New insights into the decadal variability in glacier volume of a tropical ice cap, Antisana (0°29′ S, 78°09′ W), explained by the morpho-topographic and climatic context

We present a comprehensive study of the evolution of the glaciers on the Antisana ice cap (tropical Andes) over the period 1956–2016. Based on geodetic observations of aerial photographs and high-resolution satellite images, we explore the effects of morpho-topographic and climate variables on glaci...

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Published inThe cryosphere Vol. 16; no. 11; pp. 4659 - 4677
Main Authors Basantes-Serrano, Rubén, Rabatel, Antoine, Francou, Bernard, Vincent, Christian, Soruco, Alvaro, Condom, Thomas, Ruíz, Jean Carlo
Format Journal Article
LanguageEnglish
Published Katlenburg-Lindau Copernicus GmbH 04.11.2022
Copernicus
Copernicus Publications
Subjects
Aerial photographs
Aerial photography
Climate
Climate change
Disintegration
Earth Sciences
El Nino
Glaciers
Glaciology
Ice
Ice caps
Image resolution
Precipitation
Satellite imagery
Sciences of the Universe
Seasonal variations
Southern Oscillation
Southern Oscillation Index
Surface area
Topographic effects
Topography
Variability
Volcanoes
Weather
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Summary:We present a comprehensive study of the evolution of the glaciers on the Antisana ice cap (tropical Andes) over the period 1956–2016. Based on geodetic observations of aerial photographs and high-resolution satellite images, we explore the effects of morpho-topographic and climate variables on glacier volumes. Contrasting behaviour was observed over the whole period, with two periods of strong mass loss, 1956–1964 (−0.72 m w.e. yr−1) and 1979–1997 (−0.82 m w.e. yr−1), and two periods with slight mass loss, 1965–1978 (0.10 m w.e. yr−1) and 1998–2016 (−0.26 m w.e. yr−1). There was a 42 % reduction in the total surface area of the ice cap. Individually, glacier responses were modulated by morpho-topographic variables (e.g. maximum and median altitude and surface area), particularly in the case of the small tongues located at low elevations (Glacier 1, 5 and 16) which have been undergoing accelerated disintegration since the 1990s and will likely disappear in the coming years. Moreover, thanks to the availability of aerial data, a surging event was detected on the Antisana Glacier 8 (G8) in the 2009–2011 period; such an event is extremely rare in this region and deserves a dedicated study. Despite the effect of the complex topography, glaciers have reacted in agreement with changes in climate forcing, with a stepwise transition towards warmer and alternating wet–dry conditions since the mid-1970s. Long-term decadal variability is consistent with the warm–cold conditions observed in the Pacific Ocean represented by the Southern Oscillation index.
ISSN:1994-0424
1994-0416
1994-0424
1994-0416
DOI:10.5194/tc-16-4659-2022