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Paleoenvironmental Changes and Glacial Stades of the Last 50,000 Years in the Cordillera Central, Colombia

Published online by Cambridge University Press:  20 January 2017

Jean-Claude Thouret ,
Thomas Van der Hammen ,
Barry Salomons  and
Etienne Juvigné
Jean-Claude Thouret
Affiliation:
URA 10 CNRS et Centre de Recherches Volcanologiques, Université Blaise Pascal, 5 Rue Kessler, 63038, Clermont-Ferrand Cedex 1, France
Thomas Van der Hammen
Affiliation:
Hugo de Vries Laboratorium, University of Amsterdam, Kruislaan 318, 1098 SM Amsterdam, The Netherlands Tropenbos-Araracuara, AA 036062, Bogotá, Colombia
Barry Salomons
Affiliation:
Hugo de Vries Laboratorium, University of Amsterdam, Kruislaan 318, 1098 SM Amsterdam, The Netherlands Tropenbos-Araracuara, AA 036062, Bogotá, Colombia
Etienne Juvigné
Affiliation:
Laboratoire de Géomorphologie et Géologie du Quaternaire, Université d'Etat à Liège, Sart-Tilman, 4000, Liège, Belgium
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Abstract

Using data from glacial geomorphology, tephra-soil stratigraphy and mineralogy, palynology, and radiocarbon dating, a sequence of glacial and bioclimatic stades and interstades has been identified for the past ca. 50,000 yr in the Ruı́z-Tolima massif, Cordillera Central. Six cold stades separated by warmer interstades occurred before 48,000, between 48,000 and 33,000, between 28,000 and 21,000, from ≥16,000 to ca. 14,000, ca. 13,000–12,400, and ca. 11,000–10,000 yr B.P. Although the radiocarbon ages are minimum-limiting ages obtained from tephra layers on top of tills, the tills are not significantly older because most are bracketed by dated tephra sets in measured stratigraphic sections. Two minor moraine stages likely reflect glacier pauses during cold intervals ca. 7400 yr B.P. and slightly earlier. Finally, glaciers readvanced between the 17th and 19th centuries. In contrast to the glacier cover (ca. 34 km2) on volcanoes of the massif during the last glacial maximum (LGM) the ice cover expanded to 1200 km2 and was still 800 km2 during late-glacial time (LGT). Glacier reconstructions based on the moraines suggest depression of the equilibrium line altitude (ELA) by ca. 1100 m during the LGM and 500–600 m during LGT relative to the modern ELA which lies at ca. 5100 m in the Cordillera Central. Glaciers in this region apparently reached their greatest extent when the climate was cold and moist, e.g., during stades corresponding to marine isotope stage 3; glaciers were still expanding during the LGM ca. 28,000–21,000 yr B.P., but they shrank considerably after 21,000 yr B.P. because of greatly reduced precipitation.

Type
Research Article
Information
Quaternary Research , Volume 46 , Issue 1 , July 1996 , pp. 1 - 18
Copyright
University of Washington

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References

Broecker, W. S., (1994). Massive iceberg discharges as triggers for globalclimate change. Nature 372, 421424. Google Scholar
Clapperton, C. M., (1983). The glaciation of the Andes. Quaternary Science Reviews 2, 83155. Google Scholar
Clapperton, C. M., (1993a). “Quaternary geology and geomorphology ofSouth America, ” p. 796. Elsevier, Amsterdam. Google Scholar
Clapperton, C. M., (1993b). Glacier readvances in the Andes at 12500–10000 yr BP: Implications for mechanism of Late-glacial climaticchange. Journal of Quaternary Science 8, 197215. Google Scholar
Flower, B. P., and Kennett, J. P., (1990). The Younger Dryas cool episodein the Gulf of Mexico. Paleoceanography 5 (6) , 949961. Google Scholar
Hastenrath, S., (1981). “The glaciations of the Ecuadorian Andes, ” p. 159. Balkema, Rotterdam. Google Scholar
Heine, K., (1988). Late Quaternary glacial chronology of the Mexican volca-noes. Die Geowissenschaften 7, 197205. Google Scholar
Helmens, K. F., (1990). “Neogene-Quaternary geology in the high plain ofBogotá, Eastern Cordillera, Colombia. ” Unpublished Ph. D. Dissertation Botanicae 163, Universität van Amsterdam. Google Scholar
Herd, D. G., (1974). “Glacial and volcanic geology of the Ruız–Tolima volcanic complex, Cordillera Central, Colombia. ” Publicaciones Especi-ales 8, p. 48. Ingeominas, Bogotá. Google Scholar
Herd, D. G., and Naeser, C. W., (1974). Radiometric evidence for pre-Wisconsin glaciation in the Northern Andes. Geology 2, 603604. Google Scholar
Johnsen, S. J., Clausen, H. B., Dansgaard, W., et al. (1992). Irregularglacial-interstadials recorded in a new Greenland ice core. Nature 359, 311313. Google Scholar
Kuhry, P., (1988). A paleobotanical and palynological study of Holocenepeat from the El Bosque mire, located in a volcanic area of the CordilleraCentral of Colombia. Review of Palaeobotany and Palynology 55, 1972. CrossRefGoogle Scholar
Melief, A. B. M., (1989). Late Quaternary history of vegetation in the ParqueLos Nevados and surroundings (Cordillera Central) . In “Studies on Trop-ical Andean Ecosystems 3” (Van der Hammen, T., Diaz-Piedrahita, S., and Alvarez, V. J., Eds. ) , pp. 537588. Cramer Verlag, Berlin–Stuttgart. Google Scholar
Mercer, J. H., (1969). The AllerÖd oscillation: A European anomaly? Arcticand Alpine Research 1, 227234. CrossRefGoogle Scholar
Mercer, J. H., (1976). Glacial history of southernmost South America. Qua-ternary Research 6, 125166. CrossRefGoogle Scholar
Raasveldt, H. C., (1957). Las glaciaciones de la Sierra Nevada de Santa Marta. Revista Academia Colombiana de Ciencias Exactas, Fisicasy Naturales 38, 469482. Google Scholar
Salomons, J. B., (1989). Palaeocology of volcanic soils in the Colombian Central Cordillera (Parque Nacional Natural de los Nevados) . In “Studieson Tropical Andean Ecosystems 3” (Van der Hammen, T., Diaz-Piedrahita, S., and Alvarez, V. J., Eds. ) , pp. 15215. Cramer Verlag, Berlin–Stuttgart. Google Scholar
Soil Taxonomy, (1975). “A Basic System of Soil Classification for Makingand Interpreting Soils Surveys. ” U. S. Dept. of Agriculture AD 436, p. 754. Google Scholar
Taylor, K. C., Lamorey, G. W., Doyle, G. A., Alley, R. B., Grootes, P. M., Mayewski, P. A., White, J. W. C., and Barlow, L. K., (1993). The flickering switch of late Pleistocene climate change. Nature 361, 432436. CrossRefGoogle Scholar
Thouret, J. C., (1988). “La Cordillère Centrale des Andes de Colombie etses bordures. Morphogenèse plio-quaternaire et dynamique récente etactuelle d'une cordillère volcanique englacée. ” Unpublished Ph. D. dis-sertation, Université J. Fourier-Grenoble I. Google Scholar
Thouret, J. C., (1990). Effects of the November 13, 1985, eruption on thesnowpack and ice cap of Nevado del Ruiz volcano, Colombia. Journalof Volcanolology and Geothermal Research 41, 177202. Google Scholar
Thouret, J. C., and Van der Hammen, T., (1983). La secuencia holocénicay tardiglacial en el Parque Natural Nacional de los Nevados. In “Studieson Tropical Andean Ecosystems 1” (Van der Hammen, T., Ed. ) , pp. 262276. Cramer Verlag, Berlin–Stuttgart. Google Scholar
Thouret, J. C., Murcia, A., Salinas, R., and Cantagrel, J. M., (1990). Quater-nary eruptive history of Nevado del Ruiz, Colombia. Journal of Volca-nolology and Geothermal Research 41, 225251. Google Scholar
Van der Hammen, T., (1978). Stratigraphy and environments of the UpperQuaternary of the El Abra corridor and rock shelters (Colombia) . Palaeo-geography, Palaeoclimatology, Palaeoecology 25, 11162. Google Scholar
Van der Hammen, T., (1981). The Pleistocene changes of vegetation and climate in the Northern Andes. In “The glaciation of the Ecuadorian Andes” (Hastenrath, S., Ed. ) , pp. 125145. Balkema, Rotterdam. Google Scholar
Van der Hammen, T., (1984). Data on the history of climate, vegetationand glaciation in the Sierra Nevada de Santa Marta. In “Studies on Tropandean Ecosystems 2” (Van der Hammen, T., and Ruiz, P., Eds. ) , pp. 561580. Cramer Verlag, Berlin–Stuttgart. Google Scholar
Van der Hammen, T., and Gonzales, E., (1960). Upper Pleistocene and Holocene climate and vegetation of the Sabana de Bogotá (Colombia, South America) . Leidse Geologische Mededelingen 25, 261315. Google Scholar
Van der Hammen, T., and Vogel, J. C., (1966). The Susaca interstadial andthe subdivision of the Late Glacial. Geologie in Mijnbouw 45 (2) , 3335. Google Scholar
Van der Hammen, T., Werner, J. H., and Dommelen, H., (1973). Palynologi-cal record of the upheaval of the Northern Andes: A study of the Plioceneand Lower Quaternary of the Colombian Eastern Cordillera and the earlyevolution of its high-andean biota. Review of Palaeobotany and Palynology 16, 1122. Google Scholar
Van der Hammen, T., Barelds, J., de Jong, H., and de Veer, A. A., (1981). Glacial sequence and environmental history of the Sierra Nevada delCocuy (Colombia) . Palaeogeography, Palaeoclimatology, Palaeoecology 32, 247340. Google Scholar
Van Geel, B., and Van der Hammen, T., (1973). Upper Quaternary vege-tational and climatic sequence of the Fuquene area (Eastern Cordillera, Colombia) . Palaeogeography, Palaeoclimatology, Palaeoecology 14, 992. Google Scholar
Zahn, R., (1994). Fast flickers in the tropics. Nature 372, 621622. Google Scholar