Evaluation of Little Ice Age cooling in Western Central Andes, suggested by paleoELAs, in contrast with global warming since late 19th century deduced from instrumental records

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This paper attempts to evaluate climate cooling (ºC) during the glacial expansion phases using the product GTV•_ELA, where GTV is the vertical air temperature gradient (ºC/m) and _ELA (m) the difference in level observed between the Equilibrium Line Altitude (ELA) reconstructions for current and pas...

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Detalles Bibliográficos
Autores: Úbeda Palenque, José, Palacios Estremera, David, Campos Oset, Néstor, Giraldez, Claudia, García, Eduardo, Quirós, Tatiana
Formato: objeto de conferencia
Fecha de Publicación:2015
Institución:Instituto Geológico, Minero y Metalúrgico
Repositorio:INGEMMET-Institucional
Lenguaje:español
OAI Identifier:oai:repositorio.ingemmet.gob.pe:20.500.12544/4390
Enlace del recurso:https://hdl.handle.net/20.500.12544/4390
Nivel de acceso:acceso abierto
Materia:Glaciares
Cambio climático
http://purl.org/pe-repo/ocde/ford#1.05.00
http://purl.org/pe-repo/ocde/ford#1.05.06
Descripción
Sumario:This paper attempts to evaluate climate cooling (ºC) during the glacial expansion phases using the product GTV•_ELA, where GTV is the vertical air temperature gradient (ºC/m) and _ELA (m) the difference in level observed between the Equilibrium Line Altitude (ELA) reconstructions for current and past glaciers. With this aim the Area x Altitude Balance Ratio-(AABR) method was used to produce reconstructions of present ELAs (2002-2010) and paleoELAs corresponding to the last glacier advance phase. The reconstructions were produced in three study areas located along a N-S transect of the western cordillera in the Central Andes: the south-western sector of the Nevado Hualcán (9ºS, 77ºW; Giráldez 2011); the southern slope of the Cordillera Pariaqaqa (12ºS, 76ºW; Quirós, 2013) and the NW, NE, SE and SW quadrants of the Nevado Coropuna (16ºS, 72ºW; García 2013; Úbeda 2011; Campos, 2012). The three mountains exceed 6000 m altitude, their summit areas are covered by glaciers, and on their slopes there are existing well-conserved moraines deposited by the last advances near the present front of the ice masses. Although there are no absolute dates to confirm this hypothesis, it has been assumed that the last glacial advances occurred during the Little Ice Age (LIA), which the oxygen isotopes of the Nevado Huascarán (9ºS, 77ºW) date to the period 1500-1890. For the Hualcán and Pariaqaqa the mean global value of the Earth’s GTV (6.5ºC/km) was used, considered valid for the Tropics. On the Coropuna GTV=8.4ºC/km was used, based on high resolution sensors installed in situ since 2007 (Úbeda 2011). This gradient is approaching the upper limit of the dry adiabatic gradient (9.8ºC/km), as the Coropuna region is more arid than the other case study areas. The climate cooling estimates deduced from the product GTV•_ELA were compared with the global warming shown by the 1880-2012 series, _T=0.85ºC, and 1850/1900-2003/2012, _T=0.78ºC. The differences are small (averaging 0.05 and 0.12 ºC) suggesting that the product GTV•_ELA may be a good indicator of climate cooling during glacial expansion phases. However, the role played by precipitation has not yet been determined, and this will be examined in future research.
Evaluation of Little Ice Age cooling in Western Central Andes, suggested by paleoELAs, in contrast with global warming since late 19th century deduced from instrumental records
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