INVESTIGADORES
LECOMTE Karina Leticia
artículos
Título:
THE MANSO GLACIER DRAINAGE SYSTEM IN THE NORTHERN PATAGONIAN ANDES: AN OVERVIEW OF ITS MAIN HYDROLOGICAL CHARACTERISTICS.
Autor/es:
ANDREA I. PASQUINI; KARINA L. LECOMTE; PEDRO J. DEPETRIS
Revista:
HYDROLOGICAL PROCESSES
Editorial:
JOHN WILEY & SONS LTD
Referencias:
Lugar: LOndres; Año: 2013 vol. 27 p. 217 - 224
ISSN:
0885-6087
Resumen:
The Manso Glacier (~41S, 72W), in the northern Patagonian Andes of Argentina, is a regenerated glacier that, like many other
glaciers in the region and elsewhere, has been showing a significant retreat. Glacial melt water feeds the Manso Superior River,
which, before crossing the Andes to reach a Pacific outfall, flows through the Mascardi (a deep, oligotrophic and monomictic
lake) and significantly smaller Hess and Steffen lakes. Harmonic analysis of Mascardis lake level series suggests that the El
Niño-Southern Oscillation signal has been strong during the 19851995 decade but has grown weaker during the initial decade
of the 21st century. Hydrological trend analyses applied in data recorded in the uppermost reaches show a monthly and annual
decreasing trend in the Manso Superior River discharge series and Mascardis lake level, which are connected with both,
decreasing melt water discharge and (austral) wintertime atmospheric precipitation. Downstream, the decreasing signal initially
looses statistical significance and then, when flowing through Steffen Lake, reverses the lake level trend that becomes
significantly positive. This suggests that, on its way to the Pacific Ocean, the Manso River receives abundant Andean snow melt
water and atmospheric precipitation, which are sufficient to obliterate the negative trend recorded in the uppermost reaches. The
reason for this local phenomenon is that the Manso is an antecedent river (aka superposed stream), and hence, the valley crossing
the Andes allows the incursion of Pacific humidity that modifies the hydrological regime several hundred kilometres inland.
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