Abstract
The mid-continent of North America has experienced dramatic and abrupt climate change during the Holocene, but the response of grassland vegetation to past climate change has been difficult to quantify. To improve interpretation of tallgrass prairie vegetation from pollen assemblages, we acquired and analysed a surface sample set collected from 25 small ponds (less than 10 ha surface area) in the largest contiguous remnant of tallgrass prairie in the USA. We compared these tallgrass prairie assemblages to 476 modern pollen samples classified as “prairie” in the North American Surface Sample database. We then compared the surface pollen assemblages with fossil pollen assemblages from sediment cores at two sites in Kansas—Cheyenne Bottoms and Muscotah Marsh—using the modern analog technique. Pollen assemblages in the Flint Hills surface samples were very similar to each other, with an average squared chord distance of 0.19. They were different than other modern grassland pollen assemblages mainly due to higher percentages of pollen from six woody taxa: Carya, Cornus, Juniperus, Juglans, Maclura, and Platanus. Arboreal pollen percentages ranged from 17 to 62 % and did not correlate with woody cover among sites. Cheyenne Bottoms was open grassland for the past 25,000 years, but it did not have many tallgrass prairie analogs. Muscotah Marsh did not have many grassland analogs over the past 30,000 years, possibly due to its position on the prairie-forest border or its surrounding wetland vegetation.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Briggs JM, Knapp AK, Blair JM, Heisler JL, Hoch GA, Lett MS, McCarron JK (2005) An ecosystem in transition. Causes and consequences of the conversion of mesic grassland to shrubland. Bioscience 55:243–254
Cordova CE, Johnson WC, Mandel R, Palmer M (2011) Late Quaternary environmental change inferred from phytoliths and other soil-related proxies: case studies from the central and southern Great Plains, USA. Catena 85:87–108
Duffin KI, Bunting MJ (2008) Relative pollen productivity and fall speed estimates for southern African savanna taxa. Veget Hist Archaeobot 17:507–525
Ellis EC, Goldewijk KK, Siebert S, Lightman D, Ramankutty N (2010) Anthropogenic transformation of the biomes, 1700 to 2000. Glob Ecol Biogeogr 19:589–606
Fægri K, Kaland PE, Kzywinski K (eds) (1989) Textbook of pollen analysis, 4th edn. Wiley, Chichester
Faison EK, Foster DR, Oswald WW, Hansen BCS, Doughty E (2006) Early Holocene openlands in southern New England. Ecology 87:2,537–2,547
Fredlund GG (1995) Late Quaternary pollen record from Cheyenne Bottoms, Kansas. Quat Res 43:67–79
Gavin DG, Oswald WW, Wahl ER, Williams JW (2003) A statistical approach to evaluating distance metrics and analog assignments for pollen records. Quat Res 60:356–367
Gonzales LM, Grimm EC, Williams JW, Nordheim EV (2009) A modern plant-climate research dataset for modelling eastern North American plant taxa. Grana 48:1–18
Goring S, Lacourse T, Pellatt MG, Walker IR, Mathewes RW (2010) Are pollen-based climate models improved by combining surface samples from soil and lacustrine substrates? Rev Palaeobot Palynol 162:203–212
Grimm EC (2001) Trends and paleoecological problems in the vegetation and climate history of the northern Great Plains, U.S.A. Biol Environ: Proc R Ir Acad B 101:47–64
Grüger J (1973) Studies on the late Quaternary vegetation history of northeastern Kansas. Geol Soc Am Bull 84:239–250
Hoyt CA (2000) Pollen signatures of the arid to humid grasslands of North America. J Biogeogr 27:687–696
IPCC (2007) Climate change 2007: the physical science basis. Contribution of working group I to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, New York
Jackson ST, Williams JW (2004) Modern analogs in Quaternary paleoecology: here today, gone yesterday, gone tomorrow? Ann Rev Earth Planet Sci 32:495–537
Johnson WC, Willey KL, Macpherson GL (2007) Carbon isotope variation in modern soils of the tallgrass prairie: analogues for the interpretation of isotopic records derived from paleosols. Quat Int 162:3–20
Knapp AK, Briggs JM, Hartnett DC, Collins SL (1998) Grassland dynamics: long-term ecological research in tallgrass prairie. Oxford University Press, New York
Knapp AK, Briggs JM, Collins SL, Archer SR, Bret-Harte MS, Ewers BE, Peters DP, Young DR, Shaver GR, Pendall E, Cleary MB (2008) Shrub encroachment in North American grasslands: shifts in growth form dominance rapidly alters control of ecosystem carbon inputs. Glob Chang Biol 14:615–623
Küchler AW (1964) Potential natural vegetation of the conterminous United States. In: The national atlas of the United States of America. The United States Geological Survey, Washington, pp 89–92
Lugo AE (2009) The emerging era of novel tropical forests. Biotropica 41:589–591
McLauchlan KK, Elmore AJ, Oswald WW, Sugita S (2007) Detecting open vegetation in a forested landscape: pollen and remote sensing data from New England, USA. Holocene 17:1,233–1,243
Minckley TA, Bartlein PJ, Whitlock C, Shuman BN, Williams JW, Davis OK (2008) Associations among modern pollen, vegetation, and climate in western North America. Quat Sci Rev 27:1,962–1,991
Nelson DM, Hu FS, Tian J, Stefanova I, Brown TA (2004) Response of C-3 and C-4 plants to middle-Holocene climatic variation near the prairie-forest ecotone of Minnesota. Proc Natl Acad Sci USA 101:562–567
Nelson DM, Hu FS, Michener RH (2006) Stable-carbon isotope composition of Poaceae pollen: an assessment for reconstructing C-3 and C-4 grass abundance. Holocene 16:819–825
Olson DM, Dinerstein E, Wikramanayake ED, Burgess ND, Powell GVN, Underwood EC, D’Amico JA, Itoua I, Strand HE, Morrison JC, Loucks CJ, Allnutt TF, Ricketts TH, Kura Y, Lamoreux JF, Wettengel WW, Hedao P, Kassem KR (2001) Terrestrial ecoregions of the worlds: a new map of life on Earth. Bioscience 51:933–938
Oswald WW, Brubaker LB, Hu FS, Gavin DG (2003) Pollen-vegetation calibration for tundra communities in the Arctic Foothills, northern Alaska. J Ecol 91:1,022–1,033
Overpeck JT, Webb TI, Prentice IC (1985) Quantitative interpretation of fossil pollen spectra: dissimilarity coefficients and the method of modern analogs. Quat Res 23:87–108
Samson FB, Knopf FL, Ostlie WR (2004) Great Plains ecosystems: past, present, and future. Wildl Soc Bull 32:6–15
Schüler L, Behling H (2011a) Poaceae pollen grain size as a tool to distinguish past grasslands in South America: a new methodological approach. Veget Hist Archaeobot 20:83–96
Schüler L, Behling H (2011b) Characteristics of Poaceae pollen grains as a tool to assess palaeoecological grassland dynamics in South America. Veget Hist Archaeobot 20:97–108
Sugita S, Gaillard M-J, Broström A (1999) Landscape openness and pollen records: a simulation approach. Holocene 9:409–421
Sugita S, Parshall T, Calcote R, Walker K (2010) Testing the landscape reconstruction algorithm for spatially explicit reconstruction of vegetation in northern Michigan and Wisconsin. Quat Res 74:289–300
Suttie JM, Reynolds SG, Batello C (2005) Grasslands of the world. Food and Agriculture Organization of the United Nations, Rome
Umbanhowar CE, Camill P, Geiss CE, Teed R (2006) Asymmetric vegetation responses to mid-Holocene aridity at the prairie-forest ecotone in south-central Minnesota. Quat Res 66:53–66
Whitmore J, Gajewski K, Sawada M, Williams JW, Shuman B, Bartlein PJ, Minckley T, Viau AE, Webb T, Shafer S, Anderson P, Brubaker L (2005) Modern pollen data from North American and Greenland for multi-scale paleoenvironmental applications. Quat Sci Rev 24:1,828–1,848
Williams JW, Shuman B (2008) Obtaining accurate and precise environmental reconstructions from the modern analog technique and North American surface pollen dataset. Quat Sci Rev 27:669–687
Williams JW, Shuman B, Bartlein PJ, Whitmore J, Gajewski K, Sawada M, Minckley T, Shafer S, Viau AE, Webb IT, Anderson PM, Brubaker LB, Whitlock C, Davis OK (2006) An atlas of pollen–vegetation–climate relationships for the United States and Canada. American Association of Stratigraphic Palynologists Foundation, Dallas
Williams JW, Shuman B, Bartlein PJ (2009) Rapid responses of the prairie-forest ecotone to early Holocene aridity in mid-continental North America. Glob Planet Chang 66:195–207
Williams JW, Shuman B, Bartlein PJ, Diffenbaugh NS, Webb T (2010) Rapid, time-transgressive, and variable responses to early Holocene midcontinental drying in North America. Geology 38:135–138
Acknowledgments
We thank the Konza Prairie Long-Term Ecological Research site, Tallgrass Prairie National Preserve, and many private landowners for access to small ponds. We thank Nathan Brenner, Tina Graver, and Luke Ott for field assistance. The LacCore facility at the University of Minnesota prepared the Flint Hills pollen samples, and Vania Stefanova analysed them. We thank the many data contributors and data managers for the Neotoma database. Jack Williams and two anonymous reviewers provided helpful comments that improved an earlier version of this manuscript. This research was supported by Grant BCS-0821959 to K.K.M. from the National Science Foundation of the United States of America.
Author information
Authors and Affiliations
Corresponding author
Additional information
Communicated by E. C. Grimm.
Rights and permissions
About this article
Cite this article
McLauchlan, K.K., Commerford, J.L. & Morris, C.J. Tallgrass prairie pollen assemblages in mid-continental North America. Veget Hist Archaeobot 22, 171–183 (2013). https://doi.org/10.1007/s00334-012-0369-8
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00334-012-0369-8