The Colorado Plateau Coring Project (CPCP): A Continuous Cored Record of Triassic Continental Environmental Change in Western North America
Paul E. OlsenJohn W. GeissmanGeorge E. GehrelsRandall B. IrmisDennis V. KentRoland MundilWilliam G. ParkerJin ShaRoberto S. Molina GarzaW. KuerschnerGerhard H. BachmannMorgan F. SchallerNatalia ZakharovaMatthew W. Colbert
0
Citation
0
Reference
20
Related Paper
Keywords:
Coring
Cite
Cite
Citations (0)
Peninsula
Ice core
Cite
Citations (8)
Cite
Citations (556)
The geologic record contains evidence of greenhouse climates in the earth's past, and by studying these past conditions, we can gain greater understanding of the forcing mechanisms and feedbacks that influence today's climate. Leading experts in paleoclimatology combine in one integrated volume new and state-of-the-art paleontological, geological, and theoretical studies to assess intervals of global warmth. The book reviews what is known about the causes and consequences of globally warm climates, demonstrates current directions of research on warm climates, and outlines the central problems that remain unresolved. The chapters present new research on a number of different warm climate intervals from the early Paleozoic to the early Cenozoic. The book will be of great interest to researchers in paleoclimatology, and it will also be useful as a supplementary text on advanced undergraduate or graduate level courses in paleoclimatology and earth science.
Cite
Citations (301)
Ice core
Groenlandia
Greenland ice sheet
Ice caps
Cite
Citations (0)
Preface (A.R. Gillespie, S.C. Porter, B.F. Atwater). 1. The southern Laurentide Ice Sheet in the United States: What have we learned in the last 40 years? (D.M. Mickelson, P.M. Colgan). 2. The Cordilleran Ice Sheet (D.B. Booth, K. Goetz Troost et al.). 3. Controls, history, outbursts, and impact of large late-quaternary proglacial lakes in North America (J.T. Teller). 4. Pleistocene glaciations of the Rocky Mountains (K.L. Pierce). 5. Quaternary alpine glaciation in Alaska, the Pacific Northwest, Sierra Nevada, and Hawaii (D.S. Kaufman, S.C. Porter, A.R. Gillespie). 6. Coupling ice sheet and climate models for simulation of former ice sheets (S.J. Marshall, D. Pollard et al.). 7. Advances in permafrost process research in the United States since 1960 (B. Hallet, J. Putkonen et al.). 8. Quaternary sea-level history of the United States (D.R. Muhs, J.F. Wehmiller et al.). 9. Western Lakes, (L. Benson). 10. Isotopic records from ground-water and cave speleothem calcite in North America (J. Quade). 11. Rivers and riverine landscapes (D.R. Montgomery, E.E. Wohl). 12. Landscape evolution models (F.J. Pazzaglia). 13. Eolian sediments (A.J. Busacca, J.E. Beget et al.). 14. Soils and the quaternary climate system (M.J. Pavich, O.A. Chadwick). 15. Earthquake recurrence inferred from paleoseismology (B.F. Atwater, M.P. Tuttle et al.). 16. Quaternary volcanism in the United States (W.E. Scott). 17. Late quaternary vegetation history of the eastern United States (E.C. Grimm, G.L. Jacobson Jr.). 18. Quaternary vegetation and climate change in the western United States: Developments, perspectives, and prospects (R.S. Thompson, S.L. Shafer et al.). 19. Results and paleoclimate implications of 35 years of paleoecological research in Alaska (P.M. Anderson, M.E. Edwards, L.B. Brubaker). 20. Quaternary history from the US tropics (S. Hotchkiss). 21. Climatically forced vegetation dynamics in eastern North America during the late quaternary (T. Webb III, B. Shuman, J.W. Williams). 22. Holocene fire activity as a record of past environmental change (C. Whitlock, P.J. Bartlein). 23. Interannual to decadal climate and streamflow variability estimated tree rings (D.W. Stahle, F.K. Fye, M.D. Therrell). 24. Quaternary coleoptera of the United States and Canada (A.C. Ashworth). 25. Vertebrate paleontology (S.D. Webb, R.W. Graham et al.). 26. Peopling of North America (D.J. Meltzer). 27. Modeling paleoclimates (P.J. Bartlein, S.W. Hostetler).
Quaternary science
Wisconsin glaciation
Ice age
Cite
Citations (262)
Alkenone
Cite
Citations (0)
Cite
Citations (0)
Abstract. Australian and New Zealand Geomorphology Group, 7th Meeting, JamesCook University, Cairns, September 1996De Deckker P, Correge T, Head J (1991) Late Pleistocene record of cyclic eolian activity fromtropical Australia suggesting the Younger Dryas is not an unusual event. Geology 19:602-605.Firman JB (1969) The Quaternary Period. In: Parkin LW (ed.) Handbook of South AustralianGeology, S.A. Government Printer, Adelaide.Goldberg ED, Griffin JJ (1970) The sediments of the northern Indian Ocean. Deep-SeaResearch 17: 513-537Dickson BL, Scott KM (1998) Recognition of aeolian soils of the Blayney district, NSW:implications for mineral exploration. Journal of Geochemical Exploration 63: 237-251Hesse PP (1994) The Record of Continental Dust from Australia in Tasman Sea Sediments.Quaternary Science Reviews 13: 257-272Hesse PP (1997) Mineral magnetic tracing of aeolian dust in southwest Pacific sediments.Palaeogeography, Palaeoclimatology, Palaeoecology 131 327-353Hesse PP, Townsend FN, Humphreys GS, Kamper S (1998) Dust accession rates over the LatePleistocene in Northern NSW: the potential for the formation of aeolian mantles andreworking within the landscape. Abstract of paper presented to Aeolian Dust:Implications for Australian Mineral Exploration and Environmental ManagementSymposium, Australian National University, November 1998. CRC LEME Report 102.Hesse PP, McTainsh GH (1999) Last Glacial Maximum to Early Holocene wind strength in themid-latitudes of the Southern Hemisphere from aeolian dust in the Tasman Sea.Quaternary Research 52: 343-349Hesse PP, Stolz J (1999) Bacterial magnetite and the Quaternary climate record. In: Maher B,Thompson R. (eds.) Quaternary Climates, Environments and Magnetism. CambridgeUniversity Press. pp 163-198.Hubble GD and Isbell RF (1958) The occurrence of strongly acid clays beneath alkaline soils inQueensland. Australian Journal of Science 20: 186-187Ikehara M, Kawamura K, Ohkouchi N, Murayama M, Nakamura T, Taira A (2000) Variationsof terrestrial input and marine productivity in the Southern Ocean (48°S) during the lasttwo deglaciations. Paleoceanography 15: 170 - 180Jackson ML, Gillette DA, Danielsen EF, Blifford IH, Bryson RA, Syers JK (1973) Globaldustfall during the Quaternary as related to environments. Soil Science 116: 135 - 145Jessup RW (1960) The stony tableland soils of the south-eastern portion of the Australian aridzone and their evolutionary history. Journal of Soil Science 11: 188-196Jessup RW (1961a) Evolution of the two youngest (Quaternary) soil layers in the south easternportion of the Australian arid zone. I. Parakylia layer. Journal of Soil Science 12: 52-63Jessup RW (1961b) Evolution of the two youngest (Quaternary) soil layers in the south easternportion of the Australian arid zone. II. The Bookaloo layer. Journal of Soil Science 12:64-72Joussaume S (1989) Desert dust and climate: An investigation using an atmospheric generalcirculation model. In: Leinen M, Sarnthein M (ed.) Paleoclimatology andPaleometeorology: Modern and Past Patterns of Global Atmospheric Transport. pp.253-263. Kluwer, Dordrecht.Kawahata H (2000) Organic carbon and lithogenic fluxes in the Tasman Sea, southwest Pacific,during the Late Pleistocene. Palaeogeography, Palaeoclimatology, Palaeoecology (inpress)Knight AW, McTainsh GH, Simpson RW (1995) Sediment loads in an Australian dust storm:implications for present and past dust processes. Catena 24: 195-213Kolla V, Biscaye PE (1977) Distribution and origin of quartz in the sediments of the IndianOcean. Journal of Sedimentary Petrology 47: 642-649Lawrence CR (1966) Cainozoic stratigraphy and structure of the Mallee Region, Victoria.Proceedings of the Royal Society of Victoria 79: 517-553, Melbourne.Litchfield WH (1969) Soil surfaces and sedimentary history near the Macdonnell Ranges, NT.,CSIRO, Australian Soil Publication No. 25, Melbourne
Quaternary science
Last Glacial Maximum
Cite
Citations (0)