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Neogene Expansion of the North American Prairie
Gregory J. Retallack
Vol. 12, No. 4 (Aug., 1997), pp. 380-390
Published by: SEPM Society for Sedimentary Geology
Stable URL: http://www.jstor.org/stable/3515337
Page Count: 11
You can always find the topics here!Topics: Grasses, Fossils, Geology, Grasslands, Soil horizons, Prairie soils, Paleoclimatology, Desert soils, Grassland soils, Mammals
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Neogene paleosols of the Great Plains and central Oregon provide abundant evidence of grasslands of the past. The characteristic surface horizon (mollic epipedon) of grassland soils (Mollisols) can be recognized in paleosols from granular ped structure, abundant fine root traces, dark color, and common carbonate or other easily weatherable minerals. The fossil record of such soils indicates a three-stage evolution of grasslands. Eocene to Oligocene rangelands are represented by paleosols with near-mollic soil structure and fine root traces similar to soils of modern desert grasslands with scattered bunch grasses and shrubs. Paleosols with mollic epipedon and shallow (less than 40 cm down into the profile) calcic horizons are evidence for the appearance of sod-forming short grasslands during the early to middle Miocene. Mollic paleosols with deeper (some 1 m or more) calcic horizons represent tall grasslands and have not been found older than late Miocene. Early stages in the evolution of grassland soils correspond to climatic coolings near the end of the Eocene and middle Miocene. The best understood climatic cooling and drying during the late Miocene (Messinian or 5-7 Ma) is synchronous with the expansion of tall C4 grasslands.
PALAIOS © 1997 SEPM Society for Sedimentary Geology