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Glaciers et évolution climatique dans les Andes boliviennes. Glacier de Zongo et glacier de Chacaltaya Cordillère Royale, 16°S

Francou, Bernard ; Ribstein, Pierre;

Bulletin de l'Institut Français d'Études Andines, 01 January 1995, Vol.24(1), pp.23-36 [Periódico revisado por pares]

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  • Título:
    Glaciers et évolution climatique dans les Andes boliviennes. Glacier de Zongo et glacier de Chacaltaya Cordillère Royale, 16°S
  • Autor: Francou, Bernard ; Ribstein, Pierre
  • Assuntos: Glaciologie ; Climat ; Evolution ; Precipitations ; Rechauffage ; Enso ; History & Archaeology
  • É parte de: Bulletin de l'Institut Français d'Études Andines, 01 January 1995, Vol.24(1), pp.23-36
  • Descrição: SEDIMENTOLOGY OF THE HUANCANE FORMATION (NEOCOMIAN) OF THE CUSCO REGION AND ITS RELATION TO SEA LEVEL VARIATIONS. The Huancane formation (Neocomian) of the Cusco region is mainly composed of quartz sandstones which are deposited in fluvial environments. The facies recognized are organized in a vertical sequence: fluvial sheet sandstones, oxidized or eroded surface, the shale facies of alluvial plain and unusual limestone facies of possible marine origin. These vertical facies sequences show that eustatic sea level variations controlled the fluvial sedimentation. The rivers came from the NE and were fed by the erosion of the Brazilian Shield. The sedimentation developed above the boundary of the SW edge of the Eastern basin, and the Cusco-Puno Swell which had locale horst and grabens inherited from pre-neocomian relief. GLACIARES Y EVOLUCIÓN CLIMÁTICA EN LOS ANDES BOLIVIANOS GLACIAR DE ZONGO Y GLACIAR DE CHACALTAYA, CORDILLERA REAL, 16°S. Por su sensibilidad y su plazo de respuesta breve, el glaciar es de un gran interés para analizar la evolución y la variabilidad actuales del clima entre los trópicos. Se presentan los métodos de determinación del balance de masas y del balance hidrológico, con una frecuencia de mediciones mensual. Los resultados recogidos durante tres años (1991-1994) muestran una grande variabilidad. Ésta es controlada sobre todo por la extensión del periodo de precipitaciones en medio de la temporada cálida que dura más o menos 6 meses. Los eventos ENSO (El Niño Southern Oscillation) son asociados a balances netamente negativos, lo que es demostrado por la respuesta del glaciar al episodio de 1991-1992 y por la reconstrucción de los balances efectuados en base a los datos hidrológicos durante los dos últimos decenios. El retroceso acelerado de los glaciares tropicales desde los años 1980 es vinculado a la vez a una sucesión de eventos ENSO y al recalentamiento atmosférico. GLACIERS AND CLIMATIC EVOLUTION IN THE ANDES OF BOLIVIA ZONGO AND CHACALTAYA GLACIERS - REAL CORDILLERA, 16˚ S. The high sensibility and the short lag time response of glaciers to climatic changing make it possible to use them for analyzing the variability and the evolution of climate in the Tropics. Measurements of mass balance and hydrological balance were performed every month on the two glaciers. Methods are presented. Results obtained during the three hydrological years 1991-1994 have shown great variability. This variability is controlled mainly by the extension of the precipitation period in the warm season which extends over six months. ENSO (El Niño Southern Oscillation) events are associated with quite negative mass balance, as shown both by the response of glaciers to the last 1991-1992 event and by the mass balance reconstruction from hydrological data for the two last decades. The glacier retreat is increasing dramatically since the 1980's in the Central Andes due to a succession of ENSO events and the forces of global warming. GLACIERS AND CLIMATIC EVOLUTION IN THE ANDES OF BOLIVIA ZONGO AND CHACALTAYA GLACIERS - REAL CORDILLERA, 16˚ S. The high sensibility and the short lag time response of glaciers to climatic changing make it possible to use them for analyzing the variability and the evolution of climate in the Tropics. Measurements of mass balance and hydrological balance were performed every month on the two glaciers. Methods are presented. Results obtained during the three hydrological years 1991-1994 have shown great variability. This variability is controlled mainly by the extension of the precipitation period in the warm season which extends over six months. ENSO (El Niño Southern Oscillation) events are associated with quite negative mass balance, as shown both by the response of glaciers to the last 1991-1992 event and by the mass balance reconstruction from hydrological data for the two last decades. The glacier retreat is increasing dramatically since the 1980's in the Central Andes due to a succession of ENSO events and the forces of global warming.
  • Idioma: Espanhol

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