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The Miocene macroflora of the northern Ogallala Group, northern Nebraska and southern South Dakota

Published online by Cambridge University Press:  20 May 2016

Mark L. Gabel ,
Douglas C. Backlund  and
Jacob Haffner
Mark L. Gabel
Affiliation:
Department of Biology, Black Hills State University, Spearfish, SD 57799
Douglas C. Backlund
Affiliation:
Department of Game, Fish, and Parks, Pierre, SD 57501
Jacob Haffner
Affiliation:
Department of Biology, Black Hills State University, Spearfish, SD 57799
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Abstract

The results of the first comprehensive paleobotanical survey of the northern portion of the late Miocene Ogallala Group are discussed. Several species of fossilized fruiting structures from vascular plants (Berriochloa, Celtis, Cryptantha, Biorbia, Lithospermum, Eleofimbris, Carex, and Cyperocarpus) in the mid- to late-Miocene are reported. Fewer taxa (12 genera) were found in the South Dakota-northern Nebraska area than have been reported previously (20 genera) from southern Nebraska-Kansas strata in the same formations and approximately the same area of exposures. Sites of Barstovian age near the Kilgore Flora site indicate that grasses were commonly found in the region. The results presented here support the hypothesis that grassland savanna vegetation was widely distributed in the northern Great Plains by the Clarendonian age.

Type
Research Article
Information
Journal of Paleontology , Volume 72 , Issue 2 , March 1998 , pp. 388 - 397
Copyright
Copyright © The Paleontological Society 

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References

Axelrod, D. 1985. Rise of the grassland biome of central North America. Botanical Review, 51:163201.Google Scholar
Backlund, D. C., Gabel, M. L., and Tieszen, L. L. 1991. An environmental gradient in the Tertiary of the Great Plains as indicated by stable carbon isotopes from organic compounds in plant fossils. Proceedings of the South Dakota Academy of Science, 70:99108.Google Scholar
Backlund, D. C., Gabel, M. L., and Tieszen, L. L. 1992. Stable carbon isotope ratios in extant Celtis (Ulmaceae) in the Great Plains with a comparison to fossil Celtis . Proceedings of the South Dakota Academy of Science, 71:7783.Google Scholar
Barbour, E. H. 1925. Hackberry conglomerate. Nebraska State Museum Bulletin, 1:8790.Google Scholar
Barkley, T. M. 1968. Manual of the Flowering Plants of Kansas. Kansas State University Endowment Association, Manhattan, 401 p.Google Scholar
Barkworth, M. E. 1981. Foliar epidermes and taxonomy of North American Stipeae (Gramineae). Systematic Botany, 6:136152.Google Scholar
Barkworth, M. E., and Everett, J. 1986. Evolution in the Stipeae: identification and relationships of its monophyletic taxa, p. 251264 In Soderstrom, T. R., Hilu, K. W., Campbell, C. S., and Barkworth, M. E. (eds.), Grass Systematics and Evolution. Smithsonian Press, Washington, D.C. Google Scholar
Berry, E. W. 1928. Fossil nutlets of the genus Lithospermum. Proceeding of the U.S. National Museum, 73:13.Google Scholar
Boellstorff, J. 1976. Stratigraphic and paleontologic significance of some fission track dates from Nebraska and Texas. Geological Society of America Abstracts with Programs, 8(4):464465.Google Scholar
Bolick, M. R., Corner, R. G., and Voorhies, M. R. 1995. New pollen data evidence from the Kilgore locality, Valentine Formation: additional evidence for savanna vegetation. Geological Society of America Abstracts with Programs, North-Central/South-Central, 27(3):41.Google Scholar
Brooks, B. W. 1928. A new species of fossil hackberry (Celtis) from the “Loup-Fork” Miocene of Philips County, Kansas. Annals of the Carnegie Museum, 18:299304.Google Scholar
Burnett, G. T. 1835. Outlines of Botany. Renshaw, London, 1068 p.Google Scholar
Chaney, R. W. 1925. Notes on two fossil hackberries from the Tertiary of the western United States. Carnegie Institution, Publication 349, p. 5156.Google Scholar
Cockerell, T. D. A. 1909. Fossil Euphorbiaceae, with a note on Saururaceae. Torreya, 9:117119.Google Scholar
Cockerell, T. D. A. 1914. Two new plants from the Tertiary rocks of the West. Torreya, 14:135137.Google Scholar
Cockerell, T. D. A. 1933. The name of a fossil boraginaceous plant. Torreya, 33:15.Google Scholar
Cole, M. M. 1986. The Savannas: Biogeography and Geobotany. Academic Press, New York, 438 p.Google Scholar
Collinson, M. E. 1983. Accumulations of fruits and seeds in three small sedimentary environments in southern England and their paleoecological implications. Annals of Botany, 52:583592.CrossRefGoogle Scholar
Cronquist, A., Takhtajan, A., and Zimmerman, W. 1966. On the higher taxa of Embryobionta. Taxon, 15:129134.CrossRefGoogle Scholar
Darton, N. H. 1899. Preliminary report on the geology and water resources of Nebraska west of the One Hundred and Third Meridian. U.S. Geological Survey Annual Report, 19(4):719785.Google Scholar
Diffendal, R. F. Jr. 1980. The Rush Creek-Lisco structural basin, Garden and Morrill Counties, Nebraska. Transactions of the Nebraska Academy of Science, 8:123130.Google Scholar
Diffendal, R. F. Jr. 1982. Regional implications of the geology of the Ogallala Group (upper Tertiary) of southwestern Morrill County, Nebraska and adjacent areas. Geological Society of America Bulletin, 93:964976.Google Scholar
Diffendal, R. F. Jr. 1983. Megaclasts in alluvial fills from the Ogallala Group (Miocene), Banner, Kimball, and Morrill Counties, Nebraska. University of Wyoming Contributions to Geology, 22:109115.Google Scholar
Diffendal, R. F. Jr. 1984. Comments on the geologic history of the Ogallala Formation in the southern panhandle of Nebraska. Proceedings of the Ogallala Aquifer Symposium 2:194216.Google Scholar
Diffendal, R. F. Jr. 1995. Geology of the Ogallala/High Plains regional aquifer system in Nebraska, p. 6175. In Diffendal, R. F. Jr., and Flowerday, C. A. (eds.), Geologic Field Trips in Nebraska and Adjacent Parts of Kansas and Nebraska. Guidebook 10, Conservation and Survey Division, University of Nebraska, Lincoln.Google Scholar
Diffendal, R. F. Jr., and Voorhies, M. R. 1994. Geologic framework of the Niobrara River drainage basin and adjacent areas in South Dakota generally east of the 100th meridian west longitude and west of the Missouri River. Nebraska Geological Survey Report of Investigations, 9, 13 p.Google Scholar
Diffendal, R. F. Jr., Pabian, R. K., and Thomasson, J. R. 1996. Geologic History of Ash Hollow State Historical Park Nebraska. Conservation and Survey Division, University of Nebraska, Lincoln, Educational Circular 5a, 36 p.Google Scholar
Dix, R. L. 1962. A history of biotic and climatic change within the North American grassland. British Ecological Society Symposium, 4:7189.Google Scholar
Elias, M. K. 1932. Grasses and other plants from the Tertiary rocks of Kansas and Colorado. University of Kansas Science Bulletin, 20:333367.Google Scholar
Elias, M. K. 1942. Tertiary Prairie Grasses and other Herbs from the High Plains. Geological Society of America Special Paper, 41, 176 p.Google Scholar
Elias, M. K. 1946. Taxonomy of Tertiary flowers and herbaceous seeds. American Midland Naturalist, 36:373380.Google Scholar
Elias, T. S. 1980. The Complete Trees of North America. Van Nostrand, New York, 948 p.Google Scholar
Frye, J. C., and Leonard, A. B. 1957. Studies of the Cenozoic geology along eastern margins of Texas High Plains, Armstrong to Howard Counties. University of Texas Bureau of Economic Geology, Report of Investigations, 32, 62 p.Google Scholar
Frye, J. C., and Leonard, A. B. 1959. Correlation of the Ogallala Formation (Neogene) in western Texas with type localities in Nebraska. University of Texas Bureau of Economic Geology, Report of Investigations, 39, 46 p.Google Scholar
Frye, J. C., and Leonard, A. B. 1964. Relation of Ogallala Formation to the southern High Plains in Texas. University of Texas Bureau of Economic Geology, Report of Investigations, 51, 25 p.Google Scholar
Frye, J. C., and Leonard, A. B. 1972. Structure of Ogallala Formation in east-central New Mexico. New Mexico Bureau of Mines and Mineral Resources: Target Exploration Report, E-6:18.Google Scholar
Frye, J. C., Leonard., A. B., and Swineford, A. 1956. Stratigraphy of the Ogallala Formation (Neogene) of northern Kansas. Kansas Geological Survey Bulletin, 118:192.Google Scholar
Gabel, M. L. 1987. A Lithospermum (Boraginaceae) from the Tertiary of South Dakota. American Journal of Botany, 74:16901693.CrossRefGoogle Scholar
Gabel, M. L., and Bich, H. 1988. A range extension for the fossil Eleofimbris (Cyperaceae). Southwestern Naturalist, 33:110112.Google Scholar
Gabel, M. L., Backlund, D. C., and Haffner, J. 1992. Sedge (Cyperaceae) achenes from the late Barstovian of Nebraska. Journal of Paleontology, 66:525529.CrossRefGoogle Scholar
Great Plains Flora Association. 1977. Atlas of the Flora of the Great Plains. Iowa State University Press, Ames, 600 p.Google Scholar
Great Plains Flora Association. 1986. Flora of the Great Plains. University Press of Kansas, Lawrence, 1392 p.Google Scholar
Gregory, J. T. 1942. Pliocene vertebrates from Big Spring Canyon, South Dakota. University of California Publications in Geological Science, 26:307438.Google Scholar
Gregory, J. T. 1971. Speculations on the significance of fossil vertebrates for the antiquity of the Great Plains of North America. Abhandlungen des Hessischen Landesamtes fuer Bodenforschung, 60:6472.Google Scholar
Haffner, J., Gabel, M. L., and Tieszen, L. L. 1990. Stable carbon isotope ratios of Miocene sediments and fossil Celtis (Ulmaceae) and Berriochloa (Gramineae) reproductive structures from the northern Great Plains. Proceedings of the South Dakota Academy of Science, 69:145152.Google Scholar
de Jussieu, A. L. 1789. Genera Plantarum. Viduam Herissant, Paris, 498 p.Google Scholar
Kantak, G. E. 1995. Terrestrial plant communities of the middle Niobrara Valley of Nebraska. Southwestern Naturalist, 40:129138.Google Scholar
Lehmann, J. G. C. 1837. Cryptantha, p. 373. In Don, G. A General History of the Dichamydeous Plants. Volume 4, Part 1, Rivington, London.Google Scholar
Leonard, A. B. 1958. Two new fossil plants from the Pliocene of Northwestern Texas. University of Kansas Science Bulletin, 38:13931403.Google Scholar
Leonard, A. B., and Frye, J. C. 1978. Paleontology of Ogallala Formation, northeastern New Mexico. New Mexico Bureau of Mines and Mineral Resources Circular 161, 21 p.Google Scholar
Leopold, E. B., and Denton, M. F. 1987. Comparative age of the grassland and steppe east and west of the northern Rocky Mountains. Annals of the Missouri Botanical Garden, 74:841867.Google Scholar
Leopold, E. B., Liu, G., and Clay-Poole, S. 1992. Low biomass vegetation in the Oligocene? p. 399420. In Prothero, D. R. and Bergren, W. A. (eds.), Eocene-Oligocene Climate and Biotic Evolution. Princeton University Press, Princeton, New Jersey.CrossRefGoogle Scholar
Lindley, J. 1833. Nixus Plantarum. Ridgeway, London, 28 p.Google Scholar
Linnaeus, C. 1753. Species Plantarum. Laurentii Salvii, Stockholm, 1043 p.Google Scholar
MacGinitie, H. D. 1962. The Kilgore flora, a late Miocene flora from northern Nebraska. University of California Publications in Geological Science, 35:67158.Google Scholar
Martin, J. E. (ed.). 1985. Fossiliferous Cenozoic deposits of western South Dakota and northwestern Nebraska. Dakoterra, 2, 367 p.Google Scholar
Mirbel, C. F. B. 1815. Éléments Physical et Végétale de Botanique. Dufart, Paris, 905 p.Google Scholar
Pax, F. 1906. Beitrage zur fossilen Flora der Karpathen. Botanische Jahrbuch, 38:272321.Google Scholar
Retallack, G. J. 1983. A paleopedological approach to the interpretation of terrestrial sedimentary rocks: the mid-Tertiary fossil soils of Badlands National Park, South Dakota. Geological Society of America Bulletin, 94:823840.Google Scholar
Ruleaux, F., and Gabel, M. L. 1989. An analysis of epidermal cells of extant Lithospermum (Boraginaceae) nutlets and a comparison to fossil specimens. Proceedings of the South Dakota Academy of Science, 67:137.Google Scholar
Segal, R. H. 1966a. Taxonomic study of the fossil species of the genus Cryptantha (Boraginaceae). Southwestern Naturalist, 11:205210.Google Scholar
Segal, R. H. 1966b. Biorbia (Boraginaceae) in the central U.S. Pliocene. University of Kansas Science Bulletin, 46:495508.Google Scholar
Segal, R. H. 1966c. A review of some Tertiary endocarps of Celtis (Ulmaceae). Southwestern Naturalist, 11:211216.Google Scholar
Skinner, M. F., Skinner, S. M., and Gooris, R. J. 1968. Cenozoic rocks and faunas of Turtle Butte, south-central South Dakota. Bulletin of the American Museum of Natural History, 138:379436.Google Scholar
Skinner, M. F., and Johnson, F. W. 1984. Tertiary stratigraphy and the Frick Collection of fossil vertebrates from north-central Nebraska. Bulletin of the American Museum of Natural History, 178:215368.Google Scholar
Stansbury, H. 1852. Exploration and Survey of the Valley of the Great Salt Lake Including a Reconnaissance of a New Route Through the Rocky Mountains. Lippincott, Philadelphia, 487 p.Google Scholar
Swinehart, J. B., Souders, V. L., Degraw, H. M., and Diffendal, R. F. Jr. 1985. Cenozoic paleogeography of western Nebraska, p. 209229. In Flores, R. M. and Kaplan, S. S. (eds.), Cenozoic Paleogeography of West-Central United States. Society of Economic Paleontologists and Mineralogists, Rocky Mountain Section, Paleogeography Symposium, 3.Google Scholar
Tedford, R. H., Galusha, T., Skinner, M. F., Taylor, B. E., Fields, R. W., MacDonald, J. R., Rensberger, J. M., Webb, S. D., and Whistler, D. P. 1987. Faunal succession and biochronology of the Arikareean through Hemphillian interval (late Oligocene through earliest Pliocene epochs) in North America, p. 153210. In Woodburne, M. O., (ed.), Cenozoic Mammals of North America: Geochronology and Biostratigraphy. University of California Press, Berkeley.Google Scholar
Thomasson, J. R. 1976. Cyperacites richardsii (Cyperaceae), a new fossil plant from the Pliocene of western Kansas. American Midland Naturalist, 95:239242.Google Scholar
Thomasson, J. R. 1977. Late Cenozoic grasses, borages, and hackberries from southwestern Nebraska. University of Wyoming Contributions to Geology, 16:3943.Google Scholar
Thomasson, J. R. 1978. Epidermal patterns of the lemma in some fossil and living grasses and their phylogenetic significance. Science, 199:975977.Google Scholar
Thomasson, J. R. 1979. Late Cenozoic grasses and other angiosperms from Kansas, Nebraska, and Colorado: biostratigraphy and relationships to living taxa. Kansas Geological Survey Bulletin, 218, 68 p.Google Scholar
Thomasson, J. R. 1980a. Paleoeriocoma (Gramineae: Stipeae) from the Miocene of Nebraska: taxonomic and phylogenetic significance. Systematic Botany, 5:233240.Google Scholar
Thomasson, J. R. 1980b. Archaeoleersia nebraskensis gen. et sp. nov. (Gramineae-Oryzeae), a new fossil grass from the late Tertiary of Nebraska. American Journal of Botany 67:876882.Google Scholar
Thomasson, J. R. 1983. Carex graceii sp. n., Cyperocarpus eliasii sp. n. Cyperocarpus terrestris sp. n., and Cyperocarpus pulcherrima sp. n. (Cyperaceae) from the Miocene of Nebraska. American Journal of Botany, 70:435450.Google Scholar
Thomasson, J. R. 1985. Tertiary fossil plants found in Nebraska. National Geographic Society Research Report, 19:553564.Google Scholar
Thomasson, J. R. 1987. Late Miocene plants from northeastern Nebraska. Journal of Paleontology, 61:10651079.Google Scholar
Thomasson, J. R. 1990. A Late Miocene (Late Early Hemphillian) biota from northwestern Kansas. National Geographic Research 6:231244.Google Scholar
Thomasson, J. R. 1991. Fossil plants from the Late Miocene Ogallala Formation of central North America: possible paleoenvironmental and biostratigraphic significance, p. 99114. In Gustavson, T. C. (ed.), Geologic Framework and Regional Hydrology: Upper Cenozoic Blackwater Draw and Ogallala Formations, Great Plains. Bureau of Economic Geology University of Texas, Austin.Google Scholar
Thomasson, J. R., Nelson, M. E., and Zakrzewski, R. J. 1986. A fossil grass (Gramineae: Chloridoideae) from the Miocene with Kranz anatomy. Science, 233:876878.Google Scholar
Van Bruggen, T. 1996. The vascular plants of South Dakota. University of South Dakota, Vermillion, 293 p.Google Scholar
Voorhies, M. R., and Thomasson, J. R. 1979. Fossil grass anthoecia within Miocene rhinoceros skeletons: direct evidence of diet in an extinct species. Science, 206:331333.Google Scholar
Webb, S. D. 1977. A history of savanna vertebrates in the New World. I: North America. Annual Review of Ecology and Systematics, 8:355380.Google Scholar
Webb, S. D., and Opdyke, N. D. 1995. Global climatic influence on Cenozoic land mammal faunas, p. 184208. In National Research Council. Effects of Past Global Change on Life. National Academy Press, Washington, D. C. Google Scholar
Wolfe, J. A. 1978. A paleobotanical interpretation of Tertiary climates in the northern hemisphere. American Scientist, 66:694703.Google Scholar
Wolfe, J. A. 1985. Distribution of major vegetational types during the Tertiary, p. 357375. In Sundquist, E. T. and Broecker, W. S. (eds.), The Carbon Cycle and Atmospheric CO2 American Geophysical Union Monograph 32.Google Scholar