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Biogeography of Pleistocene conifer species from the Ziegler Reservoir fossil site, Snowmass Village, Colorado

Published online by Cambridge University Press:  20 January 2017

Dane M. Miller ,
Ian M. Miller  and
Stephen T. Jackson
Dane M. Miller*
Affiliation:
Department of Botany, University of Wyoming, Laramie, WY 82071, USA
Ian M. Miller
Affiliation:
Department of Earth Sciences, Denver Museum of Nature and Science, Denver, CO 80205, USA
Stephen T. Jackson
Affiliation:
Department of Botany, University of Wyoming, Laramie, WY 82071, USA Department of the Interior Southwest Climate Science Center, U.S. Geological Survey, Tucson, AZ 85719, USA Department of Geosciences, University of Arizona, Tucson, AZ 85721, USA
*
Corresponding author.E-mail address:miller.dm78@gmail.com (D.M. Miller).
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Abstract

Pleistocene biogeography of conifer species is poorly known in much of western North America. We conducted morphological studies on 201 conifer cones and cone fragments recovered from Pleistocene sediments at the Ziegler Reservoir fossil site (2705 m) near Snowmass Village, Colorado. The basin, formed ~155–130 ka, contains fossil-bearing lacustrine, palustrine, and colluvial sediments spanning approximately 85 ka. Using a suite of morphological characters, particularly cone-scale bracts, we differentiated species of Abies, Picea, and Pseudotsuga. All fossil Abies specimens were assignable based on bract morphology to Abies concolor, which is currently absent from central Colorado (nearest populations are 160 km southwest of the site). A. concolor occurs only in sediments of MIS 5d and 5c. Pseudotsuga menziesii and Picea engelmannii cones occurred in sediments corresponding to MIS 5e, 5d, 5c, and 5a. A fourth conifer species, occurring in sediments of MIS 5e, 5d, 5c, and 5a, is difficult to assign to any extant species. Bract morphology is similar to Picea pungens, which grows near the site today, but scale morphology is unlike P. pungens. These fossils may represent ancestral P. pungens, an extinct variant, or an extinct sister species.

Keywords

PleistocenePlant macrofossilsConifersRocky MountainsMorphometric analysisBiogeography
Type
Articles
Information
Quaternary Research , Volume 82 , Issue 3 , November 2014 , pp. 567 - 574
Copyright
University of Washington

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References

Allen, R.B., and Peet, R.K. Gradient analysis of forests of the Sangre de Cristo Range, Colorado. Canadian Journal of Botany 68, (1990). 193201.CrossRefGoogle Scholar
Anderson, R.S., Betancourt, J.L., Mead, J.I., Hevly, R.H., and Adam, D.P. Middle-and late-Wisconsin paleobotanic and paleoclimatic records from the southern Colorado Plateau, USA. Palaeogeography, Palaeoclimatology, Palaeoecology 155, 1 (2000). 3157.Google Scholar
Anderson, R.S., Jimenez-Moreno, G., Ager, T., and Porinchu, D. High-elevation paleoenvironmental change during MIS 6-4 in the central Rockies of Colorado as determined from pollen analysis. Quaternary Research 82, (2014). 542552. (in this volume) Google Scholar
Baker, R.G., Rhodes, R.S. II, Schwert, D.P., Ashworth, A.C., Frest, T.J., Hallberg, G.R., and Janssens, J.A. A full-glacial biota from southeastern Iowa, USA. Journal of Quaternary Science 1, (1986). 91107.CrossRefGoogle Scholar
Baker, R.G. Vegetational changes in western Illinois during the onset of late Wisconsinan glaciation. Ecology (1989). 13631376.CrossRefGoogle Scholar
Baker, R.G., Van Zant, K.L., and Dulian, J.J. Three late‐glacial pollen and plant macrofossil assemblages from Iowa. Palynology 4, 1 (1980). 197203.Google Scholar
Betancourt, J.L. Late Quaternary Biogeography of the Colorado Plateau. Packrat middens: the last, 40(000). (1990). 259292.Google Scholar
Betancourt, J.L., Rylander, K.A., Penalba, C., and McVickar, J.L. Late Quaternary vegetation history of Rough Canyon, south-central New Mexico, USA. Palaeogeography, Palaeoclimatology, Palaeoecology 165, (2001). 7195.CrossRefGoogle Scholar
Birks, H., and Birks, H.J. Future uses of pollen analysis must include plant macrofossils. Journal of Biogeography 27, 1 (2000). 3135.Google Scholar
Bradshaw, R.H.W., Webb, T. III Relationships between contemporary pollen and vegetation data from Wisconsin and Michigan. Ecology 66, (1985). 721737.Google Scholar
Brown, C.A. The Flora of the Pleistocene Deposits in Western Florida Parishes, Western Feliciana Parish, and East Baton Rouge Parish, Louisiana. Geological Survey Bulletin 12, (1938). Department of Conservation, Louisiana. 5996.Google Scholar
Dawson, T.P., Jackson, S.T., House, J.I., Prentice, I.C., and Mace, G.M. Beyond predictions: biodiversity conservation in a changing climate. Science 332, 6025 (2011). 5358.Google Scholar
Delcourt, H.R., and Delcourt, P.A. Pre-settlement magnolia-beech climax of the Gulf Coastal Plain: quantitative evidence from the Apalachicola River bluffs, north-central Florida. Ecology (1977). 10851093.Google Scholar
Dunwiddie, P.W. Macrofossil and pollen representation of coniferous trees in modern sediments from Washington. Ecology (1987). 111.CrossRefGoogle Scholar
Ellis, B., Daly, D., Hickey, L., Johnson, K., Mitchell, J., Wilf, P., and Wing, S. Manual of Leaf Architecture. (2009). Cornell University Press, Ithaca, New York.Google Scholar
Farjon, A. A Handbook of the World's Conifers. (2010). Brill Academic Publishers, Google Scholar
Florin, R. The female reproductive organs of conifers and taxads. Biological Reviews 29, 4 (1954). 367389.CrossRefGoogle Scholar
Givens, C.R., and Givens, F.M. Age and significance of fossil white spruce (Picea glauca), Tunica Hills, Louisiana-Mississippi. Quaternary Research 27, 3 (1987). 283296.Google Scholar
Hamrick, J.L., and Libby, W.J. Variation and selection in western U.S. montane species, I. White fir. Silvae Genetica 21, (1971). 2935.Google Scholar
Harris, J.G., and Harris, M.W. Plant Identification Terminology: An Illustrated Glossary. Second edition (1994). Spring Lake Publishing, Spring Lake, Utah.Google Scholar
Hart, J.A. A cladistics analysis of conifers: preliminary results. Journal of the Arnold Arboretum 68, 3 (1987). Google Scholar
Heusser, L.E., and King, J.E. North America. Vegetation History. (1988). Springer, Netherlands. 193236.Google Scholar
Huntley, B., Webb, T. III Migration: species' response to climatic variations caused by changes in the Earth's orbit. Journal of Biogeography (1989). 519.Google Scholar
Jackson, S.T. Representation of flora and vegetation in Quaternary fossil assemblages: known and unknown knowns and unknowns. Quaternary Science Reviews 49, (2012). 115.Google Scholar
Jackson, S.T. Booth, R. K. (2007). Validation of pollen studies. Pages 2413–2422 in Encyclopaedia of Quaternary Sciences S.A. Elias. editor-in-chief. Elsevier Scientific Publishing, Inc, .Google Scholar
Jackson, S.T., and Givens, C.R. Late Wisconsinan vegetation and environment of the Tunica Hills region Louisiana/Mississippi. Quaternary Research 41, (1994). 316325.CrossRefGoogle Scholar
Jackson, S.T., and Overpeck, J.T. Responses of plant populations and communities to environmental changes of the late Quaternary. Paleobiology 26, sp4 (2000). 194220.Google Scholar
Jackson, S.T., and Weng, C. Late quaternary extinction of a tree species in eastern North America. PNAS 96, 24 (1999). 1384713852.Google Scholar
Jackson, S.T., Whitehead, D.R., and Ellis, G.D. Late glacial and early Holocene vegetational history at the Kolarik Mastodon Site, northwestern Indiana. American Midland Naturalist 115, (1986). 361373.Google Scholar
Jackson, S.T., Overpeck, J.T., Keattch, S.E., and Anderson, K.H. Mapped plant-macrofossil and pollen records of Late Quaternary vegetation change in eastern North America. Quaternary Science Reviews 16, (1997). 170.Google Scholar
Jackson, S.T., Betancourt, J.L., Lyford, M.E., Gray, S.T., and Rylander, K.A. A 40,000-year woodrat-midden record of vegetational and biogeographical dynamics in north-eastern Utah, USA. Journal of Biogeography 32, (2005). 10851106.CrossRefGoogle Scholar
LePage, B.A. New species of Picea A. Dietrich (Pinaceae) from the middle Eocene of Axel Heiberg Island, Arctic Canada. Botanical Journal of the Linnean Society 135, (2001). 137167.Google Scholar
Little, E.L., and Viereck, L.A. Atlas of United States Trees. vol. 5, (1971). US Dept. of Agriculture, Forest Service, Google Scholar
Lyford, M.E., Jackson, S.T., Betancourt, J.L., and Gray, S.T. Influence of landscape structure and climate variability on a late Holocene plant migration. Ecological Monographs 73, 4 (2003). 567583.Google Scholar
Mahan, S.A., Gray, H.J., Pigati, J.S., Wilson, J., Lifton, N.A., Paces, J.B., and Blaauw, M. A geochronologic framework for the Ziegler Reservoir fossil site, Snowmass Village, Colorado. Quaternary Research 82, (2014). 490503. (in this volume) Google Scholar
McLachlan, J.S., Clark, J.S., and Manos, P.S. Molecular indicators of tree migration capacity under rapid climate change. Ecology 86, 8 (2005). 20882098.CrossRefGoogle Scholar
Miller, N.G. The late Quaternary Hiscock site, Genesee County, New York: paleoecological studies based on pollen and plant macrofossils. Late Pleistocene and early Holocene paleoecology and archeology of the eastern Great Lakes region. Bull Buffalo Society Natural Sciences 33, (1988). 8393.Google Scholar
Miller, D.M. Morphometric Analysis of Fossil Conifer Cones From a High Elevation Late Pleistocene Deposit Near Snowmass Village, Colorado. (M.S. Thesis) (2013). University of Wyoming, Department of Botany, (August 2013) Google Scholar
Miller, N.G., and Thompson, G.G. Boreal and western North American plant in the late Pleistocene of Vermont. Journal of Arnold Arboretum Harvard University 60, (1979). 167218.Google Scholar
Moritz, C., and Agudo, R. The future of species under climate change: resilience or decline?. Science 341, 6145 (2013). 504508.Google Scholar
Pigati, J.S., Miller, I.M., Johnson, K.R., Honke, J.S., Carrara, P.E., Muhs, R., Skipp, G., and Bryant, B. Geologic setting and stratigraphy of the Ziegler Reservoir fossil site, Snowmass Village, Colorado. Quaternary Research 82, (2014). 477489. (in this volume) Google Scholar
Schorn, H.E. A preliminary discussion of fossil larches (Larix, Pinaceae) from the Artic. Quaternary International 22, 23 (1994). 173183.Google Scholar
Seppa, H., and Hicks, S. Integration of modern and past pollen accumulation rate (PAR) records across the arctic tree-line: a method for more precise vegetation reconstructions. Quaternary Science Reviews 25, 13 (2006). 15011516.Google Scholar
Stewart, J.R., and Lister, A.M. Cryptic northern refugia and the origins of the modern biota. Trends in Ecology & Evolution 16, 11 (2001). 608613.Google Scholar
Warner, G.B., and Chmielewski, J.G. Biometric analysis of modern and Late Pleistocene cones of Picea from Western Canada. New Phytologist 107, 2 (1987). 449458.Google Scholar
Warren, R., and Temperate, N. Spruces in the Arnold arboretum. Arnoldia 42, 3 (1982). 102130.Google Scholar
Webb, T. III Eastern North America. Vegetation history. (1988). Springer, Netherlands. 385414.Google Scholar
Weng, C., and Jackson, S.T. Late Glacial and Holocene vegetation history and paleoclimate of the Kaibab Plateau, Arizona. Palaeogeography, Palaeoclimatology, Palaeoecology 153, (1999). 179201.Google Scholar
Weng, C., and Jackson, S.T. Species differentiation of North American spruce (Picea) based on morphological and anatomical characteristics of needles. Canadian Journal of Botany 78, 11 (2000). 13671383.Google Scholar
Whitlock, C., and Bartlein, P.J. Vegetation and climate change in Northwest America during the past 125 kyr. Nature 388, (1997). 5761.Google Scholar
Williams, J.W., Shuman, B.N., Webb, T. III, Bartlein, P.J., and Leduc, P.L. Late-Quaternary vegetation dynamics in North America: scaling from taxa to biomes. Ecological Monographs 74, 2 (2004). 309334.CrossRefGoogle Scholar
Yabe, A. Pseudotsuga tanaii Huzioka from the earliest Miocene Shichiku Flora of northeast Japan: systematics and ecological conditions. Paleontological Research 15, 1 (2011). 111.Google Scholar
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