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Palynology of Cushion Bogs of the Cordillera Pelada, Province of Valdivia, Chile

Published online by Cambridge University Press:  20 January 2017

Calvin J. Heusser
Calvin J. Heusser*
Affiliation:
Department of Biology, New York University, New York, New York 10003
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Abstract

Fossil pollen identified in the earliest sediments of three cushion bogs in the Cordillera Pelada (40°10′S, 73°30′W) dated 10,425 14C yr B.P. includes the subantarctic species Dacrydium fonckii, Tetroncium magellanicum, Astelia pumila, Gaimardia australis, Donatia fascicularis, and Drosera uniflora. All grow today in the Cordillera Pelada and range poleward to the southernmost Province of Magallanes; one species, Drapetes muscosa, included with the pollen of these plants in the earliest record, is no longer a constituent of the flora but is limited only to subantarctic Chile. Available evidence indicates that plants survived the last glaciation north of the glacial border with the course of postglacial migration southward following the wastage of the glacier complex. Holocene climatic and vegetational changes in the Cordillera Pelada are interpreted in the context of regional reconstructions which show maximum warmth about 9000 yr ago with a pronounced dry period lasting from 9000 to 6500 yr B.P. Maximum precipitation was later reached around 4000 yr ago but has decreased overall since then. The regional decline of the endemic gymnosperm Fitzroya cupressoides, which today is extensively destroyed in the Cordillera Pelada, follows this decrease in precipitation. These climatic data suggest a net south ward shift in the zone of westerly winds that bring rainfall to the region over the past 4000 yr.

Type
Research Article
Information
Quaternary Research , Volume 17 , Issue 1 , January 1982 , pp. 71 - 92
Copyright
University of Washington

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References

Almeyda, A.F. Sáez, S.F. (1958). Recopilación de datos climáticos de Chile y mapas sinópticos respectivos Ministerio de Agricultura. Santiago.Google Scholar
Auer, V. (1958). The Pleistocene of Fuego-Patagonia. Part II. The history of the flora and vegetation. Annales Academiae Scientiarum Fennicae, III, Geologica Geographica 50, 1239.Google Scholar
Caldenius, C.C. (1932). Las glaciaciones cuaternárias en la Patagonia y Tierra del Fuego. Geografiska Annaler 14, 1164.Google Scholar
Dimitri, M.J. (1972). Sinopsis de las familias de plantas vasculares. La Región de los Bosques Andino-Patagónicos. Sinopsis General Dimitri, M.J.olección Cientifica del INTA 199254Buenos Aires.Google Scholar
Faegri, K. Iversen, J. (1975). Textbook of Pollen Analysis Munksgaard. Copenhagen.Google Scholar
Fischer, K. (1974). Die pleistozäne Vergletscherung und die Frage der Landsenkung im Bereich des Chonos-Archipels/Südchile. Eiszeitalter und Gegenwart 25, 126131.Google Scholar
Flint, R.F. (1971). Glacial and Quaternary Geology Wiley. New York.Google Scholar
Godley, E.J. (1960). The botany of southern Chile in relation to New Zealand and the Subantarctic. Royal Society Proceedings 152, 457475.Google Scholar
Godley, E.J. (1963). Contributions to the plant geography of southern Chile. Revista Universitaria 48, 3139.Google Scholar
Godley, E.J. (1968). A plant list from the Cordillera San Pedro, Chiloé. Revista Universitaria 53, 6577.Google Scholar
Godley, E.J. (1978). Cushion bogs. Geoecological Relations between the Southern Temperate Zone and the Tropical Mountains Troll, C. Lauer, W.Erdwissenschaftliche Forschung 10,Franz Steiner Verlag GMBH. Wiesbaden. 141158.Google Scholar
Heusser, C.J. (1966). Late-Pleistocene pollen diagrams from the Province of Llanquihue, southern Chile. American Philosophical Society Proceedings 110, 269305.Google Scholar
Heusser, C.J. (1971). Pollen and Spores of Chile. Modern Types of the Pteridophyta, Gymnospermae, and Angiospermae University of Arizona Press. Tucson.Google Scholar
Heusser, C.J. 1972a. On the occurrence of Lycopodium fuegianum during late-Pleistocene interstades in the Province of Osorno, Chile. Torrey Botanical Club Bulletin 99, 178184.Google Scholar
Heusser, C.J. 1972b. An additional postglacial pollen diagram from Patagonia Occidental. Pollen et Spores 14, 157167.Google Scholar
Heusser, C.J. (1974). Vegetation and climate of the southern Chilean lake district during and since the last interglaciation. Quaternary Research 4, 290315.Google Scholar
Heusser, C.J. (1976). Palynology and depositional environment of the Río Ignao nonglacial deposit, Province of Valdivia, Chile. Quaternary Research 6, 273279.Google Scholar
Heusser, C.J. Flint, R.F. (1977). Quaternary glaciation and environments of northern Isla Chiloé, Chile. Geology 5, 305308.2.0.CO;2>CrossRefGoogle Scholar
Heusser, C.J. Streeter, S.S. (1980). A temperature and precipitation record of the past 16,000 years in southern Chile. Science 210, 13451347.Google Scholar
LaMarche, V.C. (1975). Climatic clues from tree rings. New Scientist 66, 811.Google Scholar
Lamb, H.H. (1959). The southern westerlies: a preliminary survey; main characteristics and apparent associations. Quarterly Journal of the Royal Meteorological Society 85, 123.CrossRefGoogle Scholar
Lamb, H.H. (1977). Climate. Present, Past, and Future Volume 2,Methuen. LondonClimatic History and the Future.Google Scholar
Muñoz, P.C. (1960). Preliminary list of plants collected for the expedition to Laguna de San Rafael, Province of Aisén, 1959 Office of Naval Research Contract Nonr-641(04) Technical Report 16.Google Scholar
Muñoz, P.C. (1966). Sinopsis de la Flora Chilena Ediciones de la Universidad de Chile. Santiago.Google Scholar
Muñoz, S.M. (1980). Flora del Parque Nacional Puyehue Editorial Universitaria. Santiago.Google Scholar
Philippi, R.A. (1865). Excursión botánica en Valdivia desde los Cuncos en el departamento de la Unión a través de la Cordillera de la Costa. Anales Universidad de Chile 27, 289351.Google Scholar
Pisano, V.E. (1971). Comunidades vegetales del área del Fiordo Parry, Tierra del Fuego. Anales del Instituto de la Patagonia 2, 93133.Google Scholar
Pisano, V.E. (1972). Comunidades vegetales del área de Bahía Morris, Isla Capitán Aracena, Tierra del Fuego (Parque Nacional “Hernando de Magallanes”). Anales del Instituto de la Patagonia 3, 104130.Google Scholar
Pisano, V.E. (1975). Ampliación del area distribucional de Dacrydium fonckii (Phil.) Florin. Anales del Instituto de la Patagonia 6, 139140.Google Scholar
Pittock, A.B. (1980). Patterns of climatic variation in Argentina and Chile. I. Precipitation, 1931–1960. Monthly Weather Review 108, 13471361.Google Scholar
Porter, S.C. (1981). Pleistocene glaciation in the southern lake district of Chile. Quaternary Researchin press.CrossRefGoogle Scholar
Ramírez, G.C. (1968). Die Vegetation der Moore der Cordillera Pelada, Chile. Bericht der Oberhessischen Gesellschaft für Natur- und Heilkunde zu Giessen Neue Folge, Naturwissenschaftliche Abteilung 36, 95101.Google Scholar
Ramírez, G.C. Riveros, G.M. (1975). Los alerzales de Cordillera Pelada: flora and fitosociología. Medio Ambiente 1, 313.Google Scholar
Reiche, K. (1907). Grundzüge der Pflanzenverbreitung in Chile. Die Vegetation der Erde 8, 1374.Google Scholar
Skottsberg, C. (1916). Die Vegetationsverhältnisse langs der Cordillera de los Andes S. von 41° S. Br. Ein Beitrag zur Kenntnis der Vegetation in Chiloé, Westpatagonien, dem andinen Patagonien und Feuerland. Kungl. Svenska Vetenskapsakademiens Handlingar. 56, 3366.Google Scholar
Skottsberg, C. (1924). Zur Gefässpflanzenflora Westpatagoniens. Göteborgs Kungl. Vetenskaps och Vitterhets-Samhälles Handlingar. Fjärde Följden. 28, 329.Google Scholar
Veblen, T.T. Delmastro, R.J. Schlatter, J.E. (1976). The conversation of Fitzroya cupressoides and its environment in southern Chile. Environmental Conservation 3, 291301.Google Scholar
Villagrán, M.C. (1980). Vegetationsgeschichtliche und pflanzensoziologische Untersuchungen im Vicente Pérez Rosales Nationalpark (Chile). Disertationes Botanicae 54, 1165.Google Scholar
Villagrán, M.C. Serey, E.I. Soto, Q.C. (1974). Catálogo de las plantas vasculares colectados en el Parque Nacional “Vicente Pérez Rosales”. Anales del Museo de Historia Natural de Valparaiso 7, 75151.Google Scholar
Weinberger, P. (1973). Beziehungen zwischen mikroklimatischen Faktoren und natürlicher Verjüngung araukano-patagonischer Nothofagus-Arten. Flora 162, 157169.CrossRefGoogle Scholar
Zeil, W. (1964). Geologie von Chile Borntraeger. Berlin.Google Scholar