Herrin Coal Member
Lithostratigraphy: Carbondale Formation >>Herrin Coal Member
Chronostratigraphy: Paleozoic Erathem >>Pennsylvanian Subsystem >>Desmoinesian Series
Allostratigraphy: Absaroka Sequence
Nelson, W.J., P.H. Heckel and J.M. Obrad, 2022, Pennsylvanian Subsystem in Illinois: Illinois State Geological Survey, Bulletin (in press).
Mining this seam began before the earliest geological surveys. Owen (1856) referred to the “Eleventh coal” or “No. 11 coal” in western Kentucky. Worthen (1868, p. 14–15) described Coal No. 6 in the Belleville area and at several places farther north in Illinois. However, Worthen’s Coal No. 5 in Jackson and Perry Counties later proved to be the Herrin (No. 6). DeWolf (1908) called it the Herrin No. 7 coal in Williamson and Saline Counties. Shaw and Savage (1912, p. 6, 7, 14, 15) first used the name “Herrin (No. 6) coal” for the seam mined near Herrin in Williamson County, Illinois. These were the first authors to correctly identify the Herrin Coal with the No. 6 coal previously designated elsewhere in Illinois. Shaw and Savage (1912) also named the Carbondale Formation, with the Herrin Coal at the top. Kosanke et al. (1960) formalized the name as Herrin (No. 6) Coal Member in Illinois. Jacobson et al. (1985) extended the Herrin Coal Member throughout the Illinois Basin.
Regarding the origin of the name, Callary (2009, p. 159) wrote, “Named from Herrin’s Prairie, itself named for Isaac Herring, generally regarded as the first permanent settler, who entered a claim at Shawneetown in 1816. Over time Herring’s name (informally pronounced [HEHR uhn] or [HEHR in] came to be written Herrin.”
Archaic names include Belleville coal in the St. Louis area, Grape Creek coal in the Danville area, and Second vein in the LaSalle area. Early geologists misidentified the No. 6 coal in southern Illinois (see below). People in the mining industry continue to call this the No. 6 coal in Illinois and the No. 11 coal in western Kentucky. The Herrin does not have a number in Indiana, where Coal VI is the younger Hymera Coal Member.
Core from the Madison Coal Company’s drill hole #25 is hereby designated as the principal reference section for the Herrin Coal. The hole was drilled about 12 mi (19 km) northeast of Herrin in sec. 12, T 8 S, R 3 E, Williamson County (ISGS county no. 77). The Herrin Coal is 6 ft 8 in. (203 cm) thick and resides in the depth interval of 452 ft 2 in. to 458 ft 10 in. (137.8 to 139.9 m; Figure 4-74).
Logs of Madison No. 25 are on file with the ISGS Geological Records Unit and are available via the ISGS website. Core is archived at the ISGS Geological Samples Library in Champaign under call number C-133.
Given its great economic importance, the Herrin Coal has been mapped more thoroughly than any other Pennsylvanian member in Illinois. Difficulties in identification arise chiefly on the eastern side of the basin, where the Herrin has been confused with the older Briar Hill and the younger Hymera Coal (Shelburn Formation). Locally, the Herrin and Hymera are less than 3 ft (1 m) apart. The Herrin is greatly thinned in several other areas, but generally, its position can be identified with reference to older and younger coal, black shale, and limestone members.
Extent and thickness
Many maps depict the thickness of the Herrin Coal. The most recent statewide map for Illinois is that of Treworgy et al. (2000), which does not differ greatly from the map of Treworgy and Bargh (1984). These sources show that the main area of thick Herrin Coal occupies nearly all of the Fairfield Basin and Western Shelf south of Springfield and Decatur. The coal thins markedly onto the La Salle Anticlinorium, the Salem Anticline, and the Loudon Anticline and a larger surrounding area. The Du Quoin Monocline, which markedly affected the Springfield Coal, had little effect on the thickness of the Herrin. Within this larger area, the thickest coal borders the Walshville channel (Figure 4-75). Here, the Herrin is thicker than 8 ft (2.4 m) in large areas and locally reaches 14 ft (4.2 m). Other areas of moderately thick Herrin Coal, generally 3.3 to 6.6 ft (1 to 2 m), include parts of Douglas, Champaign, and Vermilion Counties east of the La Salle Anticlinorium, erosional remnants west of the Illinois River, and areas of locally thicker deposition around Spring Valley, Streator, and Verona in northern Illinois.
Bright-banded coal having closely spaced cleat (vertical fractures) is characteristic. Partings, laminae, and lenses of fusain, claystone, and pyrite are numerous. By far the most extensive claystone layer in the Herrin or any Illinois Basin coal seam is the “blue band,” which is normally about 1 to 3 in. (2 to 8 cm) thick and occurs in the lower one-fourth to one-third of the seam (Figure 4-76). However, the blue band thickens markedly, to 3 ft (1 m) or more, near the margins of the Walshville channel. In addition, close to the Walshville channel the Herrin becomes shaly, grading to the upper part of the Walshville Member channel deposits. Larger wedge-shaped “splits” of mudstone, siltstone, and sandstone also are encountered near the channel. Even more remarkable, the blue band persists to the lateral margins of the Herrin Coal, and perhaps beyond. A photograph (Figure 4-77) shows the blue band in a surface mine in Gibson County, Indiana, where the Herrin Coal is reduced to streaks.
The sulfur content of the Herrin Coal is closely related to the roof rock lithology. Where the gray, nonmarine Energy Shale Member is thin or absent, the sulfur content is typically 3 to 5%, in common with most Illinois Basin coal. Where the Energy Shale is thicker than about 20 ft (6 m), the sulfur content dips below 2% and can be less than 1%. Evidently, the gray mud shielded the peat from sulfide ions in the marine water and sediment. The same association of thick, nonmarine gray shale with low-sulfur coal has been documented for the Murphysboro, Colchester, Springfield, and Danville Coals (Allgaier and Hopkins 1975; Treworgy and Jacobson 1985).
Coal balls (mineralized peat) are common wherever marine rocks overlie the Herrin. They are generally composed of limestone partly replaced by pyrite. Isolated coal balls mostly are found near the top of the member. Large masses of coal balls up to 100 ft (30 m) across and replacing the entire height of the coal have been encountered in several mines in southern Illinois and western Kentucky (Bauer and DeMaris 1982; DeMaris 2000). Such large masses of coal balls are more common in the Herrin than in any other widely mined coal unit. Claystone dikes are another hindrance to mining. These are numerous on the Western Shelf and in the Danville area where the Energy Shale is thin or absent.
Both contacts generally are sharp. Coal intertongues with shale near the top of the Walshville Member along the channel margins and with the basal Energy Shale in the form of “splits” and “rolls.”
A series of four articles alluded to a “ragged edge” of the Herrin Coal in western Kentucky and suggested that peat accumulated simultaneously with offshore deposition of the Brereton/Providence Limestone. Hower et al. (1987), de Wet et al. (1997), Hower and Williams (2001), and O’Keefe et al. (2008) described upper layers of the coal being truncated, disturbed, brecciated, oxidized, and, in some cases, intermixed with limestone and marine fossils. Aside from a single underground mine exposure in O’Keefe et al. (2008), these examples are all from drill cores and span several western Kentucky counties. Without viewing the cores and mine exposure in totality, the authors’ conclusions are difficult to assess. However, I have examined and mapped in underground mines “rolls” of Brereton Limestone accompanied by deformation, brecciation, and oxidation of the underlying Herrin Coal. In addition, I have encountered many “limestone bosses,” in which roughly spheroidal masses of the Brereton protrude downward into the Herrin Coal. Small-scale injection of limy sediment into the coal accompanies both types of structures (Nelson 1983b, p. 31–34). I suggest that the “ragged edge” features in Kentucky represent similar structures that formed after peat accumulation and during or shortly after Brereton deposition, before the peat and limy sediment were lithified. Another explanation is the erosion of peat and mixing with limy sediment during transgression, storms, or both.
Well log characteristics
Typical for coal.
Kosanke (1950) and Peppers (1970, 1996) discussed fossil spores of the Herrin and neighboring coal seams. Plant material preserved as mineralized peat (coal balls) also has been thoroughly investigated (e.g., Phillips et al. 1977; DiMichele and Phillips 1988; Phillips and DiMichele 1988; Winston 1988). Mahaffy (1985) described pollen and spores from the coal and from coal balls. A single example of a pectenoid pelecypod was found in a drill core from the “blue band” in western Kentucky. This find suggests brackish water during deposition of the claystone layer.
Age and correlation
Based on palynology (Peppers 1996) and physical stratigraphy, the Herrin is correlative with the Lexington Coal in Missouri and the Mystic Coal in Iowa. A persistent claystone layer in the lower part of the Mystic and Lexington Coals probably corresponds to the “blue band.” In addition, the Herrin probably correlates with the Upper Kittanning coal bed of Ohio, West Virginia, and Pennsylvania, along with the Princess No. 7 coal bed of eastern Kentucky. The late Desmoinesian age corresponds to the Asturian (Westphalian D) or Cantabrian (early Stephanian) age of western Europe and to late Moscovian on the global timetable (Gradstein et al. 2012).
Environments of deposition
The Herrin and its correlatives (Lexington, Mystic, Upper Kittanning) represent one of the largest Pennsylvanian coastal peat deposits of North America (Greb et al. 2003). The “sweet spot” for peat accumulation was the lowland bordering the Walshville channel, a major river that flowed through the swamp. Several tectonic structures in Illinois were active, influencing peat thickness. The eastern basin margin (in Indiana) and a large area in central Illinois were topographically higher, so peat did not develop or was removed shortly after formation.
The lateral continuity of claystone layers in the Herrin, particularly the “blue band,” is remarkable. Clay mineralogy of the blue band rules out the origin as a volcanic ash deposit (Burger and Damberger 1985). The manner in which this layer thickens along the margin of the Walshville channel signifies that it probably originated during a marked but brief episode of flooding that temporarily drowned the peat swamp.
The Herrin Coal is the leading economic seam in Illinois and second to the Springfield Coal basin wide. According to Keystone (2010), the Herrin accounts for 78.8 billion tons (71.5 billion metric tons) of resources in Illinois, about 37% of total resources. Corresponding figures for Kentucky are 9.65 billion tons (8.75 billion metric tons) and 27% of total resources. The Herrin is too thin to mine in Indiana except in small areas along the state’s western border.
- Allgaier, G.J., and M.E. Hopkins, 1975, Reserves of the Herrin (No. 6) Coal in the Fairfield Basin in southeastern Illinois: Illinois State Geological Survey, Circular 489, 31 p., 2 pls.
- Bauer, R.A., and P.J. DeMaris, 1982, Geologic investigation of roof and floor strata, longwall demonstration, Old Ben Mine No. 24: Illinois State Geological Survey, Contract/Grant Report 1982-2, 49 p.
- Burger, K., and H.H. Damberger, 1985, Tonsteins in the coalfields of Western Europe and North America, in A.T. Cross, ed., Economic geology: Coal, oil and gas: Ninth International Congress of Carboniferous Stratigraphy and Geology, Proceedings, v. 4: Carbondale, Southern Illinois University Press, p. 433–448.
- Callary, E., 2009, Place names of Illinois: Urbana, University of Illinois Press, 425 p.
- DeMaris, P.J., 2000, Formation and distribution of coal balls in the Herrin Coal (Pennsylvanian), Franklin County, Illinois Basin, USA: Journal of the Geological Society of London, v. 157, p. 221–228.
- de Wet, C.B., S.O. Moshier, J.C. Hower, A.P. de Wet, S.T. Brennan, C.T. Helfrich, and A.L. Raymond, 1997, Disrupted coal and carbonate facies within two Pennsylvanian cyclothems, southern Illinois basin, United States: Geological Society of America Bulletin, v. 109, no. 10, p. 1231–1248.
- DeWolf, F. W., 1908, Coal investigations in Saline and Williamson Counties, Illinois: Illinois State Geological Survey, Bulletin 8, p. 230–245.
- DiMichele, W.A., and T.L. Phillips, 1988, Paleoecology of the Middle Pennsylvanian-age Herrin coal swamp (Illinois) near a contemporaneous channel, the Walshville paleochannel: Review of Paleobotany and Palynology, v. 56, p. 151–176.
- Gradstein, F.M., J.G. Ogg, M.D. Schmitz, and G.M. Ogg, 2012, The geologic time scale 2012, v. 1 and 2: Amsterdam, Elsevier, 1144 p. (v. 1) and 435 p. (v. 2).
- Greb, S.F., W.M. Andrews, C.F. Eble, W.A. DiMichele, C.B. Cecil, and J.C. Hower, 2003, Desmoinesian coal beds of the Eastern Interior and surrounding basins: The largest tropical peat mires in Earth history: Geological Society of America, Special Paper 370, p. 127–150.
- Hower, J.C., E.J. Trinkle, A.M. Graese, and G.L. Neuder, 1987, Ragged edge of the Herrin (No. 11) coal, western Kentucky: International Journal of Coal Geology, v. 7, p. 1–20.
- Hower, J.C., and D.A. Williams, 2001, Further examination of the ragged edge of the Herrin Coal Bed, Webster County, Western Kentucky Coal Field: International Journal of Coal Geology, v. 46, p. 145–155.
- Jacobson, R.J., C.B. Trask, C.H. Ault, D.D. Carr, H.H. Gray, W.A. Hasenmueller, D. Williams, and A.D. Williamson, 1985, Unifying nomenclature of the Pennsylvanian System in the Illinois Basin: Transactions of the Illinois Academy of Science, v. 78, no. 1–2, p. 1–11.
- Keystone, 2010, Keystone Coal Industry manual: Jacksonville, Florida, Mining Media International, 631 p.
- Kosanke, R.M., 1950, Pennsylvanian spores of Illinois and their use in correlation: Illinois State Geological Survey, Bulletin 74, 128 p., 2 pls.
- Kosanke, R.M., J.A. Simon, H.R. Wanless, and H.B. Willman, 1960, Classification of the Pennsylvanian strata of Illinois: Illinois State Geological Survey, Report of Investigations 214, 84 p. and 1 pl.
- Mahaffy, J.F., 1985, Profile patterns of coal and peat palynology in the Herrin (No. 6) Coal Member, Carbondale Formation, Middle Pennsylvanian of southern Illinois, in J.T. Dutro and H.W. Pfefferkorn, ed., Paleontology, paleoecology, paleogeography: Ninth International Congress of Carboniferous Stratigraphy and Geology, Proceedings, v. 5: Carbondale, Southern Illinois University Press.
- Nelson, W.J., 1983b, Geologic disturbances in Illinois coal seams: Illinois State Geological Survey, Circular 530, 47 p.
- O’Keefe, J.M.K., M.G. Shultz, S.M. Rimmer, J.C. Hower, and J.T. Popp, 2008, Paradise (and Herrin) lost: Marginal depositional settings of the Herrin and Paradise coals, western Kentucky coalfield: International Journal of Coal Geology, v. 75, p. 144–156.
- Owen, D.D., 1856, Report on the geological survey in Kentucky made during the years 1854 and 1855: Kentucky Geological Survey, Series 1, v. 1, p. 3–148.
- Peppers, R.A., 1970, Correlation and palynology of coals in the Carbondale and Spoon Formations (Pennsylvanian) of the northeastern part of the Illinois Basin: Illinois State Geological Survey, Bulletin 93, 173 p.
- Peppers, R.A., 1996, Palynological correlation of major Pennsylvanian (Middle and Upper Carboniferous) chronostratigraphic boundaries in the Illinois and other coal basins: Geological Society of America, Memoir 188, 111 p. and correlation chart.
- Phillips, T.L., and W.A. DiMichele, 1988, Paleoecology of Middle Pennsylvanian age peat swamps in southern Illinois, Herrin Coal Member at Sahara Mine No. 6, in K.J. Niklas, ed., Paleobotany, paleoecology, and evolution: New York, Praeger, p. 231–284.
- Phillips, T.L., A.B. Kunz, and D.J. Mikish, 1977, Paleobotany of permineralized peat (coal balls) from the Herrin (No. 6) Coal Member of the Illinois Basin: Geological Society of America, Microform Publication, v. 7, p. 18–49.
- Shaw, E.W., and T.E. Savage, 1912, Murphysboro-Herrin folio: U.S. Geological Survey, Geologic Atlas of the United States, Folio No. 185, 13 p. and 6 maps, 1:62,500.
- Treworgy, C.G., and M.H. Bargh, 1984, Coal resources of Illinois: Illinois State Geological Survey, 6 maps, 1:500,000.
- Treworgy, C.G., and R.J. Jacobson, 1985, Paleoenvironments and distribution of low-sulfur coal in Illinois, in A.T. Cross, ed., Economic geology: Coal, oil and gas: Ninth International Congress of Carboniferous Geology and Stratigraphy, Proceedings, v. 4: Carbondale, Southern Illinois University Press, p. 349–359.
- Treworgy, C.G., C.P. Korose, and C.L. Wiscombe, 2000, Availability of the Herrin Coal for mining in Illinois: Illinois State Geological Survey, Illinois Minerals 120, 54 p., 3 pls.
- Winston, R.B., 1988, Paleoecology of Middle Pennsylvanian-age peat-swamp plants in Herrin Coal, Kentucky, USA: International Journal of Coal Geology, v. 10, no. 3, p. 203–238.
- Worthen, A.H., 1868, Geology and palaeontology: Geological Survey of Illinois, v. 3, 574 p., 20 pls.
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