Evidence from central Mexico supporting the Younger Dryas extraterrestrial impact hypothesis (Q24598510)
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scholarly article
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Evidence from central Mexico supporting the Younger Dryas extraterrestrial impact hypothesis |
scholarly article |
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Evidence from central Mexico supporting the Younger Dryas extraterrestrial impact hypothesis (English)
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Isabel Israde-Alcántara
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James L Bischoff
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Gabriela Domínguez-Vázquez
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Paul S DeCarli
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Ted E Bunch
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James H Wittke
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James C Weaver
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Allen West
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James P Kennett
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Chris Mercer
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Sujing Xie
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Eric K Richman
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Charles R Kinzie
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10 page
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I Israde-Alcántara, et al., Evolución paleolimnologica del Lago Cuitzeo, Michoacán, durante el Pleistoceno–Holoceno (Paleolimnologic evolution of Lake Cuitzeo, Michoacán, during the Pleistocene–Holocene). B Soc Geol Mex 62, 345–357 (2010).
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GA Islebe, H Hooghiemstra, Effects of the Younger Dryas cooling event on late Quaternary montane oak forest in Costa Rica. Ecology and Conservation of Neotropical Montane Oak Forests, ed M Kappelle (Springer, Berlin, Heidelberg), pp. 29–37 (2006).
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A Correa-Metrio, Cimate and vegetation of the Yucatan Peninsula during the Late Pleistocene. (Florida Institute of Technology, Melbourne FL), pp. 194, PhD dissertation. (2010).
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GH Haug, KA Hughen, LC Peterson, DM Sigman, U Röhl Cariaco Basin Trace Metal Data (NOAA/NGDC, IGBP PAGES/World Data Center A for Paleoclimatology Data Contribution Series #2001 12628. (2001).
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DZ Piper, WE Dean Trace-Element Deposition in the Cariaco Basin, Venezuela Shelf, under Sulfate-Reducing Conditions: A History of the Local Hydrography and Global Climate, 20 ka to the Present (USGS, Washington, DC, Prof. paper 1670. (2002).
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RM Hough, IC Gilmour, T Pillinger, Impact nanodiamonds in Cretaceous-Tertiary boundary fireball and ejecta layers: Comparison with shock-produced diamond and a search for lonsdaleite. Meteoritics and Planetary Science 33, A70 (1998).
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CW Philpot Temperatures in a Large Natural-Fuel Fire (US. Forestry Service, Research Note PSW-90. (1965).
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HJ Melosh Impact Cratering A Geologic Process (Oxford Univ Press, New York, 1989).
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EL Krinov Principles of Meteoritics (Pergamon Press, New York, 1960).
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KP Florenskiy, Preliminary results from the 1961 combined Tunguska meterorite expedition. Meteoritica 23, 3–29 (1963).
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VN Kvasnitsa, et al., High-pressure carbon polymorphs in mosses from the Tunguska impact site. Doklady Ukrainskoi Akademii Nauk, B 12, 1000–1004 (1979).
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YB Zel’dovich, YP Raiser Physics of Shock Waves and High-Temperature Hydrodynamic Phenomena (Academic, New York, 1966).
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