Illinois Basin
Boundaries and sedimentary rocks
The basin is bordered on the northeast by the Kankakee Arch, on the southeast by the Cincinnati Arch, on the south by the Pascola Arch, on the southwest by the Ozark Dome, on the northwest by the Mississippi River Arch, and on the north by the Wisconsin Arch. The New Madrid seismic zone and the Wabash Valley seismic zone intersect the southern portion of the basin.
The major structural features within the basin include the La Salle anticlinal belt, the DuQuoin monocline, the Cottage Grove fault system, and the Fairfield Basin.
At its center beneath southern Illinois, the basin contains a thickness of about 15,000 feet of Cambrian through Pennsylvanian sedimentary rocks, predominantly marine, and mostly dolomite, limestone, shale, and sandstone.
The basement rocks deep below the sedimentary rocks of the basin are Proterozoic granites and rhyolite of the Eastern Granite–Rhyolite Province which dates to around 1.55 Ga.
Mineral resources
The rocks of the Illinois Basin are sources of coal, petroleum, and other minerals.
Coal
Bituminous coal is present in Pennsylvanian rocks in the basin, deposited in freshwater swamp environments. Over the years, the Illinois Basin has produced more than eight billion tons of coal in Southern Illinois, particularly in the Harrisburg Coal Field, and the Western Coal Fields of Kentucky. Coal production was 99 million short tons in 2008, roughly equally divided between Illinois, Indiana, and western Kentucky. The basin provided 8% of US coal production in 2008.
Petroleum
The Illinois Basin has produced more than four billion barrels of petroleum. Major oil production began in 1905, and from 1907 through 1912, the basin was the third-most oil productive area in the United States. Oil production peaked in 1908 at 34 million barrels per year, and declined steadily to 5 million barrels in 1933. A new wave of exploration brought oil production to a new high of 140 million barrels in 1940, after which production again declined. Waterflooding of old reservoirs caused a third peak of oil production in the 1950s.
Much recent drilling activity has targeted shale gas in the Devonian-Mississippian New Albany Shale.
Non-fuel minerals
The rocks of the Illinois Basin are thought to be the source of metals in Mississippi Valley-Type lead-zinc deposits, both within the basin and in surrounding areas, such as the Lead Belt of southeast Missouri.
Within the basin, deposits valuable for lead, zinc, coal balls and fluorite are mined in Hardin and Pope counties, Illinois, and Crittenden and Livingston counties, Kentucky. the deposits are in the form of veins and limestone replacement deposits in Mississippian sedimentary rocks. Ore minerals are fluorite, galena, and sphalerite. Gangue minerals include common quartz and calcite, and minor barite and chalcopyrite.
Carbon sequestration
Some geologic formations in the Illinois Basin are considered to have potential for carbon sequestration, as a permanent disposal site for carbon dioxide that would otherwise be released into the atmosphere. In 2009, Archer Daniels Midland Corp. began pilot testing the carbon sequestration potential of the Mt. Simon formation beneath its ethanol manufacturing facility in Illinois. As of January 2015, one million metric tons of carbon dioxide had been sequestered in the Illinois Basin-Decatur Project.
References
- ^ "Thrust faults in southern Illinois basin -- result of contemporary stress?". USGS. 1987. Retrieved 19 September 2017.
Northwest corner of quadrant
- ^ Hatch, J.R.; Affolter, R.H. (2002). "Geologic Overview, Chapter C of Resource Assessment of the Springfield, Herrin, Danville, and Baker Coals in the Illinois Basin, U.S. Geological Survey Professional Paper 1625–D" (PDF). USGS. Retrieved 9 November 2020.
- ^ David H. Swann, "A summary geologic history of the Illinois Basin," in Geology and Petroleum Production of the Illinois Basin, Illinois Geologic Society, 1968, p.3-21.
- ^ Van Schmus, W.R., et al., 2007, New insights into the southern margin of the Archean–Proterozoic boundary in the north-central United States based on U-Pb, Sm-Nd, and Ar-Ar geochronology, Precambrian Research, v. 157, p. 80–105, doi:10.1016/j.precamres.2007.02.011.
- ^ Ben A. Van der Pluijm, Paul A. Catacosinos, Basement and basins of eastern North America, Geological Society of America, Special Paper 308, 1996, p. 14 ISBN 978-0-8137-2308-2
- ^ US Geological Survey, A rebirth of the Illinois Basin, retrieved 29 October 2009.
- ^ F. Freme, "Coal review," Mining Engineering, May 2009, p.52.
- ^ Harold F. Williamson and others, The American Petroleum Industry, 1899-1958, Evanstion, Ill.: Northwestern Univ. Press, 1963, p.16, 25, 540.
- ^ Robert M. Grogan and James C. Bradbury, "Fluorite-zinc-lead deposits of the Illinois-Kentucky mining district," in Ore Deposits in the United States, New York: American Institute of Mining, Metallurgical, and Petroleum Engineers (AIME), 1968, v.1, p.370-399.
- ^ Archer Daniels Midland, Carbon-sequestration projects put innovative emissions-reduction technology to the test Archived 2010-01-03 at the Wayback Machine, accessed 26 February 2010
- ^ "One million metric tons of CO2 stored underground in Illinois - KurzweilAI". kurzweilai.net.
Further reading
- Mansoori, G. A.; Enayati, Nader; Agyarko, L. Barnie (2016). Energy: Sources, Utilization, Legislation, Sustainability, Illinois As Model State. New Jersey: World Scientific. ISBN 978-981-4704-00-7.