An anachronistic Clarkforkian mammal fauna from the Paleocene Fort Union Formation (Great Divide Basin, Wyoming, USA)
DOI:
https://doi.org/10.1344/105.000000274Keywords:
Clarkforkian, Paleocene-Eocene boundary, Paleoclimatology, Global warmingAbstract
The Clarkforkian (latest Paleocene) North American Land Mammal Age (NALMA) remains a relatively poorly sampled biostratigraphic interval at the close of the Paleocene epoch that is best known from the Bighorn Basin of northwestern Wyoming. A period of global warming between the cooler early and middle Paleocene and the extreme warming of the early Eocene, the Clarkforkian witnessed significant floral and faunal turnover with important ramifications for the development of Cenozoic biotas. The combination of warming global climates with mammalian turnover (including likely intercontinental dispersals) marks the Clarkforkian and the succeeding Wasatchian (Earliest Eocene) NALMAs as periods of intense interest to paleobiologists and other earth scientists concerned with aspects of biostratigraphy and with the biotic effects of climate change in the past. In this paper we describe a new Clarkforkian mammalian fauna from the Great Divide Basin of southwestern Wyoming with some surprising faunal elements that differ from the typical suite of taxic associations found in Clarkforkian assemblages of the Bighorn Basin. Several different scenarios are explored to explain this “anachronistic” assemblage of mammals from southern Wyoming in relation to the typical patterns found in northern Wyoming, including the concepts of basin-margin faunas, latitudinal and climatic gradients, and a chronologically transitional fauna. We suggest that the observed faunal and biostratigraphic differences between southern and northern Wyoming faunas most likely result from latitudinal and associated climatic differences, with floral and faunal changes being reflected somewhat earlier in the south during this period of marked climate change.
References
Alroy, J., Koch, P., Zachos, J., 2000. Global climate change and North American mammalian evolution. Paleobiology, 26, 259-288.
Anemone, R., Johnson, E., Nachman, B., Over, D., 2000. A new Clarkforkian primate fauna from the Great Divide Basin, SW Wyoming. American Journal of Physical Anthropology, Suppl. 30, p. 97.
Anemone, R., Johnson, E., Rubick, C., 1999. Primates and other mammals from the Great Divide Basin, SW Wyoming: Systematics, geology, and chronology. American Journal of Physical Anthropology, Suppl. 28, p. 84.
Archibald, J., Clemens, W., Gingerich, P., Krause, D., Lindsay, E., Rose, K., 1987. First North American land mammal ages of the Cenozoic era. In: Woodburne, M. (ed.). Cenozoic Mammals of North America. Berkeley, University of California Press, 24-76.
Aubry, M.P., Lucas, S., Berggren, W. (eds.), 1998. Late Paleocene-Early Eocene Climatic and Biotic Events in the Marine and Terrestrial Records. New York, Columbia University Press, 513 pp.
Beard, K.C., 1998. East of Eden: Asia as an important center of taxonomic origination in mammalian evolution. In: Beard, K.C., Dawson, M. (eds.). Dawn of the Age of Mammals in Asia. Pittsburgh, Bulletin of Carnegie Museum of Natural History, 34, 5-39.
Beard, K.C., Dawson, M. (eds.), 1998. Dawn of the Age of Mammals in Asia. Pittsburgh, Bulletin of the Carnegie Museum of Natural History, 34, 348 pp.
Beard, K.C., Dawson, M., 1999. Intercontinental dispersal of Holarctic land mammals near the Paleocene/Eocene boundary: Paleogeographic, paleoclimatic and biostratigraphic implications. Bulletin de la Société Géologique de France, 170, 697-706.
Black, C.C., 1967. Middle and late Eocene mammal communities: A major discrepancy. Science, 156, 62-64.
Bloch, J.I., Gingerich, P.D., 1998. Carpolestes simpsoni, new species (Mammalia, Proprimates) from the late Paleocene of the Clark’s Fork Basin, Wyoming. The University of Michigan, Contributions from the Museum of Paleontology, 30, 131-162.
Bowen, G.J., Alroy, J., Tsubamoto, T., Wang, Y., Clyde, W.C., Koch, P.L., Ting, S., 2002. Mammalian dispersal at the Paleocene/Eocene boundary. Science, 295, 2062-2065.
Clyde, W.C., Gingerich, P.D., 1998. Mammalian community response to the latest Paleocene thermal maximum: an isotaphonomic study in the northern Bighorn Basin, Wyoming. Geology, 26, 1011-1014.
Cornette, J., Lieberman, B., Goldstein, R., 2002. Documenting a significant relationship between macroevolutionary origination rates and Phanerozoic pCO2 levels. Proceedings of the National Academy of Science, USA, 99, 7832-7835.
Dukes, J., Mooney, H., 1999. Does global change increase the success of biological invaders? Trends in Ecology and Evolution, 14, 135-139.
Gingerich, P., 1976. Cranial anatomy and evolution of early Tertiary Plesiadapidae (Mammalia, Primates). University of Michigan Papers, on Paleontology, 15, 1-141.
Gingerich, P., 2003. Mammalian responses to climate change at the Paleocene-Eocene boundary: Polecat Bench record in the northern Bighorn Basin, Wyoming. In: Wing, S., Gingerich, P., Schmitz, B., Thomas, E. (eds.). Causes and Consequences of Globally Warm Climate in the Early Paleogene. Boulder, Geological Society of America, Special Paper, 369, 463-478.
Granger, W., 1914. On the names of lower Eocene faunal horizons of Wyoming and New Mexico. Bulletin of the American Museum of Natural History, 33, 201-207.
Gunnell, G., 1998. Mammalian faunal composition and the Paleocene/Eocene Epoch/Series boundary: evidence from the northern Bighorn Basin, Wyoming. In: Aubry, M.P., Lucas, S., Berggren, W.A. (eds.). Late Paleocene-Early Eocene Climatic and Biotic Events in the Marine and Terrestrial Records. New York, Columbia University Press, 409-427.
Gunnell, G., Bartels, W., 2001. Basin margins, biodiversity, evolutionary innovation, and the origin of new taxa. In: Gunnell, G. (ed.). Eocene Biodiversity: Unusual Occurrences and Rarely Sampled Habitats. New York, Kluher Academic/Plenum Publishers, 403-432.
Hellberg, M., Balch, D., Roy, K., 2001. Climate-driven range expansion and morphological evolution in a marine gastropod. Science, 292, 1707-1710.
Hooker, J., 1998. Mammalian faunal change across the Paleocene-Eocene transition in Europe. In: Aubry, M.P., Lucas, S.G., Berggren, W.A. (eds.). Late Paleocene-Early Eocene Climatic and Biotic Events in the Marine and Terrestrial Records. New York, Columbia University Press, 428-450.
Hooker, J., 2000. Paleogene mammals: crises and ecological change. In: Culver, S., Rawson, P. (eds.). Biotic Response to Global Change: The Last 145 Million Years. Cambridge, Cambridge University Press, 333-349.
Hooker, J., Dashzeveg, D., 2003. Evidence for direct mammalian faunal interchange between Europe and Asia near the Paleocene-Eocene boundary. In: Wing, S., Gingerich, P.D., Schmitz, B., Thomas, E. (eds.). Causes and Consequences of Globally Warm Climates in the Early Paleogene. Geological Society of America, Special Paper, 369, 479-500.
Huber, B., MacLeod, K., Wing, S. (eds.), 2000. Warm Climates in Earth History. Cambridge, Cambridge University Press, 462 pp.
Janis, C., 1993. Tertiary mammal evolution in the context of changing climates, vegetation, and tectonic events. Annual Review of Ecology and Systematics, 24, 467-500.
Jepsen, G., 1930. Stratigraphy and paleontology of the Paleocene of Northeastern Park County, Wyoming. Proceedings of the American Philosophical Society, 69, 463-528.
Jepsen, G., 1940. Paleocene faunas of the Polecat Bench formation, Park County, Wyoming. Proceedings of the American Philosophical Society, 83, 217-331.
Lofgren, D., Lillegraven, J., Clemens, W., Gingerich, P., Williamson, T., 2004. Paleocene biochronology: The Puercan through Clarkforkian Land Mammal Ages. In: Woodburne, M. (ed.). Late Cretaceous and Cenozoic Mammals of North America: Biostratigraphy and Geochronology. New York, Columbia University Press, 43-105.
Love, J., Christianson, A., 1985. Geological Map of Wyoming, U.S. Geological Survey. Mercer, J., Roth, V., 2003. The effects of Cenozoic global change on squirrel phylogeny. Science, 299, 1568-1572.
Pounds, J., Bustamante, M.R., Coloma, L.A., Consuegra, J.A., Fogden, M.P.L., Foster, P.N., La Marca, E., Masters, K.L., Merino-Viteri, A., Puschendorf, R., Ron, S.R., SánchezAzofeifa, G.A., Still, C.J., Young, B.E., 2006. Widespread amphibian extinctions from epidemic disease driven by global warming. Nature, 439, 161-167.
Raia, P., Piras, P., Kotsakis, T., 2005. Turnover pulse or Red Queen? Evidence from the large mammal communities during the Plio-Pleistocene of Italy. Palaeogeography, Palaeoclimatology, Palaeoclimatology, 221, 293-312.
Robinson, P., Black, C.C., Dawson, M.R., 1964. Late Eocene multituberculates and other mammals from Wyoming. Science, 145, 809-811.
Robinson, P., Gunnell, G., Walsh, S., Clyde, W., Storer, J., Stucky, R., Froehlich, D., Ferrusquia-Villafranca, I., McKenna, M., 2004. Wasatchian through Duchesnean biochronology. In: Woodburne, M. (ed.). Late Cretaceous and Cenozoic Mammals of North America: Biostratigraphy and Geochronology. New York, Columbia University Press, 106-155.
Root, T., Price, J., Hall, K., Schneider, S., Rosenzweig, C., Pounds, A., 2003. Fingerprints of global waming on wild animals and plants. Nature, 421, 57-60.
Rose, K., 1981. The Clarkforkian land mammal age and mammalian faunal composition across the Paleocene-Eocene boundary. University of Michigan, Papers on Paleontology, 26, 1-197.
Sinclair, W.J., Granger, W., 1912. Notes on the Tertiary deposits of the Bighorn Basin. Bulletin of the American Museum of Natural History, 31, 57-67.
Smith, T., Rose, K.D., Gingerich, P.D., 2006. Rapid AsiaEurope-North America geographic dispersal of earliest Eocene primate Teilhardina during the Paleocene-Eocene Thermal Maximum. Proceedings of the National Academy of Sciences, 103, 11223-11227.
Stenseth, N., Mysterud, A., Ottersen, G., Hurrell, J., Chan, K., Lima, M., 2002. Ecological effects of climate fluctuations. Science, 297, 1292-1296.
Sullivan, R., 1980. A stratigraphic evaluation of the Eocene rocks of southwestern Wyoming. Laramie. The Geological Survey of Wyoming, p. 50.
Thomas, C., Franco, A., Hill, J., 2006. Range retractions and extinction in the face of climate warming. Trends in Ecology and Evolution, 21, 415-416.
Vrba, E., 1993. Turnover-pulses, the red queen, and related topics. American Journal of Science, 293, 418-452.
Vrba, E., 1995. On the connections between paleoclimate and evolution. In: Vrba, E., Denton, G., Partridge, T., Burckle, L., (eds.). Paleoclimate and Evolution, With Emphasis on Human Origins. New Haven, Yale University Press, 24-45.
Vrba, E., 1996. Climate and human evolution. Journal of Anthropological Research, 52, 1-28.
Vrba, E., Denton, G., Partridge, T., Burckle, L. (ed.), 1995. Paleoclimate and Evolution, With Emphasis on Human Origins. New Haven, Yale University Press, 547 pp.
Walther, G., Post, E., Convey, P., Menzel, A., Parmesani, C., Beebee, T., Fromentin, J., Hoegh-Guldberg, O., Bairlein, F., 2002. Ecological responses to recent climate change. Nature, 416, 389-395.
Wilf, P., Beard, K.C., Davies-Vollum, K.S., Norejko, J.W., 1998. Portrait of a late Paleocene (Early Clarkforkian) terrestrial ecosystem: Big Multi Quarry and associated strata, Washakie Basin, Southwestern Wyoming. Palaios, 13, 514-532.
Wing, S., Gingerich, P., Schmitz, B., Thomas, E. (eds.), 2003. Causes and Consequences of Globally Warm Climate in the Early Paleogene. Boulder, Geological Society of America Special Paper, 369, 614 pp.
Wood, H., Chaney, R., Clark, J., Cobert, E., Jepsen, G., Reeside, J., Stock, C., 1941. Nomenclature and correlation of the North American continental Tertiary. Bulletin of the Geological Society of America, 52, 1-48.
Wood, R., 1967. A review of the Clark Fork vertebrate fauna. Breviora, 257, 1-30.
Woodburne, M., 1987a. Cenozoic Mammals of North America. Berkeley, University of California Press, 391 pp.
Woodburne, M., 1987b. Introduction. In: Woodburne, M. (ed.). Cenozoic Mammals of North America: Geochronology and Biostratigraphy. Berkeley, University of California Press, 1-8.
Woodburne, M., 1987c. Principles, classification, and recommendations. In: Woodburne, M. (ed.). Cenozoic Mammals of North America: Geochronology and Biostratigraphy. Berkeley, University of California Press, 9-17.
Woodburne, M., 1987d. Mammal ages, stages, and zones. In: Woodburne, M. (ed.). Cenozoic Mammals of North America: Geochronology and Biostratigraphy. Berkeley, University of California Press, 18-23.
Woodburne, M., 2004. Late Cretaceous and Cenozoic Mammals of North America. Biostratigraphy and Geochronology. New York, Columbia University Press, 391 pp.
Zack, S., Penkrot, T., Krause, D., Maas, M., 2005. A new apheliscine “condylarth” mammal from the late Paleocene of Montana and Alberta and the phylogeny of “hyopsodontids”. Acta Palaeontologica Polonica, 50, 809-830.
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