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Himalayan glaciers experienced significant mass loss during later phases of little ice age.


ABSTRACT: To date, there is a gap in the data about the state and mass balance of glaciers in the climate-sensitive subtropical regions during the Little Ice Age (LIA). Here, based on an unprecedented tree-ring sampling coverage, we present the longest reconstructed mass balance record for the Western Himalayan glaciers, dating to 1615. Our results confirm that the later phase of LIA was substantially briefer and weaker in the Himalaya than in the Arctic and subarctic regions. Furthermore, analysis of the time-series of the mass-balance against other time-series shows clear evidence of the existence of (i) a significant glacial decay and a significantly weaker magnitude of glaciation during the latter half of the LIA; (ii) a weak regional mass balance dependence on either the El Niño-Southern Oscillation (ENSO) or the Total Solar Irradiance (TSI) taken in isolation, but a considerable combined influence of both of them during the LIA; and (iii) in addition to anthropogenic climate change, the strong effect from the increased yearly concurrence of extremely high TSI with El Niño over the past five decades, resulting in severe glacial mass loss. The generated mass balance time-series can serve as a source of reliable reconstructed data to the scientific community.

SUBMITTER: Shekhar M 

PROVIDER: S-EPMC5583174 | biostudies-other | 2017 Sep

REPOSITORIES: biostudies-other

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Himalayan glaciers experienced significant mass loss during later phases of little ice age.

Shekhar Mayank M   Bhardwaj Anshuman A   Singh Shaktiman S   Ranhotra Parminder S PS   Bhattacharyya Amalava A   Pal Ashish K AK   Roy Ipsita I   Martín-Torres F Javier FJ   Zorzano María-Paz MP  

Scientific reports 20170904 1


To date, there is a gap in the data about the state and mass balance of glaciers in the climate-sensitive subtropical regions during the Little Ice Age (LIA). Here, based on an unprecedented tree-ring sampling coverage, we present the longest reconstructed mass balance record for the Western Himalayan glaciers, dating to 1615. Our results confirm that the later phase of LIA was substantially briefer and weaker in the Himalaya than in the Arctic and subarctic regions. Furthermore, analysis of the  ...[more]

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