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Folsom Drought and Episodic Drying on the Southern High Plains from 10,900–10,200 14C yr B.P

Published online by Cambridge University Press:  20 January 2017

Vance T. Holliday*
Affiliation:
Department of Geography, 550 N. Park Street, University of Wisconsin, Madison, Wisconsin, 53706

Abstract

The paleoenvironments of late Pleistocene and early Holocene time on the Southern High Plains have been studied for decades, but regionally extensive or long-term, easily recoverable proxy climate indicators are difficult to find. The stratigraphy of valley fill and upland eolian deposits and stable-carbon isotope data, in addition to geographically limited paleontological data, now provide clues to the environment during this time, which includes the earliest, or Paleoindian period (∼11,200–8000 14C yr B.P.) of human occupation. During the Clovis occupation (∼11,200–10,900 14C yr B.P.), valleys contained perennial streams. This was followed in Folsom time (10,900–10,200 14C yr B.P.) by an abrupt change to lakes and ponds (with water levels fluctuating between several meters depth and no surface water) and marshes and accumulation of sheet sands on uplands, starting the earliest phase of construction of the regional dune fields. These changing conditions indicate a shift from relatively wetter to relatively drier conditions with episodic drought. Stable-C isotopes further indicate that warming characterized the Clovis–Folsom transition. During the rest of the Paleoindian period the environment was relatively cool but fluctuated between wetter and drier conditions with an overall trend toward drying that resulted in further enlargement of the dune fields and culminated in the warm, dry Altithermal beginning ∼8000 14C yr B.P. Clovis time probably was the wettest of any Paleoindian period in terms of runoff and spring discharge. The Folsom period was drier and was the earliest episode of regional wind erosion and eolian deposition and may have been the warmest of Paleoindian times. Evidence of a previously hypothesized “Clovis drought” in this region is sparse.

Type
Research Article
Copyright
University of Washington

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References

Agogino, G.A., Parrish, A., (1971). The Fowler–Parrish site: A Folsom campsite in eastern Colorado. Plains Anthropologist 16, 111114.Google Scholar
Allen, B.D., Anderson, R.Y., (1993). Evidence from western North America for rapid shifts in climate during the last glacial maximum. Science 260, 19201923.CrossRefGoogle ScholarPubMed
Anderson, D.E., (1997). Younger Dryas research and its implications for understanding abrupt climate change. Progress in Physical Geography 21, 230249.CrossRefGoogle Scholar
Benson, L., Burdett, J., Lund, S., Kashgarian, M., Mensing, S., (1997). Nearly synchronous climate change in the Northern Hemisphere during the last glacial termination. Nature 388, 263265.Google Scholar
Berger, W.H., (1990). The Younger Dryas cold spell—A quest for causes. Palaeogeography, Palaeoclimatology, Palaeoecology 89, 219237.Google Scholar
Boldurian, A., (1990). Lithic technology at the Mitchell Locality of Blackwater Draw. Plains Anthropologist Memoir 24, .Google Scholar
Bozarth, S., (1995). Fossil biosilicates. Stratigraphy and Paleoenvironments of Late Quaternary Valley Fills on the Southern High Plains p. 4750.Google Scholar
Broecker, W.S., (1992). Defining the boundaries of the late glacial isotope episodes. Quaternary Research 38, 135138.CrossRefGoogle Scholar
Broecker, W.S., (1995). The Glacial World According to Wally. Eldigio Press, Palisades.Google Scholar
Bryant, V.M. Jr., Schoenwetter, J., (1987). Pollen records from the Lubbock Lake site. Johnson, E., Lubbock Lake: Late Quaternary Studies on the Southern High Plains Texas A&M Univ. Press, College Station.3640.Google Scholar
Bryant, V.M. Jr., Holloway, R.G., Jones, J.G., Carlson, D.L., (1994). Pollen preservation in alkaline soils of the American Southwest. Traverse, A., Sedimentation of Organic Particles Cambridge Univ. Press, New York.4758.CrossRefGoogle Scholar
Cotter, J.L., (1937). The occurrence of flints and extinct animals in pluvial deposits near Clovis, New Mexico, part IV: Report on excavation at the gravel pit, 1936. Proceedings of the Philadelphia Academy of Natural Sciences 90, 216.Google Scholar
Dansgaard, W., White, J.W.C., Johnson, S.J., (1989). The abrupt termination of the Younger Dryas climate event. Nature 339, 532534.Google Scholar
Felch, R.E., (1978). Drought: Characteristics and assessment. Rosenberg, N.J., North American Droughts Westview PressAmerican Association for the Advancement of Science, Boulder.2542.Google Scholar
Fiedel, S.J., (1999). Older than we thought: Implications of corrected dates for Paleoindians. American Antiquity 64, 95115.CrossRefGoogle Scholar
Forman, S.L., Goetz, A.F.H., Yuhas, R.H., (1992). Large-scale stabilized dunes on the High Plains of Colorado: Understanding the landscape response to Holocene climates with the aid of images from space. Geology 20, 145148.2.3.CO;2>CrossRefGoogle Scholar
Forman, S.L., Oglesby, R., Markgraf, V., Stafford, T.W., (1995). Paleoclimatic significance of Late Quaternary eolian deposition on the Piedmont and High Plains, Central United States. Global and Planetary Change 11, 3555.CrossRefGoogle Scholar
Fredlund, G.G., Tieszen, L.L., (1997). Phytolith and carbon isotope evidence for late Quaternary vegetation and climate change in the southern Black Hills, South Dakota. Quaternary Research 47, 206217.CrossRefGoogle Scholar
Frison, G.C., (1991). Prehistoric Hunters of the High Plains. Academic Press, San Diego.Google Scholar
Fritz, W.C., Fritz, B., (1940). Evidence of the Folsom culture in the sand dunes of western Texas. Bulletin of the Texas Archaeological and Paleontological Society 12, 217222.Google Scholar
Green, F.E., (1961). The Monahans Dunes area. Wendorf, F., Paleoecology of the Llano Estacado 2247.Google Scholar
Green, F.E., (1962). The Lubbock Reservoir site. The Museum Journal 6, 83123.Google Scholar
Haas, H., Holliday, V.T., Stuckenrath, R., (1986). Dating of Holocene stratigraphy with soluble and insoluble organic fractions at the Lubbock Lake archaeological site, Texas: An ideal case study. Radiocarbon 28, 473485.CrossRefGoogle Scholar
Hall Pollen, S.A., (1995). Stratigraphy and Paleoenvironments of Late Quaternary Valley Fills on the Southern High Plains. p. 5354.Google Scholar
Hall, S.A., Valastro, S., (1995). Grassland vegetation in the Southern High Plains during the last glacial maximum. Quaternary Research 44, 237245.Google Scholar
Haynes, C.V. Jr., (1975). Pleistocene and Recent stratigraphy. Wendorf, F., Hester, J.J., Late Pleistocene Environments of the Southern High Plains 5796.Google Scholar
Haynes, C.V. Jr., (1991). Geoarchaeological and paleohydrological evidence for a Clovis-age drought in North America and its bearing on extinction. Quaternary Research 35, 438450.Google Scholar
Haynes, C. V. Jr., (1992). Contributions of radiocarbon dating to the geochronology of the peopling of the New World.. In “Radiocarbon After Four Decades: An Interdisciplinary Perspective” (Taylor, R. E., Long, A., Kra, R. S., Eds.), pp. 355374. Springer-Verlag, New York.Google Scholar
Haynes, C.V. Jr., (1993). Clovis–Folsom geochronology and climatic change. Soffer, O., Praslov, N.D., From Kostenki to Clovis: Upper Paleolithic–Paleo-Indian Adaptations Plenum Press, New York.219236.Google Scholar
Haynes, C.V. Jr., (1995). Geochronology of paleoenvironment change, Clovis type site, Blackwater Draw, New Mexico. Geoarchaeology 10, 317388.Google Scholar
Haynes, C.V. Jr., Agogino, G.A., (1966). Prehistoric springs and geochronology of the Clovis site, New Mexico. American Antiquity 31, 812821.Google Scholar
Haynes, C.V. Jr., Beukens, R.P., Jull, A.J.T., Davis, O.K., (1992). New radiocarbon dates for some old Folsom sites: Accelerator technology. Stanford, D.J., Day, J.S., Ice Age Hunters of the Rockies Denver Museum of Natural HistoryUniv. Press of Colorado, Denver.83100.Google Scholar
Haynes, C.V. Jr., McFaul, M., Brunswig, R.H., Hopkins, K.D., (1998). Kersey–Kuner terrace investigations at the Dent and Bernhardt sites, Colorado. Geoarchaeology 13, 201218.3.0.CO;2-8>CrossRefGoogle Scholar
Haynes, C.V. Jr., Stanford, D.J., Jodry, M., Dickenson, J., Montgomery, J.L., Shelley, P.H., Rovner, I., Agogino, G.A., (1999). A Clovis well at the type site 11,500 B.C.: The oldest prehistoric well in America. Geoarchaeology 14, 455470.Google Scholar
Hester, J.J., (1972). Blackwater Locality No. 1: A Stratified Early Man Site in Eastern New Mexico.Google Scholar
Hester, J.J., (1975). Paleoarchaeology of the Llano Estacado. Wendorf, F., Hester, J.J., Late Pleistocene Environments of the Southern High Plains 247256.Google Scholar
Holliday, V.T., (1985). Archaeological geology of the Lubbock Lake site, Southern High Plains of Texas. Geological Society of America Bulletin 96, 14831492.Google Scholar
Holliday, V.T., (1987). Re-examination of late-Pleistocene boreal forest reconstructions for the Southern High Plains. Quaternary Research 28, 238244.Google Scholar
Holliday, V.T., (1987). Geoarchaeology and late Quaternary geomorphology of the middle South Platte River, northeastern Colorado. Geoarchaeology 2, 317329.Google Scholar
Holliday, V.T., (1989). Middle Holocene drought on the Southern High Plains. Quaternary Research 31, 7482.CrossRefGoogle Scholar
Holliday, V.T., (1995). Stratigraphy and Paleoenvironments of Late Quaternary Valley Fills on the Southern High Plains.CrossRefGoogle Scholar
Holliday, V.T., (1995). Late Quaternary stratigraphy of the Southern High Plains. Johnson, E., Ancient Peoples and Landscapes Museum of Texas Tech Univ, Lubbock.289313.Google Scholar
Holliday, V.T., (1997). Paleoindian Geoarchaeology of the Southern High Plains. Univ. of Texas Press, Austin.Google Scholar
Holliday, V.T., (1997). Origin and evolution of lunettes on the High Plains of Texas and New Mexico. Quaternary Research 47, 5469.Google Scholar
Holliday, V. T., Gustavson, T. C., (1991). Quaternary stratigraphy and soils of the Southern High Plains.. In Quaternary Nonglacial Geology: Conterminous United States (Morrison, R. B., Ed.), pp. 479484. Geological Society of America Centennial Special VolumeK-2.Google Scholar
Holliday, V.T., Meltzer, D.J., (1996). Geoarchaeology of the Midland (Paleoindian) site, Texas. American Antiquity 61, 755771.Google Scholar
Holliday, V.T., Haynes, C.V. Jr., Hofman, J.L., Meltzer, D.J., (1994). Geoarchaeology and geochronology of the Miami (Clovis) site, Southern High Plains of Texas. Quaternary Research 41, 234244.Google Scholar
Holliday, V.T., Hovorka, S.D., Gustavson, T.C., (1996). Lithostratigraphy and geochronology of fills in small playa basins on the Southern High Plains. Geological Society of America Bulletin 108, 953965.2.3.CO;2>CrossRefGoogle Scholar
Holliday, V.T., Johnson, E., Haas, H., Stuckenrath, R., (1983). Radiocarbon ages from the Lubbock Lake site, 1950–1980: Framework for cultural and ecological change on the Southern High Plains. Plains Anthropologist 28, 165182.Google Scholar
Holliday, V.T., Johnson, E., Haas, H., Stuckenrath, R., (1985). Radiocarbon ages from the Lubbock Lake site, 1981–1984. Plains Anthropologist 30, 277291.Google Scholar
Holliday, V.T., Johnson, E., Stafford, T.W., (1999). AMS radiocarbon dating of the type Plainview and Firstview (Paleoindian) assemblages. American Antiquity .Google Scholar
Howard, E.B., (1935). Evidence of Early Man in North America. The Museum Journal, University of Pennsylvania Museum 24, 61175.Google Scholar
Humphrey, J.D., Ferring, C.R., (1994). Stable isotopic evidence for latest Pleistocene and Holocene climatic change in north-central Texas. Quaternary Research 41, 200213.Google Scholar
Johnson, E., (1986). Late Pleistocene and early Holocene paleoenvironments on the Southern High Plains (USA). Geographie Physique et Quaternaire 40, 249261.Google Scholar
Johnson, E., Paleoenvironmental overview. Johnson, E., Lubbock Lake: Late Quaternary Studies on the Southern High Plains (1987). Texas A&M Univ. Press, College Station.9099.Google Scholar
Johnson, E., (1987). Lubbock Lake: Late Quaternary Studies on the Southern High Plains. Texas A&M Univ. Press, College Station.Google Scholar
Johnson, E., (1987). Vertebrate remains. Johnson, E., Lubbock Lake: Late Quaternary Studies on the Southern High Plains Texas A&M Univ. Press, College Station.4989.Google Scholar
Johnson, E., Holliday, V.T., (1986). The Archaic record at Lubbock Lake. Plains Anthropologist Memoir 21, 754.Google Scholar
Kelly, E.F., Yonker, C., Marino, B., (1993). The stable carbon isotope composition of paleosols: And application to the Holocene. Geophysical Monographs 78, 233239.Google Scholar
Kelly, E.F., Blecker, S.W., Yonker, C.M., Olson, C.G., Wohl, E.E., Todd, L.C., (1998). Stable isotope composition of soil organic matter and phytoliths as paleoenvironmental indicators. Geoderma 82, 5981.Google Scholar
Loope, D.B., Swinehart, J.B., Mason, J.P., (1995). Dune-dammed paleovalleys of the Nebraska Sand Hills: Intrinsic versus climatic controls on the accumulation of lake and marsh sediments. Geological Society of America Bulletin 107, 396406.Google Scholar
Lundelius, E.L. Jr., (1972). Vertebrate Remains from the Gray Sand. Blackwater Locality No. 1: A Stratified Early Man Site in Eastern New Mexico p. 148163.Google Scholar
Madole, R.F., (1995). Spatial and temporal patterns of late Quaternary eolian deposition, eastern Colorado, U.S.A. Quaternary Science Reviews 14, 155177.CrossRefGoogle Scholar
Mainguet, M., (1999). Aridity: Droughts and Human Development. Springer, New York.Google Scholar
Malde, H.E., (1960). Geological age of the Claypool site, northeastern Colorado. American Antiquity 26, 236243.Google Scholar
Martin, C.W., (1993). Radiocarbon ages on late Pleistocene loess stratigraphy of Nebraska and Kansas, central Great Plains, U.S.A. Quaternary Science Reviews 12, 179188.CrossRefGoogle Scholar
Martin, C.W., Johnson, W.C., (1995). Variation in radiocarbon ages of soil organic matter fractions from late Quaternary buried soils. Quaternary Research 43, 232237.Google Scholar
May, D., Swinehart, J.B., Loope, D.B., Souders, V., (1995). Late Quaternary fluvial and eolian sediments: Loup River basin and the Sand Hills of Nebraska. Flowerday, C.A., Geologic Field Trips in Nebraska and Adjacent parts of Kansas and South Dakota Univ. of Nebraska–LincolnConservation and Survey Division, 1331.Google Scholar
Mayewski, P.A., Meeker, L.D., Whitlow, S., Twickler, M.S., Morrison, M.C., Alley, R.B., Bloomfield, P., Taylor, K., (1993). The atmosphere during the Younger Dryas. Science 261, 195197.Google Scholar
McFaul, M., Traugh, K.L., Smith, G.D., Doering, W., (1994). Geoarchaeologic analysis of South Platte River terraces: Kersey, Colorado. Geoarchaeology 9, 345374.Google Scholar
Meltzer, D.J., (1991). Altithermal archaeology and paleoecology at Mustang Springs, on the Southern High Plains of Texas. American Antiquity 56, 236267.CrossRefGoogle Scholar
Meltzer, D.J., (1995). Modeling the prehistoric response to Altithermal climates on the Southern High Plains. Johnson, E., Ancient Peoples and Landscapes Museum of Texas Tech Univ, Lubbock.349368.Google Scholar
Meltzer, D.J., (1999). Human responses to middle Holocene (Altithermal) climates on the North American Great Plains. Quaternary Research 52, 404416.Google Scholar
Muhs, D.R., Maat, P.B., (1993). The potential response of eolian sands to greenhouse warming and precipitation reduction on the Great Plains of the U.S.A. Journal of Arid Environments 25, 351361.Google Scholar
Muhs, D. R, Aleinikoff, J. N, Stafford, T. W. Jr, Kihl, R, Been, J, Mahan, S. A, Cowherd, S., In press, Late Quaternary loess in northeastern Colorado, I: Age and paleoclimatic significance. Geological Society of America Bulletin. .Google Scholar
Muhs, D.R., Stafford, T.W., Cowherd, S.D., Mahan, S.A., Kihl, R., Maat, P.B., Bush, C.A., Nehring, J., (1996). Origin of the late Quaternary dune fields of northeastern Colorado. Geomorphology 17, 129149.CrossRefGoogle Scholar
Muhs, D.R., Stafford, T.W., Swinehart, J.B., Cowherd, S.D., Mahan, S.A., Bush, C.A., Madole, R.F., Maat, P.B., (1997). Late Holocene eolian activity in the mineralogically mature Nebraska Sand Hills. Quaternary Research 48, 162176.Google Scholar
Muhs, D. R., Swinehart, J. B., Loope, D. B., Aleinikoff, J. N., Been, J., (1999). 200,000 of climate change recorded in eolian sediments of the High Plains of eastern Colorado and western Nebraska.. In Colorado and Adjacent Areas (Lageson, D. R., Lester, A. P., Trudgill, B. D., Eds.), pp. 7191. Geological Society of America Field Guide1.Google Scholar
Neck, R.W., (1995). Molluscan remains. Stratigraphy and Paleoenvironments of Late Quaternary Valley Fills on the Southern High Plains p. 5967.Google Scholar
Nordt, L.C., Bouton, T.W., Hallmark, C.T., Waters, M.R., (1994). Late Quaternary vegetation and climate changes in Central Texas based on the isotopic composition of organic carbon. Quaternary Research 41, 109120.Google Scholar
Pearce, W.M., (1938). A survey of the sand-hill camp sites of Lamb and Bailey Counties. Bulletin of the Texas Archeological and Paleontological Society 8, 184186.Google Scholar
Polyak, V., Williams, M., (1986). Gaines County Paleo-Indian projectile point inventory and analysis. Transactions of the 21st Regional Archeological Symposium for Southeastern New Mexico and Western Texas 2595.Google Scholar
Reed, E.L., (1930). Vegetation of the playa lakes in the Staked Plains of western Texas. Ecology 11, 597600.CrossRefGoogle Scholar
Reider, R.G., (1990). Late Pleistocene and Holocene pedogenic and environmental trends at archaeological sites in plains and mountain areas of Colorado and Wyoming. Lasca, N.P., Donahue, J., Archaeological Geology of North America 335360.Google Scholar
Roberts, F.H.H., (1937). New developments in the problem of the Folsom Complex. Smithsonian Institution Explorations and Field Work in 1936 6774.Google Scholar
Rogers, J.D., Armbruster, J.T., (1990). Low flows and hydrologic droughts. Wolman, M.G., Riggs, H.C., Surface Water Hydrology 121130.Google Scholar
Rowell, C.M., (1971). Vascular plants of the playa lakes of the Texas Panhandle and South Plains. The Southwestern Naturalist 15, 407417.Google Scholar
Sellards, E.H., (1952). Early Man in America. Univ. of Texas Press, Austin.Google Scholar
Sellards, E.H., Evans, G.L., (1960). The Paleo-Indian cultural succession in the Central High Plains of Texas and New Mexico. Wallace, A.F.C., Men and Cultures Univ. of Pennsylvania Press, Philadelphia.639649.Google Scholar
Slaughter, B.H., (1975). Ecological interpretation of the Brown Sand Wedge local fauna. Wendorf, F., Hester, J.J., Late Pleistocene Environments of the Southern High Plains 179192.Google Scholar
Stafford, T.W. Jr., (1981). Alluvial geology and archaeological potential of the Texas Southern High Plains. American Antiquity 46, 548565.Google Scholar
Stock, C., Bode, F.D., (1936). The occurrence of flints and extinct animals in pluvial deposits near Clovis, New Mexico, part III: Geology and vertebrate paleontology of the Quaternary near Clovis, New Mexico. Proceedings of the Philadelphia Academy of Natural Sciences 88, 219241.Google Scholar
Stuiver, M., Grootes, P.M., Braziunas, T.F., (1995). The GISP2 δ18O climate record of the past 16,500 years and the role of the Sun, ocean, and volcanoes. Quaternary Research 44, 341354.Google Scholar
Swinehart, J.B., (1989). Wind-blown deposits. Bleed, A., Flowerday, C., An Atlas of the Sand Hills Univ. of Nebraska–Lincoln, 4356.Google Scholar
Teeri, J.A., Stowe, L.G., (1976). Climatic patterns and the distribution of C4 grasses in North America. Oecologia 23, 112.Google Scholar
Thurmond, J.P., Wyckoff, D.G., (1998). Late Pleistocene dunes along the Dempsey Divide, Roger Mills county, Oklahoma. Current Research in the Pleistocene 15, 139143.Google Scholar
Valero-Garcés, B.L., Laird, K.R., Fritz, S.C., Kelts, K., Ito, E., Grimm, E.C., (1997). Holocene climate in the northern Great Plains inferred from sediment stratigraphy, stable isotopes, carbonate geochemistry, diatoms, and pollen at Moon Lake, North Dakota. Quaternary Research 48, 359369.Google Scholar
Wendorf, F., (1961). Paleoecology of the Llano Estacado.Google Scholar
Wendorf, F., (1970). The Lubbock Subpluvial. Dort, W., Jones, J.K., Pleistocene and Recent Environments of the Central Great Plains Univ. Press of Kansas, Lawrence.2336.Google Scholar
Wendorf, F., Hester, J.J., (1975). Late Pleistocene Environments of the Southern High Plains.Google Scholar
Winsborough, B.M., (1995). Diatoms. Stratigraphy and Paleoenvironments of Late Quaternary Valley Fills on the Southern High Plains p. 6782.Google Scholar
Yu, Z., Eicher, U., (1998). Abrupt climate oscillations during the last deglaciation in central North America. Science 282, 22352238.Google Scholar