Editorial Type:
Article Category: Research Article
| Online Publication Date: 05 Nov 2007
‘Plains-Type Folds’ in the Midcontinent Region (U.S.A.): Chronicling A Concept
‘Plains-Type Folds’ in the Midcontinent Region (U.S.A.): Chronicling A Concept
Page Range: 264 – 294
‘Plains-type folds’ are those folds formed in gently dipping sediments overlying a crystalline basement in cratonic areas of the world. They are the result of differential compaction of sediments over rigid basement fault blocks. Trends of the folds in the sedimentary section thus coincide with trends of basement features. Plains-type folds generally are (1) small in areal extent, (2) increase in closure downward, (3) without a corresponding depression, and (4) asymmetric and associated with faulting. The features were developed intermittently through time by differential compaction of the sediments over an inherent structural pattern of uplifted fault blocks in the basement. Plains-type folds were recognized early in the twentieth century in the Midcontinent (USA) as containing petroleum. They were the object of much speculation on their origin and development and were studied intensively in the 1920s and 1930s. Most of the studies were concentrated in Kansas and Oklahoma and revolved around the relation of the structures as mapped in the sediments to the configuration of the Precambrian crystalline basement, relation of structure and temperature, and the effect of sediment compaction over ‘buried hills.’
Allan, T. H., and M. M. Valerius, Fairport oil field, Russell County, Kansas, in Structure of typical American oil fields (Tulsa, OK: American Association of Petroleum Geologists, 1929), 1:35-48.
Athy, L. F., Density, porosity, and compaction of sedimentary rocks, American Association of Petroleum Geologists Bulletin, 1930a, 14(1): 1-24.
Athy, L. F., Compaction and oil migration, American Association of Petroleum Geologists Bulletin, 1930b, 14(1):25-35.
Athy, L. F., Compaction and its effect on local structure, in Problems of petroleum geology (Tulsa, OK: American Association of Petroleum Geologists, 1934), 811-823.
Bass, N. W., The geology of Hamilton County, Kansas Geological Survey Bulletin 11, pt. 2, 1926, 53-83.
Bass, N. W., The geology of Cowley County, Kansas, Kansas Geological Survey Bulletin 12, 1929, 203 p.
Beekly, A. L., Virgil pool, Greenwood County, Kansas, in Structure of typical American oil fields (Tulsa, OK: American Association of Petroleum Geologists, 1929), 2:142-149.
Berry, G. F., and P. A. Harper, Augusta field, Butler County, Kansas, in Structure of typical American oil fields, ed. J. V. Howell (Tulsa, OK: American Association of Petroleum Geologists, 1948), 3: 213-224.
Blackwelder, E., The origin of the central Kansas oil domes, American Association of Petroleum Geologists Bulletin, 1920, 4(1):89-94.
Bridge, J., and C. L. Dake, Initial dips peripheral to resurrected hills, Missouri Bureau of Geology and Mines, Biennial Report State Geologist, 1929, 93-99.
Brown, R. W., Origin of the folds of Osage County, Oklahoma, American Association of Petroleum Geologists Bulletin, 1928a, 12(5):501-513.
Brown, R. W., Occurrence of folds of the Osage type (discussion), American Association of Petroleum Geologists Bulletin, 1928b, 12(6):675-677.
Carpenter, E., Morrison field, Pawnee County, Oklahoma, in Structure of typical American oil fields (Tulsa, OK: American Association of Petroleum Geologists, 1929), 1:148-157. Reprinted from American Association of Petroleum Geologists Bulletin, 1927, 11(10): 1087-1095.
Charles, H. H., Oil and gas resources of Kansas, Part 7, Anderson County, Kansas Geological Survey Bulletin 7, 1927, 95 p.
Clapp, F. G., Role of geologic structure in the accumulation of petroleum, in Structure of typical American oil fields (Tulsa, OK: American Association of Petroleum Geologists, 1929), 2:667-716.
Clark, R. W., Okmulgee County, in Oil and Gas in Oklahoma, Oklahoma Geological Survey Bulletin 40(3), 1930, 45-68.
Clark, S. K., Thomas oil field, Kay County, Oklahoma, American Association of Petroleum Geologists Bulletin, 1926, 10(7):643-655.
Clark, S. K., The mechanics of the plains-type folds of the Midcontinent area, Journal of Geology, 1932, 40(1):46-61.
Clark, S. K., and J. I. Daniels, Relation between structure and production in the Mervine, Ponca, Blackwell, and South Blackwell oil fields, Kay County, Oklahoma, in Structure of typical American oil fields (Tulsa, OK: American Association of Petroleum Geologists, 1929), 1:158-175.
Dake, C. L., and J. Bridge, Buried and resurrected hills of central Ozarks, American Association of Petroleum Geologists Bulletin, 1932, 16(7):629-651.
Darton, N. H., Geothermal data of the United States, U.S. Geological Survey Bulletin 701, 1920, 97 p. (Kansas data are on 44-45; Oklahoma data are on 68-69).
Davis, H. G., III, Wrenching and oil migration, Mervine field area, Kay County, Oklahoma, Shale Shaker, 1984, 35(1):1-14.
DeGolyer, E., The significance of certain Mexican oil field temperatures, Economic Geology, 1918, 13(4):275-301.
Dykstra, J., Compaction correction for burial history curves, Geobyte, 1987, 2(4): 16-23.
Fath, A. E., Geology of the Eldorado oil and gas field, Butler County, Kansas, Kansas Geological Survey Bulletin 7, 1921a, 187 p.
Fath, A. E., The origin of the faults, anticlines, and buried ‘granite ridge’ of the northern part of the Midcontinent oil and gas field, U.S. Geological Survey Professional Paper 128C, 1921b, 75-84.
Ferguson, J. L., and J. Vernon, The relationship of buried hills to petroleum accumulation, in The science of petroleum (London: Oxford University Press, 1938), 1:240-243.
Förster, A., and D. F. Merriam, Geothermal field interpretaion in south-central Kansas for parts of the Nemaha Anticline and flanking Cherokee and Sedgwick Basins, Basin Research, 1993, 5(4):213-234.
Förster, A., and D. F. Merriam, A bottom-hole temperature analysis in the American Midcontinent (Kansas), implications to the applicability of BHTs in geothermal studies, International Geothermal Association, World Geothermal Congress (Florence, Italy) Proceedings, 1995, 2:777-782.
Förster, A., D. F. Merriam, and J. C. Brower, Relationship of geological and geothermal field properties, Midcontinent area, USA, an example, Journal of Mathematical Geology, 1993, 25(7):937-947.
Förster, A., D. F. Merriam, and J. C. Davis, Spatial analysis of temperature (BHT/DST) data and consequences for heat-flow determination in sedimentary basins, Geologische Rundschau, 1997, 86(2):252-261.
Förster, A., D. F. Merriam, and P. Hoth, Geohistory and thermal maturation in the Cherokee Basin (Midcontinent, USA)—results from modeling, American Association of Petroleum Geologists Bulletin, 1998, 82(9):1673-1693.
Foster, W. H., Coffeyville oil field, Montgomery County, Kansas, in Structure of typical American oil fields (Tulsa, OK: American Association of Petroleum Geologists, 1929), 1:49-51.
Frost, V. L., Ramsey oil pool, Payne County, Oklahoma, American Association of Petroleum Geologists Bulletin, 1940, 24(11):1995-2005.
Gardner, J. H., The vertical component in local folding, Southwest Association of Petroleum Geologists Bulletin, 1917a, 1:107-110.
Gardner, J. H., The Mid-Continent oil fields, Geological Society of America Bulletin 28, 1917b, 685-720.
Gardner, J. H., Rock distortion on local structures in the oil fields of Oklahoma, American Association of Petroleum Geologists Bulletin, 1922, 6(3):228-243.
Gay, S. P., Jr., Gravitational compaction, a neglected mechanism in structural and stratigraphic studies, new evidence from the Midcontinent, USA, preliminary manuscript (Published by the author, 1985), 109 p.
Gay, S. P., Jr., Gravitational compaction, a neglected mechanism in structural and stratigraphic studies, new evidence from Mid-Continent, USA, American Association of Petroleum Geologists Bulletin, 1989, 73(5):641-657.
Gay, S. P., Jr., Strike-slip, compressional thrust-fold nature of the Nemaha system in eastern Kansas and Oklahoma, American Association of Petroleum Geologists Midcontinent Section Meeting (Wichita, Kansas) Transactions, ed. D. F. Merriam, 1999, 39-50.
Gish, W. G., and R. M. Carr, Garber field, Garfield County, Oklahoma, in Structure of typical American oil fields (Tulsa, OK: American Association of Petroleum Geologists, 1929), 1:176-191.
Hager, D., The evidence of the Oklahoma oil fields on the anticlinal theory (with discussion), American Institute of Mining Engineers Transactions, 1917, 56:843-855.
Harrison, W. E., K. V. Luza, M. L. Prater, and P. K. Cheung, Geothermal resource assessment in Oklahoma, Oklahoma Geological Survey Special Publication 83-1, 1983, 42 p.
Haworth, E., On crystalline rocks in Kansas, Kansas Geological Survey Bulletin 2, 1915, 33 p.
Heald, K. C., The study of earth temperatures in oil fields on anticlinal structure, Part I, American Petroleum Institute Prod. Bulletin 205, 1930a, 1-8.
Heald, K. C., Determination of geothermal gradients in oil fields on anticlinal structure, American Petroleum Institute Bulletin, 1930b, 11(1):102-110.
Hedberg, H. D., The effect of gravitational compaction on the structure of sedimentary rocks, American Association of Petroleum Geologists Bulletin, 1926, 10(11):1035-1072.
Hedberg, H. D., The effect of gravitational compaction on the structure of sedimentary rocks; a reply to a discussion by W. W. Rubey, American Association of Petroleum Geologists Bulletin, 1927, 11(8):875-886.
Hedberg, H. D., Gravitational compaction of clays and shales, American Journal of Science, 5th ser., 1936, 31(184):241-287.
Hobson, G. D., Compaction and some oilfield features, Journal of the Institute of Petroleum, 1943, 29(230):37-54.
Hoffman, M. G., Structural history of Billings field, Noble County, Oklahoma, interpreted in terms of isostasy, American Association of Petroleum Geologists Bulletin, 1940, 24(11):2006-2018.
Hudson, F. S., Folding of unmetamorphosed strata superjacent to massive basement rocks, American Association of Petroleum Geologists Bulletin, 1955, 39(10):2038-2052.
Jackson, J. A., ed., Glossary of geology, 4th ed. (Falls Church, Virginia: American Geological Institute, 1997), 769 p.
Johnson, K. G., Sidney Powers—finder of ancient landscapes, Northeastern Geology and Environmental Sciences, 1997, 19(4):240-241.
Landes, K. K., The geology of Mitchell and Osborne Counties, Kansas, Kansas Geological Survey Bulletin 16, 1930, 55 p.
Landes, K. K., and J. W. Ockerman, Origin of domes in Lincoln and Mitchell Counties, Kansas, Geological Society of America Bulletin, 1933, 44(6):529-540.
Lane, A. C., Normal geothermal gradient in United States, Discussion, American Association of Petroleum Geologists Bulletin, 1935, 19(4):560.
Lasky, B. H., Surface alteration utilized in structural mapping—a function of earth temperature, World Oil, 1956, 143(6):123-127; Earth temperatures, alteration studies reflect subsurface structure, part 2, World Oil, 1956, 143(7):116-121.
Lee, W., Relation of thickness of Mississippian limestones in central and eastern Kansas to oil and gas deposits, Kansas Geological Survey Bulletin 26, 1939, 42 p.
Lee, W., The stratigraphy and structural development of the Forest City Basin in Kansas, Kansas Geological Survey Bulletin 51, 1943, 142 p.
Levorsen, A. I., Convergence studies in the Mid-Continent region, American Association of Petroleum Geologists Bulletin, 1927, 11(7):657-682.
Ley, H. A., Subsurface observations in southeast Kansas, American Association of Petroleum Geologists Bulletin, 1924, 8(4):445-453.
Lupton, C. T., W. Lee, and L. R. Van Burgh, Oil possibilities in western Kansas, American Association of Petroleum Geologists Bulletin, 1922, 6(2):69-90.
McConnell, C. L., Salinity and temperature anomalies over structural oil fields, Carter County, Oklahoma, American Association of Petroleum Geologists Bulletin, 1985, 69(5):781-787.
McCoy, A. W., A short sketch of the paleogeography and historical geology of the Midcontinent oil district and its importance to petroleum geology, American Association of Petroleum Geologists Bulletin, 1921, 5(5):541-584.
McCoy, A. W., An interpretation of local structural development in Midcontinent areas associated with deposits of petroleum, in Problems of petroleum geology (Tulsa, OK: American Association of Petroleum Geologists, 1934), 581-627.
McCoy, A. W., and W. R. Keyte, Present interpretations of the structural theory for oil and gas migration and accumulation, in Problems of petroleum geology (Tulsa, OK: American Association of Petroleum Geologists, 1934), 253-335.
McCutchen, J. A., Determination of geothermal gradient in oil fields located on anticlinal structures in Oklahoma, Part III, American Petroleum Institute Prod. Bulletin 205, 1930a, 19-61.
McCutchen, J. A., Determination of geothermal gradients in Oklahoma, American Association of Petroleum Geologists Bulletin, 1930b, 14(5):535-557.
McCutchen, J. A., Relation of earth temperatures to geologic structure, in the Dilworth Field, Kay County, Oklahoma, The Oil Weekly, 1932 65(2):21, 24, 26.
McCutchen, J. A., Relation of earth temperature to geologic structure (with discussion), Tulsa Geological Society Digest, 1936, 5-10.
McGee, H. W., H. J. Meyer, and T. R. Pringle, Shallow geothermal anomalies overlying deeper oil and gas deposits in Rocky Mountain region, American Association of Petroleum Geologists Bulletin, 1989, 73(5):576-597.
Mehl, M. G., The influence of the differential compression of sediments on the attitude of bedded rocks (abstract), Science, n.s., 1920, 51(1325):520.
Merriam, D. F., The geologic history of Kansas, Kansas Geological Survey Bulletin 162, 1963, 317 p.
Merriam, D. F. Structural gradient, a new concept in ‘plains-type folding’ (abstract), Kansas Academy of Science, 126th Annual Meeting, Abstracts (Washburn University), 1994, 13:26.
Merriam, D. F., and A. Förster, Precambrian basement control on ‘plains-type folds’ in the Midcontinent Region, USA (abstract), 11th International Conference Basement Tectonic 1994 Abstracts (Potsdam, Germany), International Basement Tectonics Association, 1994, 101-102.
Merriam, D. F., and A. Förster, Subsurface temperature anomalies as a key to petroleum-producing areas in the Cherokee and Forest City Basins, eastern Kansas (abstract), American Association of Petroleum Geologists Bulletin, 1995, 79(9):1404-1405.
Merriam, D. F., and A. Förster, Precambrian basement control on ‘plains-type folds’ (compactional features) in the Midcontinent region, USA, in Basement tectonics, ed. O. Oncken and C. Janssen (Dordrecht: Kluwer Academic Publishing, 1996), 11:149-166.
Merriam, D. F., and A. Förster, Subtle and not-so-subtle anticlinal structures and their geothermal overprint in the Salina Basin, north-central Kansas, Transactions of the American Association of Petroleum Geologists, Midcontinent Section Meeting (Wichita), 1999, 15-21. (Kansas Geological Survey Open-File Report 99-28).
Merriam, D. F., and A. Förster, Late Paleozoic recurrent structural movement in the Midcontinent (USA) as recorded by ‘plains-type folds,’ in preparation, 2000.
Merritt, J. W., and O. G. McDonald, Creek County, in Oil and Gas in Oklahoma, Oklahoma Geological Survey, 1930, 3:1-43.
Meyer, H. J., and H. W. McGee, Oil and gas fields accompanied by geothermal anomalies in Rocky Mountain region, American Association of Petroleum Geologists Bulletin, 1985, 69(6):933-945.
Miller, D. E., Geology and ground-Water resources of Allen County, Kans, Kansas Geological Survey Bulletin 195, 1969, 50 p.
Miser, H. D., Temperature of Oklahoma's deepest well, American Association of Petroleum Geologists Bulletin, 1924, 8(4):525-526.
Monnett, V. E., Possible origin of some of the structures of the Midcontinent oil field, Economic Geology, 1922, 17(3): 194-200.
Monnett, V. E., The ‘buried hills’ as a structural agency, Oklahoma Academy of Science Proceedings, 1926, 6(2):268-272.
Moore, R. C., Geologic history of crystalline rocks of Kansas, American Association of Petroleum Geologists Bulletin, 1918, 2:98-113.
Moore, R. C., The relation of the buried granite in Kansas to oil production, American Association of Petroleum Geologists Bulletin, 1920, 4(3):255-261.
Moore, R. C., and W. P. Haynes, Oil and gas resources of Kansas, Kansas Geological Survey Bulletin 3, 1917, 391 p.
Nevin, C. M., Principles of structural geology, 3rd ed. (New York: John Wiley and Sons, 1942), 320 p.
Nevin, C. M., and R. E. Sherrill, Studies in differential compaction, American Association of Petroleum Geologists Bulletin, 1929a, 13(1):1-21.
Nevin, C. M., and R. E. Sherrill, The nature of uplifts in north-central Oklahoma and their local expression, American Association of Petroleum Geologists Bulletin, 1929b, 13(1):23-30.
Ohern, D. W., and R. E. Garrett, The Ponca City oil and gas field, Oklahoma Geological Survey Bulletin 16, 1912, 30 p.
O'Connor, H. G., Geology and ground-water resources of Johnson County, northeastern Kansas, Kansas Geological Survey Bulletin 203, 1971, 68 p.
Owen, E. W., Trek of the oil finders, a history of exploration for petroleum (Tulsa, OK: American Association of Petroleum Geologists, 1975), 1647 p.
Perrier, R., and J. Quiblier, Thickness changes in sedimentary layers during compaction history; methods for quantitative evaluation, American Association of Petroleum Geologists Bulletin, 1974, 58(3):507-519.
Powers, S., Granite in Kansas, American Journal of Science, 4th series, 1917a, 44(260):146-150.
Powers, S., The Healdton oil field, Oklahoma, Economic Geology, 1917b, 12:594-606.
Powers, S., Reflected buried hills and their importance in petroleum geology, Economic Geology, 1922, 17(4):233-259.
Powers, S., Structural geology of the Midcontinent region, a field for research, Geological Society of America Bulletin, 1925, 36(2):379-392.
Powers, S., Reflected buried hills in the oil fields of Persia, Egypt, and Mexico, American Association of Petroleum Geologists Bulletin, 1926, 10(4): 422-442.
Powers, S., Buried ridges in West Texas, American Association of Petroleum Geologists Bulletin, 1927, 11(10):1109-1115.
Powers, S., Petroleum geology in Oklahoma, in Oil and Gas in Oklahoma, Oklahoma Geological Survey Bulletin 40, 1928a, 1-20.
Powers, S., Plains type of folding (abstract), Geological Society of America Bulletin, 1928b, 39(1): 202; Pan-American Geologist, 1928b, 49(2):157-158.
Powers, S., Review of ‘Initial dips peripheral to resurrected Hills,’ by J. Bridge and C. L. Dake, American Association of Petroleum Geologists Bulletin, 1929, 12(12):1171-1172.
Powers, S., Structural geology of northeastern Oklhoma, Journal of Geology, 1931, 39(1):117-132.
Rascoe, B., Jr., Tectonic origin of preconsolidation deformation in Upper Pennsylvanian rocks near Bartlesville, Oklahoma, American Association of Petroleum Geologists Bulletin, 1975, 59(9): 1626-1638.
Reeves, J. R., El Dorado oil field, Butler County, Kansas, in Structure of typical American oil fields (Tulsa, OK: American Association of Petroleum Geologists, 1929), 2:160-167.
Rich, J. L., Fault-block nature of Kansas structures suggested by elimination of regional dip, American Association of Petroleum Geologists Bulletin, 1935, 19(10):1540-1543.
Rubey, W. W., Progress report on a subsurface study of the Pershing oil and gas field, Osage County, Oklahoma, U.S. Geological Survey Bulletin 751-B, 1923, 23-70.
Rubey, W. W., The effect of gravitational compaction on the structure of sedimentary rocks, a discussion, American Association of Petroleum Geologists Bulletin, 1927, 11(6):621-632.
Rubey, W. W., and N. W. Bass, The geology of Russell County, Kansas, Kansas Geological Survey Bulletin 10, 1925, Part 1:1-86.
Ruby, G. W., Reflected buried hills and petroleum geology, Economic Geology, 1923, 18(1):93-96.
Scholten, R., Synchronous highs, preferential habitat of oil, American Association of Petroleum Geologists Bulletin, 1959, 43(8):1793-1834.
Seevers, W. J., Geology and ground-water resources of Linn County, Kansas, Kansas Geological Survey Bulletin 193, 1969, 65 p.
Sherrill, R. E., Origin of the en echelon faults in north-central Oklahoma, American Association of Petroleum Geologists Bulletin, 1929, 13(1):31-37.
Stavnes, S. A., A preliminary study of the subsurface temperature distribution in Kansas and its relationship to the geology, M.S. Thesis, University of Kansas, 1982, 311 p.
Straub, C. E., Effect of gravitational compaction on the structure of sedimentary rocks, American Association of Petroleum Geologists Bulletin, 1927, 11(8):889-891.
Strong, M. W., Geothermal phenomena and geological history with special reference to old structures in geothermal equilibrium, Journal Institute Petrol. Tech., 1930, 16:889-901.
Strong, M. W., Bottom-hole temperature measurement, in The science of petroleum, ed. A. E. Dunstan, et al. (London: Oxford University Press, 1938), 1:516-522.
Sugden, W., Structural analysis, and geometrical prediction for change of form with depth, of some Arabian plains-type folds, American Association of Petroleum Geologists Bulletin, 1962, 46(12): 2213-2228.
Taylor, C. H., The granites of Kansas, Southwestern Association of Petroleum Geologists Bulletin, 1917, 1:111-126.
Thom, W. T., Jr., Relation of earth temperatures to buried hills and anticlinal folds, Economic Geology, 1925, 20(6):524-530.
Thom, W. T., Jr., Earth temperatures, buried hills, and anticlinal folds (discussion), Economic Geology, 1927, 22(1):91-94.
Twenhofel, W. H., Significance of some of the surface structures of central and western Kansas, American Association of Petroleum Geologists Bulletin, 1925, 9(7): 1061-1070.
Van Orstrand, C. E., A possible dependence of deep earth temperatures on geologic structure (abstract), Washington Academy of Sciences Journal, 1926, 16(18):503.
Van Orstrand, C. E., On the flow of heat from a rock stratum in which heat is being generated, Washington Academy of Sciences Journal, 1932, 22(20,21):529-539.
Van Orstrand, C. E., Some possible applications of geothermics to geology, American Association of Petroleum Geologists Bulletin, 1934a, 18(1):13-38.
Van Orstrand, C. E., Temperature gradients, in Problems of petroleum geology (Tulsa, OK: American Association of Petroleum Geologists, 1934b), 989-1021.
Van Orstrand, C. E., Normal geothermal gradient in United States, American Association of Petroleum Geologists Bulletin, 1935, 19(1):78-115.
Van Orstrand, C. E., Temperature of the Earth in relation to oil location, in temperature, its measurement and control in science and industry (New York: Reinhold Publishing Co., 1941), 1014-1033.
Velinov, T., and K. Bojadgieva, Geothermal investigations in oil-bearing fields, in Geothermics and geothermal energy, ed. V. çermák and R. Haenel (Stuttgart: E. Schweizerbart'sche Verlagsbuchhandlung, 1982), 169-174.
Washburne, C. W., Relation of earth temperatures to buried hills and anticlinal folds (discussion), Economic Geology, 1926, 21(4):397-399.
Weller, J. M., Compaction of sediments, American Association of Petroleum Geologists Bulletin, 1959, 43(2):273-310.
Werner, H., Geothermotics [sic] as a means of locating petroleum deposits, The Petroleum Times (London), April 19, 1930, 23:713-714.