface is hilly and rough. In 
 the western part, the Chester limestones have had a modifying influence, 
 the erosion of the surface having produced more rounded hills and gentle 
 slopes. The northern part is underlain by the soft shales of the Carbon- 
 dale formation, and the surface is gently rolling. Glacial drift and loess 
 have modified the characteristic surface features in many places. 
 
 STRATIGRAPHY 
 General Relationships 
 The rocks which outcrop in the area belong to three formations only, 
 the Carbondale and Pottsville of the Pennsylvanian series, and the upper 
 Chester limestone, probably the Clore formation, of the Mississippian series. 
 Other formations of the Chester underlie the area and are encountered in 
 drilling. All the possible oil sands probably lie within the Chester group. 
 
 Carbondale Formation 
 The Carbondale formation is composed chiefly of shale, with some 
 sandstone and limestone. The base is the bottom of coal No. 2 or Murphys- 
 boro coal. Locally the Vergennes sandstone member is prominently devel- 
 oped and is in the lower part of the formation. In the upper part are the 
 horizons of coals No. 5 and No. 6, the top of the latter marking the top 
 of the formation. The limestone beds occur principally in the upper part, 
 there being a good exposure a little north of Campbell Hill village. The 
 Carbondale is found only in the eastern part of the area, in the vicinity of 
 Sato and in the hills to the west ; in the hills in the neighborhood of Ava ; 
 and north of the fault which apparently parallels the anticline for at least 
 part of its length. 
 
 POTTSVTLLE FORMATION 
 
 The Pottsville formation is composed chiefly of sandstone and sandy 
 shale. The top is defined by the base of coal No. 2 and the base by the 
 
AVA AREA 59 
 
 Chester limestone. The Pottsville lies unconformably upon the Chester, 
 and its thickness, therefore, is variable. Drill holes and additional com- 
 putations show an average of about 400 feet in the Campbell Hill area. 
 However, the log of one drill hole which started practically at the top of 
 the Pottsville showed a thickness of 460 feet of sand and shale to the first 
 limestone. The Pottsville formation outcrops over the greater part of the 
 area described and is the surface rock on the anticline. 
 
 Chester Group 
 
 The Chester is made up of a group of formations which comprise 
 limestones, shales, sandstones, and sandy, cherty, and shaly limestones. 
 Some of the limestones are oolitic and may contain oil and gas. The Chester 
 sandstones are, however, the beds in which oil and gas are more likely to be 
 found. 
 
 On account of the unconformity at the top of the Chester, and also 
 minor irregularities, as well as variable formational thicknesses, the total 
 thickness of the Chester group may vary considerably in short distances. 
 From measurements made in Randolph County by Professor Weller, the 
 maximum thickness is about 635 feet. If drill records in the vicinity of Ava 
 have been correctly recorded, the Chester attains a thickness of at least 
 1,000 feet for this district. The Chester limestone outcrops only in the 
 western part of the area shown on Plate VII. 
 
 Ste. Genevieve and St. Louis Formations 
 
 Underlying the Chester are the Ste. Genevieve and St. Louis lime- 
 stones. The former, if it contains its characteristic oolitic beds, may be 
 an important oil formation. The St. Louis, which is a hard, cherty lime- 
 stone, should mark the lower limit of prospecting in this area. 
 
 OIL AND GAS 
 Accumulation of Oil and Gas 
 
 In regions where certain rock formations are petroliferous, the con- 
 tained oil and gas move through various agencies along porous strata and 
 become trapped and form pools where structural conditions are favorable. 
 The anticline and dome are recognized structures where, other conditions 
 being favorable, oil and gas accumulate. Sealed faults have also acted as 
 barriers to the movement of oil and gas, and have caused ponding on the 
 down-dip side. 
 
 The effect of the fault on the north side of the structure can not be 
 foretold. If the movement and shearing effect have sealed the fault plane, 
 any oil or gas moving up the dip of the strata from the north and north- 
 east would become impounded and would, therefore, not reach the anticline 
 
60 OIL INVESTIGATIONS 
 
 from that side. All oil and gas that collected in the anticline would have 
 to come from the east and southeast sides. 
 
 If the fault plane has not been sealed by the movement of the rocks, 
 then all the oil and gas coming from the area to the north and northeast has 
 either seeped out through the fault plane and been lost, or part or all the oil 
 and gas have moved upward along the fault plane until other porous strata 
 have been encountered and then traveled onward up the dipping beds and 
 subsequently collected in the anticlines, providing the reservoir has an 
 impervious cover and the water stands sufficiently high in the oil-bearing 
 strata. (See figure 5 of the second paper in this bulletin.) Both oil and 
 gas have been found on the anticline so there has been some accumulation, 
 but from which direction it is impossible to state. 
 
 Structure 
 general relationships 
 
 The Campbell Hill anticline is probably a southwestern extension of 
 the Duquoin anticline, a structure that has been traced from the Sandoval oil 
 field south through Centralia to Duquoin. The geologic map of the Mur- 
 physboro quadrangle shows a northeastward-plunging anticline which con- 
 tinues southeast and west to the Sugar Hill area. The same structure con- 
 tinues westward and joins what is described as the Campbell Hill anticline 
 in this report. 
 
 The fault shown on Plate VII is taken from the Murphysboro geologic 
 map. The vertical displacement was reported to be between 100 and 200 
 feet. The fault evidently bends with the anticline in its westward extension 
 and probably passes close to the village of Campbell Hill, for a coal bed 
 with accompanying limestone, which was thought to be coal No. 5 in the 
 upper part of the Carbondale formation, outcrops just north of the village. 
 The fault appears to conform with the basic structure of the region and, 
 therefore, probably dies out to the southwest. 
 
 SUGAR HILL DOME 
 
 Sugar Hill dome has already been shown on the geologic map of the 
 Murphysboro quadrangle. It lies in parts of sees. 4, 5, 8, and 9, T. 7 S., 
 R. 3 W. To the east the anticlinal structure pitches steeply; to the west 
 there is a low saddle which connects the dome with the Campbell Hill 
 anticline. 
 
 The writer made no further study of the Sugar Hill dome. Structure 
 contours drawn by E. W. Shaw show the rock strata on the top of the 
 dome to be stratigraphically from 25 to 75 feet below the top of the Potts- 
 ville formation. In a well drilled to a depth of 1,315 feet near the top 
 of the dome in section 9, one salt sand 65 feet thick was reported at a depth 
 of 665. The log of this well can not be correlated with the logs of the 
 
ILLIK 
 
 LETIN NO. 35, PLATE VII 
 
 EGEND 
 
 ■» «■■ ■■■ — ■■■ County line 
 
 » —— ..,{.. i , i Township line 
 
 « — ' » i i ■ Railroad 
 
 (g) Town location 
 
 
 
 
 
 
 
 545 
 
 Elevation at town 
 
 * 
 
 Abandoned oil well 
 Gas well 
 Show of gas 
 Dry hole 
 
 The arrows and accompanying fig- 
 ures show the direction and 
 amount of dip. 
 
 
 T.8 
 
 
 
 .-■Lfr 
 
 
 bL, 
 
 e 
 

 i .8 t.T 
 
 wa.fl 
 
 ■:■,.■-■ 
 
 s 
 
 

 AVA AREA 61 
 
 wells three miles to the west which record oil and gas at several horizons. 
 Several conditions may exist, any one of which might explain the failure 
 of the well located on the dome and the apparent discordance in the well 
 records. The Sugar Hill well may be too high on the dome to have 
 tapped the oil pool which would rest upon the surface of the salt water in 
 the various oil formations. One salt water sand should not condemn fur- 
 ther well-directed attempts to prospect other possible oil sands. Again, the 
 possible oil sands may be lenticular, and those encountered in one well may 
 not appear in other wells within a reasonable radius ; or there may be some 
 structural condition unknown at the present time which affects the dome and 
 not the anticline to the west. 
 
 The writer is unable to make further comment upon the Sugar Hill 
 dome, for, combined with a lack of detailed field facts, the paucity of drill 
 records for the district forbids theoretical deductions regarding the char- 
 acter of the Chester sands and the possible height of any oil in the structure. 
 
 CAMPBELL HILL ANTICLINE 
 
 The Campbell Hill anticline extends from Fork Creek, SE. cor. sec. 
 6, T. 7 S., R. 3 W., westward to the southwest corner of the section, thence 
 southwestward to sec. 30, T. 7 S., R. 4 W., where the structure begins to 
 flatten perceptibly. The total length is between seven and eight miles. The 
 general structure of the anticline is a gentle pitch to the northeast, conform- 
 ing thereby with the regional dip of the strata, and gently dipping limbs, the 
 northern limb having the steeper dip. Low, elongate doming on the anticline 
 is strongly suggested by the topography and a little less so by the dip of the 
 strata. However, the surficial covering of drift and loess prevented obser- 
 vations on rock strata on top of the anticline. The saddle between the 
 Campbell Hill anticline and the Sugar Hill dome is clearly shown on the 
 Murphysboro geologic map. The saddle near the southwestern end of the 
 anticline which would mark the western extension of the elongate dome 
 area is probably in the vicinity of the NW. cor. sec. 29, T. 7 S., R. 4 W. 
 From the east side of sec. 30, T. 7 S., R 4 W., the anticline gradually flattens 
 to the southwest. The reconnaissance was not carried beyond the south- 
 west corner of section 30. 
 
 The oldest rocks exposed on the anticline as far as mapped are Potts- 
 ville in age. In sec. 11, T. 7 S., R. 4 W., the surface is between 30 and 
 50 feet from the top of the formation; in section 20, between 100 and 150 
 feet ; and in section 30, where the dips are flattening, probably close to 200 
 feet from the top. This relation shows in general a slight pitch to the axis 
 of the anticline. 
 
 Both oil and gas have been struck on the Campbell Hill anticline, and 
 one gas well is producing at the present time. Drill records show oil in 
 two holes. Probably the greatest width of the anticline is about two miles. 
 
OIL INVESTIGATIONS 
 
 <x> o o 
 o o o 
 u. r>- <o 
 
 jLinvd 
 
 0UI|0j)U6 
 
 jo spcv 
 
 eunouXs jo s|xy 
 
 <D O O 
 
 O o o 
 
 IL N <0 
 
AVA AREA 63 
 
 The south side has the gentler dip, the average being about 2 degrees. The 
 average dip of the north limb is probably close to 3 degrees. A cross- 
 section of the anticline is shown in figure 12. 
 
 Record of Drilling 
 
 A number of wells have been drilled in the area, the locations of some 
 having been well chosen for an oil test. The three Froemling wells, located 
 in the SE. 34 sec. 11, T. 7 S., R. 4 W., are close to the top of the Campbell 
 Hill anticline. The results of these tests were encouraging according to 
 reports given the writer. In the first well, at a depth of a little less than 600 
 feet, both oil and gas were struck. Drilling was continued and another oil 
 show was encountered at a little more than 800 feet. The hole was plugged 
 after being drilled to a depth of 1,173 feet. The other two Froemling wells 
 went only to the sand which is about 600 feet deep. Gas was struck in both. 
 One of the holes was plugged, but the other was capped and the gas piped 
 to the house of the owner of the farm. A well completed January, 1917, 
 in the east-central part of section 11 and 300 feet from the Froemling wells, 
 found only a light showing of oil and gas in the top of the sand at 551 feet, 
 below which salt water filled the sand to 601 feet where drilling was stopped. 
 
 Another well on the same structure was drilled in the SW. ^4 sec. 12, 
 T. 7 S., R. 4 W. This location is about one-fourth mile from the axis of the 
 anticline on the south limb. The log of the well shows that the Chester 
 limestone was struck about 100 feet lower than the elevation of this bed in 
 the Froemling wells. A dry sand, which is said to have had an oil smell, 
 was penetrated between 600 to 620 feet, or from 140 to 160 feet below the 
 top of the Chester limestone. The hole was abandoned at a depth of 660 
 feet. If the log is correct the gas-sand horizon of the Froemling wells was 
 not reached. This well should not be considered a negative test. 
 
 The Vogt well, in the NW. ]/ 4 sec. 22, T. 7 S., R. 4 W., is on the south 
 limb of the anticline and about half a mile from the axis. The depth is 
 926 feet, and it is reported that considerable oil was bailed from the well. 
 The oil sand in this well is probably the same as the Froemling 600-foot 
 sand. 
 
 A well was drilled to a depth of 1,315 feet in the NW. *4 sec. 9, T. 7 S., 
 R. 3 W., and near the top of the Sugar Hill dome. The log of this well 
 differs materially from the log of the deep Froemling well. No oil or gas 
 was reported, although a number of sands were encountered. Only one 
 salt sand is recorded, and it was 65 feet thick, from 665 to 730 feet in depth. 
 
 Unsuccessful tests were made in the NW. J /± sec. 18, T. 7 S., R. 3 W., 
 and in the NW. Y A sec. 24, T. 7 S., R. 4 W. Both locations, however, were 
 in a syncline. 
 
64 OIL INVESTIGATIONS 
 
 A well in which a little oil and gas were said to have been struck was 
 drilled about half a mile south of Ava. Reference to the geologic map of 
 the Murphysboro quadrangle shows a small terrace structure at this point 
 which develops into an anticlinal saddle a little farther to the northeast. 
 
 South of the area described in this report a 1,250-foot well was put 
 down in the SE. *4 sec. 19, T. 8 S., R. 3 W. Several sands were struck, 
 but no oil or gas was present. 
 
 Recommendations for Drilling 
 
 The sands underlying the Campbell Hill area which may be oil bearing 
 are in the Chester group or the Ste. Genevieve formation. The sandstones 
 and sandy limestone are irregular in thickness and character, and their depths 
 below the base of the Pottsville may vary from place to place. The records 
 of the three Froemling wells show that there is an oil and gas sand at a 
 depth of about 200 feet below the base of the Pottsville. Probably the 
 same sand horizon is said to have yielded oil in the Vogt well. Another sand 
 which had an oil showing was about 440 feet below the base of the Potts- 
 ville in Froemling No. 1 well. Other wells in the vicinity passed through 
 several sand horizons which under favorable structural conditions could 
 be an oil reservoir. 
 
 On account of the probable variability in thicknesses of the Chester 
 formations, one should hesitate to state the maximum depth to which drill- 
 ing should be carried in order to prospect the area thoroughly. However, 
 the Ste. Genevieve oolitic beds would probably be reached at a depth of 1,000 
 or 1,100 feet below the base of the Pottsville. The Ste. Genevieve underlies 
 the interbedded sandstones, shales, and limestones of the Chester. 
 
 On account of the thinness of the Pottsville rocks in the area there is 
 very little chance of obtaining oil from the basal beds which produce in 
 other parts of the State. 
 
 In an untested area the higher parts of anticlines and domes should 
 be tested first. Should the sands passed through be dry or gas bearing the 
 next hole should be on the limb of the structure and on the one having the 
 more gentle dip. 
 
 The higher part of the Campbell Hill anticline has been tested by the 
 Froemling wells, and gas-bearing and oil-showing sands have been encoun- 
 tered. Therefore, further prospecting should be done farther down the dip 
 and preferably on the southeast limb of the structure. If the reports con- 
 cerning the showing of oil in the Vogt well be correct, the chances of strik- 
 ing oil for some distance down the dip from the axis are favorable as far 
 as can be judged from the present meager data on the area. 
 
AVA AREA 65 
 
 The well on Sugar Hill dome should not be regarded a final test. Any 
 other holes put down should be located a little farther down the dip of the 
 structure. 
 
 The anticlinal saddle and terrace which extends southwest from Sugar 
 Hill to a point half a mile south of Ava, is shown on Plate VII. It is 
 taken from the Murphysboro geologic map. Drilling should not be done 
 on this structure until oil has been definitely shown to exist in the rocks of 
 the Campbell Hill anticline and at as low a structural elevation as the Ava 
 saddle. 
 
OIL POSSIBILITIES OF GENTRALIA AREA 
 
 By Stuart St. Glair 
 
 OUTLINE 
 
 PAGE 
 
 Introduction , 67 
 
 Area treated in report 67 
 
 Character of the work 67 
 
 Stratigraphy 68 
 
 Oil and gas 68 
 
 Accumulation of oil and gas 68 
 
 Structure and recommendations 69 
 
 Use of structure contours 69 
 
 Faults 69 
 
 Area east of Centralia 70 
 
 Area east of Central City 70 
 
 Junction City dome 70 
 
 Sandoval dome 71 
 
 Shattuc terrace 72 
 
 Hoffman anticline 73 
 
 ILLUSTRATION 
 
 PLATE 
 
 VIII Map showing geologic structure in the Centralia area 70 
 
 INTRODUCTION 
 
 Area Treated in Report 
 
 The area treated in this report lies in the southwest corner of Marion 
 County and southeast corner of Clinton County. The principal city is 
 Centralia, although both Carlyle and Sandoval are important towns since 
 both are oil-producing centers. With the Sandoval oil field in the northern 
 part of the area and the Carlyle field 1 just to the west, and more or less 
 activity northeast and east of Centralia, the latent possibilities of the district 
 are of interest to the oil man. 
 
 Character of the Work 
 
 Since the area is drift covered, outcrops of the rock formations are 
 few. As a result, the field work for this report consisted largely in securing 
 logs, locations, and approximate surface elevations of the drill holes. 
 
 1 Shaw, E. W., The Carlyle oil field and the surrounding territory: Til. State Gtol. 
 Survey Bull. 20, p. 43, 1916. 
 
 (67) 
 
68 OIL INVESTIGATIONS 
 
 The accuracy of the resulting work is dependent largely upon two 
 factors, the accuracy of the well logs and the number and location of drill 
 holes. In general the correctness of the well logs must be accepted, unless 
 there is an obvious inaccuracy, and the structure is drawn to a large extent 
 upon such data. The paucity of drill holes in the Clinton County part of 
 this area allows considerable chance for errors of interpretation of the 
 structural conditions. Without doubt further drilling will supply facts 
 which will probably necessitate small changes in the positions of the struc- 
 ture contours shown on Plate VIII. 
 
 Topographic maps of the Centralia and Carlyle quadrangles, which are 
 published by the United States Geological Survey and the Illinois State 
 Geological Survey in cooperation, were used in the field work. 
 
 STRATIGRAPHY 
 
 The surficial deposit of the area covered by this report is glacial drift, 
 the thickness of which varies from place to place, the maximum thickness 
 as far as known being about 150 feet. Along the streams, which have cut 
 deeply into the drift, ledges of the youngest rock formation are exposed. 
 All such outcrops are shale, sandstone, and limestone beds which belong 
 to the McLeansboro formation. The thickness of the McLeansboro which 
 will be encountered varies with the location and the topographic elevation. 
 Since the structure contours are based on the top of coal No. 6, which 
 horizon would correspond to the bottom of the McLeansboro, the thickness 
 may be easily computed. 
 
 Underlying the McLeansboro is the Carbondale formation which is 
 quite similar to the former in its makeup. The top of the Carbondale is 
 marked by the top of coal No. 6. In many parts of the State the base of 
 the formation is marked by coal No. 2, but in the Centralia area logs of 
 drill holes rarely record this bed. The shallow sands of the Junction City 
 area occur in the upper part of the Carbondale. 
 
 The Pottsville formation which is composed of heavy and thin sand- 
 stone beds as well as shales, underlies the Carbondale. In this area the 
 Pottsville is usually reported as the salt-sand horizon. 
 
 Underlying the Pottsville are the interbedded limestone, sandstone, and 
 shale formations of the Chester group. The productive Stein and Benoist 
 sands of the Sandoval field, the Carlyle sand of the Carlyle field, and the 
 deep sands in the producing wells east of Centralia are in the Chester. 
 
 OIL AND GAS 
 Accumulation of Oil and Gas 
 
 Under favorable conditions of sand porosity and water saturation the 
 tendency of oil and gas to accumulate in anticlines and domes, and on 
 structural terraces has been shown in the development of the majority of 
 
CENTRALIA AREA 69 
 
 oil and gas fields. With this fact in mind, the finding of such structures is 
 a justifiable signal for the oil man to start to prospect that particular area. 
 In the Centralia area where oil is being produced in three districts, geologic 
 study has shown that the oil pools are related to definite structural features. 
 The possibility of oil accumulation on the down-dip side of a sealed 
 fault should also be mentioned. There is some evidence that such a con- 
 dition exists in the area east of Centralia. General conditions are diagram- 
 matically presented in figure 5 of the second paper in this bulletin. 
 
 Structure and Recommendations 
 use of structure contours 
 
 The structure of the area on Plate VIII is expressed by structure con- 
 tours showing the approximate elevation of coal No. 6 above sea level. 
 The practical use of the structure contours will be obvious with but a word 
 of explanation. The approximate depth of coal No. 6 is the difference 
 between the surface elevation, which can be determined from the topo- 
 graphic map of the area, and the structure contour elevation where the 
 latter is above sea level, or the sum of the elevation of the surface and 
 the structure contour elevation when the latter is minus or below sea level. 
 Where the interval between the possible oil sands and coal No. 6 is known, 
 the depth necessary to drill can easily be computed by simple addition. 
 
 FAULTS 
 
 The faults are, to some degree, theoretical, their positions and extents 
 being assumed to explain discordances in drill records. In the Marion Coal 
 Company's mine, NE. 34 sec. 31, T. 2 N., R. 1 E., the northeast-southwest 
 fault, the position of which is shown approximately on Plate VIII, has a 
 displacement of about 30 feet with the downthrow to the northwest. The 
 fault east of the abandoned shafts of the Centralia Coal Company, sec. 7, 
 T. 1 N., R. 1 E., has a downthrow on the west side of about 110 feet. This 
 fault probably connects with the smaller fault to the north. The south- 
 ward extension of the fault can not be traced, but its approximate position 
 may be determined from the relations shown by drill records. 
 
 It was necessary to assume the fault from sec. 6 to sec. 36, T. 1 N., 
 R. 1 E., in order to show relations which the drill had recorded; its position 
 is therefore only approximate. The downthrow is on the northeast side. 
 Where similar contours connect, the fault dies out, and is replaced by a 
 plunging anticline. 
 
 The Junction City dome is partly surrounded by faults. The small 
 northeast-southwest fault has had some effect upon the accumulated oil 
 in the dome, for oil has been seeping into the mine of the Marion Coal Com- 
 pany for a number of years. 
 
70 OIL INVESTIGATIONS 
 
 AREA EAST OF CENTRALIA 
 
 One producing section lies east of Centralia. The Brown well, which 
 is in the north center of sec. 16, T. 1 N., R. 1 E., has been pumping for 
 a number of years. The oil sand is at a depth of about 1,650 feet, although 
 there are several salt water sands above. Several other wells in the vicinity 
 are said to have struck oil at the top of the sand, but the underlying salt 
 water could not be controlled and flooded the wells. 
 
 The only structural feature that could account for the accumulation 
 of oil in this section is the fault which is thought to lie just west of the 
 Brown well. If the fault plane should be sealed at this point, there would 
 be a small accumulation on the east side. If this sealed condition is present 
 in other sections along the fault, other small producing pools may be struck. 
 However, prospecting upon such assumptions can not be commended from 
 a geologic point of view. 
 
 A condition probably similar to the Brown occurrence exists near the 
 fault in the NW. cor. sec. 20, T. 1 N., R. 1 E., where a showing of oil was 
 claimed in the well of the Miller Oil Company. 
 
 AREA EAST OF CENTRAL CITY 
 
 The producing section in the area east of Central City is in the west 
 center of sec. 3, T. 1 N., R. 1 E. The two Kuester wells are pumping from 
 a deep sand. Other wells in the vicinity are said to have had a showing 
 of oil but were flooded by salt water. These wells are located on a plung- 
 ing anticline where there is probably a slight terrace structure. Further 
 drilling to the northwest for a distance not exceeding a half to three-quarters 
 of a mile may extend this pool. However, only very small producing wells 
 should be anticipated and the basis of risk should be calculated upon such 
 returns. Great care should be taken not to drill too far into the oil sand, 
 or the well will be flooded by the salt water which lies just below the thin 
 stratum of oil. 
 
 JUNCTION CITY DOME 
 
 The Junction City dome is outlined by 10-foot contours on Plate VIII. 
 Only a small area on the south flank of the dome has proved to be pro- 
 ductive up to the present time. This area is outlined on the map, and in 
 it are 10 pumping wells. The oil production is from shallow sands. The 
 dip of the beds is much less on the south than on the north side. The small 
 northeast-southwest fault is probably largely responsible for this relatively 
 steep dip on the north side. 
 
 The upper or Dykstra sand is from 5 to 20 feet below coal No. 6 
 and has an average thickness of less than 10 feet. In some wells the Dyk- 
 stra sand is apparently absent, a fact which shows its lenticular character. 
 A show of oil is reported in most wells where this sand is present. The 
 
CEXTRALIA AREA 
 
 71 
 
 Sherman well, in the southern part of sec. 29, T. 2 N., R. 1 E., went only 
 to the Dykstra sand and resulted in the usual oil show. The well is appar- 
 ently on the top of the dome and should have gone deeper in order to 
 
 JD 
 
 
 
 ■ 
 
 
 
 
 s 
 
 
 -C4 |n 
 
 
 
 fr' 
 
 tures to the south.. _ 
 
 
 the producing 
 
70 
 
 OIL INVESTIGATIONS 
 
 AREA EAST OF CENTRALIA 
 
 One producing section lies east of Centralia. The Brown well, which 
 is in the north center of sec. 16, T. 1 N., R. 1 E., has been pumping for 
 a number of years. The oil sand is at a depth of about 1,650 feet, although 
 
 
 ^ yKva&w^* 
 
CENTRALIA AREA 71 
 
 Sherman well, in the southern part of sec. 29, T. 2 N., R. 1 E., went only 
 to the Dykstra sand and resulted in the usual oil show. The well is appar- 
 ently on the top of the dome and should have gone deeper in order to 
 properly test the degree of saturation of the oil-producing sands in the dome. 
 
 The main oil sand of the dome is the Wilson sand which is between 
 100 and 110 feet below coal No. 6. The thickness of the sand is quite vari- 
 able. In Fyke No. 1 well an intermediate sand which is about 15 feet 
 above the Wilson is the oil producer. It is not improbable that these two 
 sands may be the same with a shale parting in places. A lower sand which 
 contained oil was struck in Tilton No. 1 well at a depth of about 160 feet 
 below coal No. 6. The same sand was reported dry in Fyke No. 1 well. 
 
 As shown on the map the producing wells are within the 75-foot struc- 
 ture contour and above the small terrace which is shown on the south flank 
 of the dome. The field may be extended a little to the south but probably 
 not so far as the Overback well, in the SW. J /± section 32, which is within 
 the 70-foot contour, and which struck salt water in a sand about 150 feet 
 below coal No. 6. This sand may correspond to the Tilton. None of the 
 higher sands were reported, and they may pinch out south of the present 
 producing area. Since the Sherman well did not go below the Dykstra 
 sand, the height to which the oil may extend in the dome is not known. 
 Tests should be made to determine this level. What effect the small fault 
 has had upon oil accumulation on the north flank of the dome can not be 
 stated, for no tests have been made between the Sherman well at the top 
 of the dome and the McClelland well, SW. y A sec. 20, T. 2 N., R. 1 E., 
 which is at the base of the dome. 
 
 From a study of the drill records of the area, the shallow sands are 
 irregular in thickness and probably spotty in character. In view of such 
 facts, there is considerable uncertainty attached to prospecting. Accurate 
 records should be kept of all drilling. 
 
 Drilling should be extended to the deep sands which have been found 
 productive in both the Sandoval field and the sections east of Centralia 
 and Central City. The lowest of these sands would probably be not more 
 than 920 to 970 feet below coal No. 6. The nearness of the Junction City 
 dome to the Sandoval field and the similarity of the two structures, in the 
 fact that their structural elevations are nearly the same, are ample incentives 
 for deeper drilling. 
 
 SANDOVAL DOME 
 
 The Sandoval oil field has been described in the Illinois State Geolog- 
 ical Survey Bulletin 16, pages 130 to 146. The present producing area is 
 shown on Plate VIII. The structure contouring of the field was done more 
 for the purpose of showing the relation of the Sandoval dome to the struc- 
 tures to the southwest than to give additional information on the producing 
 
72 OIL INVESTIGATIONS 
 
 field, for its limits have already been outlined by the drill. The difference 
 in the general structure of the field is due to more accurate elevations avail- 
 able since the publication of the topographic map covering the area. As 
 these elevations were used in drawing up the structure to the southwest, 
 it was necessary to make a rough revision of the Sandoval structure. 
 
 The oil comes from two sands, the upper or Stein sand being found 
 between 800 and 860 feet below coal No. 6; the lower or Benoist sand, 
 between 900 and 970 feet below coal No. 6 or 100 to 140 feet below the 
 top of the Stein sand. An intermediate sand has been reported in some 
 drill holes, but so far as known it is not productive. However, it may 
 contain salt water with the underlying Benoist sand productive. 
 
 The Sandoval field has been producing steadily since the spring of 1909 
 with a decline less than the average for other Illinois fields. Initial pro- 
 duction of wells varies from 50 to 200 barrels per day. At the present 
 time there are nearly 125 wells with a total daily production of about 1,000 
 barrels. 
 
 There are still latent possibilities in the Sandoval structure. In all 
 probability the Chester group contains other sands lower than the Benoist. 
 There may be present, also, the oolitic beds of the Ste. Genevieve which 
 is the McClosky sand of the Lawrence-Crawford County field. These 
 horizons should be tested under the highest part of the Sandoval dome 
 in order to establish their productive or non-productive character. 
 
 SHATTUC TERRACE 
 
 The Shattuc terrace, which is named from the village on the north 
 side of the structure, occupies parts of sees. 9, 10, 14, 15, 16, 17, 20, 21, 
 22, 23, 27, 28, and 29, T. 2 N., R. 1 W. On the terrace the average depth 
 of coal No. 6, upon which the structure is drawn, is about 25 feet below 
 sea level. With the surface elevation known, the depth of the coal is easily 
 computed. The Stein and Benoist sands, which are productive in the 
 Sandoval field, will probably be found at a depth of about 840 to 870 feet 
 and 950 to 1,000 feet, respectively, below coal No. 6. The only well near 
 the terrace, the drill record of which is available, is in the NE. ^4 sec. 13, 
 T. 2 N., R. 1 W. A 60-foot sand, about 850 feet below coal No. 6 and 
 at the position where the Stein sand should be, had an oil show in the 
 upper part under which was salt water. A second sand 49 feet thick, which 
 would probably correspond to the Benoist sand, was struck at a depth of 
 about 985 feet below coal No. 6. A third sand, 40 feet thick, was reached 
 at a depth of about 1,045 feet below coal No. 6. 
 
 More than one well would be required to test the terrace, but with 
 present information the NE. % sec. 22, T. 2 N., R. 1 W. would be as 
 favorable as any that might be chosen for a first test. 
 
CENTRALIA AREA 73 
 
 HOFFMAN ANTICLINE 
 
 The Hoffman anticline is apparently a southwest extension of the gen- 
 eral anticlinal structure which includes the Sandoval dome and the Shattuc 
 terrace. The Hoffman anticline is well defined from its northern end, which 
 is in sees. 28 and 29, T. 2 N., R. 1 W. Beyond this point, toward Nash- 
 ville, the structure is less distinct, probably joining with the anticline which 
 extends southwest from Centralia. 
 
 The same sands, the thickness and positions of which have been de- 
 scribed under the subject "Shattuc terrace", in all probability underlie the 
 area covered by the Hoffman anticline. The drill hole in the SW. % sec. 
 12, T. 1 N., R. 2 W., which is apparently very close to the axis of the 
 anticline, went to a depth of about 825 feet below coal No. 6 but did not 
 reach the horizon of the Stein sand. The location was a good one to test 
 the structure and it is to be regretted that drilling was discontinued before 
 either of the possible oil horizons was reached. Further tests on the anti- 
 cline should be made on the higher parts first. 
 
PARTS OF HARDIN, POPE, AND 
 SALINE COUNTIES 
 
 By Charles Butts 
 Of the U. S. Geological Survey in cooperation with the State Geological Survey 
 
 OUTLINE 
 
 PAGE 
 
 Geology 75 
 
 Stratigraphy 75 
 
 Structure , 76 
 
 Possible oil-bearing strata 77 
 
 ILLUSTRATION 
 
 PLATE 
 
 IX Map showing geologic structure in parts of Hardin, Pope, and Saline 
 
 counties 76 
 
 GEOLOGY 
 Stratigraphy 
 
 The rocks of the area under discussion are of Devonian and Mississip- 
 pian ages. In the center of the Hicks dome (PL IX), occupying the high 
 ground about a square mile in extent, is a gray limestone yielding abundant 
 surface chert. This chert incloses such characteristic Onondaga ("Cornif- 
 erous") limestone fossils as Amphigenia curta, Nucleocrinus (Verneuilli) ? 
 Spirifer divaricata, Spirifer varicosus, an Eatonia, and other species repre- 
 sented by poorly preserved specimens. This limestone has been regarded 
 as "Tullahoma" [Fort Payne] by Bain and others, but there can be no 
 doubt of its Onondaga age. The central limestone area is surrounded by 
 a belt of valley ground one-third mile wide occupied by the outcrops of the 
 black Chattanooga shale. All observations indicate that this shale is not 
 less than 300 feet thick, and it may be as much as 400 feet, although its 
 thickness has hitherto been estimated at 50 to 100 feet. Overlying the 
 Chattanooga is about 1,500 feet of limestone, made up in ascending order, 
 of the Fort Payne ("Tullahoma") formation, 600 feet; limestone of prob- 
 able Warsaw age, 250 feet ; St. Louis limestone, 350 feet ; and the Ste. 
 Genevieve limestone, including the Ohara limestone member at top, 270 
 feet. Above this series lie alternating limestone, shale, and sandstone strata 
 of the Chester group aggregating a thickness of about 900 feet. These 
 Chester beds outcrop in a belt about 2 miles wide, west, northwest, and 
 north of the semicircular sandstone ridge lying just east of Grand Pierre 
 Creek and southwest and south of Pinhook Creek. The sandstone of this 
 
 (75) 
 
76 OIL INVESTIGATIONS 
 
 ridge is the lowest prominent sandstone of the Chester group. The top 
 sandstone of the Chester group (Palestine sandstone of Weller), 150 feet 
 below the basal Pennsylvanian ("Coal Measures") conglomerate, forms the 
 surface of the central part of the Horton Hill anticlinal area. The high 
 hills west of Grand Pierre Creek and north of Rose Creek are capped by 
 Pennsylvanian ("Coal Measures") conglomerate, sandstone, and shale. 
 
 Structure 
 
 The structural features in northwestern Hardin County, 111., include 
 from southeast to northwest the Hicks anticline, the Eagle Valley syncline, 
 the Horton Hill anticline, the Potato Hill syncline, and the Bald Hill anti- 
 cline. 
 
 The Hicks anticline is a strong fold long known as the Hicks dome ; 
 farther northwest, mainly in southeast Saline County but extending south- 
 westward into northern Pope County, is a low oval anticline here named 
 the Horton Hill anticline; and a mile or two still farther west is a strong 
 unsymmetrical anticline, extending from Lusk Creek in sec. 24, T. 11 S., 
 R. 6 E., northeastward through Bald Hill, and hence called the Bald Hill 
 anticline. 
 
 The form and extent of the Hicks dome and of the Horton Hill anti- 
 cline are shown on the accompanying map (PI. IX) by structure contours, 
 those on the Hicks dome being drawn on the top of the black Chattanooga 
 shale at vertical intervals of 100 feet, and those on the Horton Hill anti- 
 cline drawn on the top of the uppermost sandstone of the Chester group 
 (Palestine sandstone of Weller) at vertical intervals of 50 feet. Only 
 the approximate position of the axis of the Bald Hill anticline is indicated, 
 owing to its narrowness, steep northwest limb, and less well-known details. 
 
 Between the Hicks dome and the Horton Hill anticline is the Herod 
 fault and a syncline provisionally named the Eagle Valley syncline. The 
 Herod fault trends northeast, and the strata are downthrown on the south- 
 east side about 100 to 200 feet. Between the Horton Hill and Bald Hill 
 anticlines is the Potato Hill syncline, the axis of which lies near and just 
 west of Potato Hill in the SW. ]/ A sec. 18, T. 11 S., R. 7 E. 
 
 Two faults cut into the northeast flank of the Hicks Dome and the 
 most southeasterly one may pass across the dome. About 2 miles farther 
 southeast, and outside of the area mapped, another fault cuts across the 
 Hicks anticline in a general northeast-southwest direction like the mapped 
 faults. 
 
 From the center of the Hicks dome the rocks dip outward strongly 
 to the southwest and northeast and intermediate directions with dips be- 
 tween 10 and 20 degrees ; the dip is more gentle to the southeast. In broad 
 areas to the southwest and to the north of the center of the dome, the 
 dip is low or the strata are nearly flat. This flattening of the structure, 
 
BULLETIN NO. 35, PLATE IX 
 
 E. 
 
 
 
 k- )\ 
 
 
 
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 *fS \ CN 
 
 « J ■ \ 7 
 
 r i ' 
 
 
 i e-'''e\ 
 
 K ii / 
 
 rl 
 
 I 
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 i 
 
 I ft'' 
 
 O 
 
 i 
 \27 
 
 V |26 
 
 
 /" 7 
 
 \ > 
 / 
 
 \ j 
 
 
 / 34 / 
 
 f" 
 TIN CO 
 
 i N ( 
 
 
 LEGEND 
 
 County line 
 
 ' ~~~ Township line 
 
 Section line 
 
 »"~~"~ "*" Houses and first-class roads 
 
 BM 
 
 X Bench mark 
 
 546 
 
 
 
 j 
 
 
 

 3 a* 'oefas 
 
 u 
 
 
 
 
 rlnojfoH 
 
 00 SgaoV 
 
 c ?\ |a- a i <r 
 
 
 
 otfsJo 
 
 -1 
 
 OS 
 
HARDIN, POPE, AND SALINE COUNTIES 77 
 
 producing a structural terrace, is indicated by the spreading- f the con- 
 tour lines in sees. 13, 34, and 35, T. 11 S. ; sees. 2 and 3, T. 12 S., R. 7 E. 
 and sees. 17 and 18, T. 11 S., R. 8 E. Outward from these terraces the 
 dip steepens to about 10 degrees which prevails to the outer margin of the 
 contoured area southeast of the Herod fault. Beyond the contoured area 
 the rocks dip at angles less than 5 degrees as far as the axis of the Eagle 
 Valley syncline, but the continuity of the strata is interrupted by the Herod 
 fault. 
 
 West of the Eagle Valley axis the strata rise westward at a small de- 
 gree to the axis of the Horton Hill anticline. This seems to be an elong- 
 ated dome, the axis of which pitches moderately to the northeast and to 
 the southwest from the center of the dome. Northwest of this axis the 
 rocks dip northwestward at a low angle to the axis of the Potato Hill syn- 
 cline. From the last named axis the strata rise westward to the axis of 
 the Bald Hill anticline at a rate gradually increasing to as much as 25 de- 
 grees, locally, near the axis. Immediately west of the axis the dip varies 
 from 15 to 60 degrees westward, the steeper dips being observed in sees. 
 12 and 13, T. 11 S., R. 6 E. and in sec. 31, T. 10 S., R. 7 E. A short 
 distance west of the axis the rocks are nearly horizontal. 
 
 POSSIBLE OIL-BEARING STRATA 
 
 In the central part of the Hicks dome the possible sources of oil lie 
 below the limestone of Onondaga age. Of these lower strata nothing di- 
 rectly is known in the region, since they are nowhere exposed at the sur- 
 face and have not been penetrated by deep wells. Rocks that normally 
 occupy this stratigraphic position outcrop in Union and Alexander coun- 
 ties, 111., 50 miles west of Hardin County ; and along Tennessee River 70 
 miles and farther south of the region. From the Devonian and Silurian 
 rocks of these regions must be inferred the possible character of the cor- 
 responding part of the general geologic column in Hardin County. Accord- 
 ing to Savage, 1 in Union and Alexander counties these rocks include lime- 
 stone of Onondaga age 150 feet thick, sandstones and cherty limestone of 
 Oriskany age 235 feet thick immediately underlying the Onondaga lime- 
 stone of Illinois reports, limestone of Helderbergian age 160 feet thick ; 
 limestones of Silurian age 120 feet; and sandstone of Richmond age, the 
 Thebes sandstone of Illinois reports, 90 feet thick, lying about 530 feet 
 below the limestone of Onondaga age. If the section of these lower strata 
 in Hardin County is at all like what it is in Union County, it is possible 
 that some of these sandstone beds underlie the Hicks dome at a depth of 
 not over 1,000 feet below the, top of the Chattanooga shale. These strata 
 
 1 Savage, T. E., Lower Paleozoic stratigraphy of southwestern Illinois: [11. Slate G'eol. 
 Survey, Bull. 8, pp. 103-116, 1907. 
 
78 OIL INVESTIGATIONS 
 
 are nowhere known to be oil-bearing, but that is not necessarily a condem- 
 nation, for in the Colmar field in McDonough County, 111., the oil is in a 
 local sand of Niagaran age, and in Allen County, Ky., the oil is reputed to 
 be in rock of Niagaran age. These are recent discoveries and apparently 
 the only occurrences of the kind. There is always a chance of oil occurring 
 at horizons at which it has not been found elsewhere. 
 
 Farther out from the center of the Hicks dome, as on the structural 
 terraces previously mentioned, there is, in addition to the chance of oil in 
 the strata below the limestone of Onondaga ("Corniferous") age, the chance 
 of its presence in that limestone itself, which is the oil-bearing stratum of 
 the Irvine field in eastern Kentucky, of the field in Ohio County, Ky., and 
 of the oil fields of Ontario, Canada. The lower part of the limestone of 
 Onondaga age in Union County, 111., is said to have a strong odor of petro- 
 leum. The top of this limestone should be reached at about 1,600 feet below 
 the general level of the country in the area of the structural terraces in 
 sees. 13, 34 and 35, T. 11 S., R. 7 E. ; sees. 2 and 3, T. 12 S., R. 7 E. ; and 
 sec. 17, T. 11 S., R. 8 E. ; and the possibly oil-bearing strata below the 
 limestone are probably within a depth of 2,200 feet below the general level 
 of the ground in these sections. 
 
 In the region of the Horton Hill anticline there is also a chance that 
 the basal sandstone strata of the Chester group may contain oil. The top 
 of these sandstones is at a depth of 500 to 600 feet along the Horton Hill 
 axis, whereas the limestone of Onondaga age is probably about 2,300 feet 
 deep and the horizon of the Thebes sandstone of the Illinois Survey, the 
 lowest possible sandstone, is probably not over 3,000 feet below the top 
 of the upper Chester sandstone in the center of the anticlinal area. 
 
INDEX 
 
 Adams County, drilling in 16, 18 
 
 Alexander County, drilling in 17, 18 
 
 Allendale field, development of ... . 14 
 Ava area, investigations in 57-65 
 
 B 
 
 Bald Hill anticline 
 
 Bond County, drilling in, 
 Brick plant, cost of 
 
 76,77 
 17,18 
 . 10 
 
 Campbell Hill anticline 60, 61-63 
 
 Carbondale formation in southern 
 
 Illinois 28-29, 44, 55,58 
 
 Carlyle field, development of 15 
 
 Cedar Creek dome 49-50 
 
 Central City, oil possibilities near.. 70 
 Centralia area, investigations in 
 
 15, 67-74 
 
 Chattanooga shale in southern Illi- 
 nois 75, 77 
 
 Chester group in southern Illinois 
 
 23, 36, 45-47, 
 
 49, 53, 54, 59, 68, 72, 75-76,78 
 
 Clark County, drilling in 12, 18 
 
 Clinton County, drilling in 15, 18 
 
 Clore formation in southern Illinois 
 
 36, 46, 53,55 
 
 Coal City, oil at 16-17 
 
 Coal No. 2 in southern Illinois.... 
 
 24, 26, 28-29,68 
 
 Cobden terrace 50-51 
 
 Coles County, oil fields in 12 
 
 Colmar- Plymouth field, develop- 
 ment of 15-16 
 
 Crawford County, drilling 13, 18 
 
 Cumberland County, drilling in.... 12 
 Cypress formation in southern Illi- 
 nois 46 
 
 D 
 
 Drainage in southern Illinois 22, 42 
 
 Devonian formation in southern Illi- 
 nois 75, 77 
 
 Drilling, record of 18 
 
 Eagle Valley syncline 76 
 
 Edgar County, drilling in 12 
 
 Eldorado, drilling near 17 
 
 Faults, relation of, to oil accumu- 
 lation 30-31,51-52,69 
 
 Fayette County, drilling in 17, 18 
 
 Gas in southern Illinois 
 
 . . . .29-37, 47-55, 59-64, 68-73, 77-78 
 Glacial drift in southern Illinois. .29, 44 
 Golconda formation in southern Illi- 
 nois 46, 54 
 
 Gold Hill fault 31-32 
 
 Grundy County, drilling in 16-17 
 
 H 
 
 Hancock County, drilling in 15, 18 
 
 Hardinsburg formation in southern 
 
 Illinois 46,54 
 
 Henderson County, drilling in 16, 18 
 
 Hicks anticline 76-77 
 
 Hoffman anticline 73 
 
 Horton Hill anticline 76-77 
 
 Jackson County, investigations in.. 
 
 16, 17, 39-55, 57-65 
 
 Jasper County, drilling in 12, 18 
 
 Johnson County, investigations in 
 
 16, 19-37 
 
 Junction City dome, oil in 15, 70-71 
 
 (79) 
 
INDEX — Concluded 
 
 PAGE 
 
 Lawrence County, drilling in.. 13-14, 18 
 
 M 
 
 McCormick anticline 32-33, 35 
 
 McDonough County, drilling in. . .15, 18 
 McLeansboro formation in Cen- 
 
 tralia area 68 
 
 Macoupin County, oil and gas in.. 14 
 
 Makanda anticline 48-49 
 
 Marion County, drilling in 15, 18 
 
 Menard formation in southern Illi- 
 nois 36, 46, 55 
 
 N 
 
 New Burnside anticline 32-33, 35 
 
 Oil in southern Illinois 
 
 ...29-37, 47-55, 59-64, 68-73, 77-78 
 
 prices of, in 1916 13 
 
 production of, in 1916 12 
 
 Oil fields, development of, in 1916, 11-18 
 Onondaga limestone in southern 
 
 Illinois 75 
 
 Palestine formation in southern Illi- 
 nois 36, 46, 53, 55 
 
 Pike County, drilling in 16, 18 
 
 Pope County, investigations in, 16, 19-37 
 
 Potato Hill syncline 76 
 
 Pottsville formation in southern 
 
 Illinois 23, 
 
 24-28, 36, 37, 44, 49, 53, 55, 58-59, 68 
 Pulaski County, drilling in 17, 18 
 
 R 
 
 Recommendations for drilling 
 
 33-35, 53-55, 64^65 
 
 Renault formation in southern Illi- 
 nois 37,47 
 
 Ste. Genevieve limestone in south- 
 ern Illinois 23, 47, 53, 55, 59, 75 
 
 St. Louis formation in southern Illi- 
 nois 47,55,59,75 
 
 Saline County, investigations in 
 
 16, 17, 19-37 
 
 Sandoval dome 15, 71-72 
 
 Schuyler County, drilling in 16, 18 
 
 Shattuc terrace 72 
 
 Silurian formations in southern Illi- 
 nois 77 
 
 Sloans Valley formation in southern 
 
 Illinois 46 
 
 Staunton, gas at 14 
 
 Stratigraphy in southern Illinois 
 
 23-29, 43-47, 58-59, 68-75 
 
 Structure in southern Illinois 
 
 29-32, 47-53, 60-63, 69-73, 76 
 
 Sugar Hill dome 60-61 
 
 Tar Springs formation in southern 
 Illinois 36,46 
 
 Topography of southern Illinois 
 
 20-22, 42, 58 
 
 Thebes sandstone in southern Illi- 
 nois 77 
 
 Tullahoma limestone in southern 
 
 Illinois 75 
 
 U 
 
 Unconformities, significance of . . . .52-53 
 
 Union County, investigations in 
 
 16, 39-55 
 
 W 
 
 Wabash County drilling in 14, 18 
 
 Warren County, drilling in 16, 18 
 
 Williamson County, investigations 
 in 16, 19-37, 39-55 
 
II II