Hostname: page-component-cd9895bd7-jkksz Total loading time: 0 Render date: 2024-12-26T19:13:35.152Z Has data issue: false hasContentIssue false

Climatic Implications of Alternating Clay and Carbonate Formation in Semiarid Soils of South-Central Montana

Published online by Cambridge University Press:  20 January 2017

Abstract

Evidence for climatic change is found in petrographic thin sections from soils formed on glaciofluvial deposits of Rock Creek and the lower Clarks Fork, Montana. These soils, presently in a semiarid climate, range from late Pliocene to Holocene in age, and have undergone periodic fluctuations in soil moisture caused by climatic changes. In the lower parts of soil B horizons, accretion of illuvial layers of clay (argillans) occurs mainly during wet (glacial) climatic periods, whereas carbonate precipitates mainly during dry (interglacial) climatic periods. Thin-section studies of the argillan and carbonate layers show that: (1) post-Pinedale soils that have formed only in the present interglacial climate contain areas of secondary carbonate unrelated to argillans, (2) soils formed on outwash of successively older glaciations contain proportionately more alternating layers of argillans and carbonate, and (3) the maximum number and sequence of layers in a soil correspond to the number of local cycles of glacial-outwash deposition and subsequent stream incision that followed the beginning of soil formation. These cycles are inferred to correspond to local glacial-interglacial fluctuations. The correspondence between the microscopic record and the glacial-outwash record for Rock Creek suggests that some of the climatic changes seen in the marine oxygen-isotope record did not strongly affect the study area.

Type
Research Article
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Allen, B.L. Goss, D.W., (1974). Micromorphology of paleosols from the semiarid Southern High Plains of Texas Rutherford, G.K. Soil Microscopy: Proceedings of the 4th International Working Meeting on Soil Micromorphology Limestone Press Kingston, Ontario 511525 Google Scholar
Arkley, R.J., (1963). Calculation of carbonate and water movement in soil from climatic data Soil Science 96, 239248 Google Scholar
Birkeland, P.W., (1984). Soils and Geomorphology Oxford Univ. Press New York Google Scholar
Brewer, R., (1972). The basis of interpretation of soil micromorphological data Geoderma 8, 8194 Google Scholar
El-Tezhani, M.S. Gradusov, B.P. Rubilina, N.Ye. Chizhikova, N.P., (1984). Chemical and mineral composition of the finely dispersed component and microstructure of some soils in Sudan Soviet Soil Science 16, 6 7581 Google Scholar
Gates, W.L., (1976). Modeling the ice-age climate Science 191, 11381144 Google Scholar
Gibbons, A.B. Megeath, J.D. Pierce, K.L., (1984). Probability of moraine survival in a succession of glacial advances Geology 12, 327330 Google Scholar
Gile, L.H., (1975). Holocene soils and soil-geomorphic relations in an arid region of southern New Mexico Quaternary Research 5, 321360 Google Scholar
Gile, L.H. Peterson, F.F. Grossman, R.B., (1966). Morphological and genetic sequences of carbonate accumulation in desert soils Soil Science 101, 347360 Google Scholar
Goss, D.W. Smith, S.J. Stewart, B.A., (1973). Movement of added clay through calcareous materials Geoderma 9, 97103 Google Scholar
Harmon, R.S., (1981). Paleoclimatic information from isotopic studies of speleothems: A review Mahaney, W.C. Quaternary Paleoclimate GeoAbstracts Norwich 299318 Google Scholar
Holliday, V.T., (1985). Early and middle Holocene soils at the Lubbock Lake archeological site, Texas Catena 12, 6178 Google Scholar
Izett, G.A., (1981). Volcanic ash beds: Recorders of upper Cenozoic silicic pyroclastic volcanism in the western United States Journal of Geophysical Research 86, 10,20010,222 Google Scholar
Jenny, H. Leonard, C.D., (1939). Functional relationships between soil properties and rainfall Soil Science 38, 363381 Google Scholar
Mahaney, W.C., (1981). Paleoclimate reconstructed from paleosols: Evidence from the Rocky Mountains and East Africa Mahaney, W.C. Quaternary Paleoclimate GeoAbstracts Norwich 227247 Google Scholar
McFadden, L.D. Tinsley, J.C., (1985). The rate and depth of pedogenic carbonate accumulation in soils—Formulation and testing of a compartment model Weide, D.L. Soils and Quaternary Geomorphology of the Southwestern United States Geological Society of America Special Paper 203 2341 Google Scholar
Mears, B. Jr. (1981).Periglacial wedges and the late Pleistocene environment of Wyoming's intermontane basins Quaternary Research 15, 171198 Google Scholar
Mermut, A. Jongerius, A., (1980). A micromorphological analysis of regrouping phenomena in some Turkish soils Geoderma 24, 159175 Google Scholar
Millot, G. Nahon, D. Paquet, H. Ruellan, A. et al. Tardy, Y., (1977). L'Épigénie calcaire des roches silicatées dans les encroûtements carbonatés en pays subaride Antiatlas, Maroc Sciences Géologiques Bulletin 30, 3 129152 Google Scholar
Pierce, K.L. Obradovitch, J.D. Friedman, I., (1976). Obsidian hydration dating and correlation of Bull Lake and Pinedale glaciations near West Yellowstone, Montana Geological Society of America Bulletin 87, 702710 Google Scholar
Porter, S.C. Pierce, K.L. Hamilton, T.D., (1983). Late Wisconsin mountain glaciation in the western United States Wright, H.E. Porter, S.C. Late-Quaternary Environments of the United States The Late Pleistocene volume 1, Univ. of Minnesota Press Minneapolis 71111 Google Scholar
Reheis, M.C., (1986). Pedogenic replacement of silicate grains by CaCO3 Geological Society of America Abstracts with Programs 18, 2 174 Google Scholar
Reheis, M. C. (in press). “Soils in Granitic Alluvium in Humid and Semiarid Climates along Rock Creek, Carbon County, Montana.” U.S. Geological Survey Bulletin 1590-D.Google Scholar
Ritter, D.F., (1967). Terrace development along the front of the Beartooth Mountains, southern Montana Geological Society of the America Bulletin 78, 467484 Google Scholar
Rutter, N.W. Foscolos, A.E. Hughes, O.L., (1978). Climatic trends during the Quaternary in central Yukon based upon pedological and geomorphological evidence Mahaney, W.C. Quaternary Soils GeoAbstracts Norwich 309359 Google Scholar
Shackleton, N.J. Opdyke, N.D., (1976). Oxygen-isotope and paleomagnetic stratigraphy of Pacific core V28-239, late Pliocene to latest Pleistocene Cline, R.M. Hays, J.D. Investigation of Late Quaternary Paleoceanography and Paleoclimatology Geological Society of America Memoir 145 449464 Google Scholar
Smith, G.I., (1984). Paleohydrologic regimes in the southwestern Great Basin, 0–3.2 my ago, compared with other long records of “global” climate Quaternary Research 22, 117 Google Scholar
Torrent, J. Nettleton, W.D. Borst, G., (1980). Clay illuviation and lamella information in a Psammentic Haploxeralf in southern California Soil Science Society of America Journal 44, 363369 Google Scholar
Walker, D.N., (1982). A late Pleistocene Ovibos from southeastern Wyoming Journal of Paleontology 56, 486491 Google Scholar
Yarilova, E.A., (1964). Comparative micromorphological characteristics of some Solonetz soils of the steppe and semi-desert zones Jongerius, A. Soil Micromorphology Elsevier New York 313323 Google Scholar