Journal
QUATERNARY RESEARCH
Volume 75, Issue 3, Pages 597-604Publisher
CAMBRIDGE UNIV PRESS
DOI: 10.1016/j.yqres.2010.12.016
Keywords
Himalaya; Stable isotopes; Lacustrine sediments; Younger Dryas; Paleoclimate; Hardwater effect; Luminescence dating; Late Pleistocene; Monsoon; Chemical weathering
Funding
- Michigan Space Grant Consortium
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Stable isotope analysis along with radiocarbon and luminescence dating of late Pleistocene lacustrine deposits at Burfu in the higher central Himalaya are used to interpret hydrologic changes in the lake basin. From 15.5 ka to similar to 14.5 ka the Burfu lake was largely fed by melting glaciers. A warming event at 14.5 ka suggests an enhanced monsoon and increased carbonate weathering. From similar to 13.5 ka to similar to 12.5 ka the isotopic data suggest large-amplitude climate variability. Following this, the isotope data suggest a short-lived, abrupt cooling event, comprising a similar to 300-yr intense cool period followed by a similar to 500-yr interval of moderate climate. A shift in isotope values at similar to 11.3 ka may signify a strengthening monsoon in this region. The inferred climatic excursions appear to be correlative, at least qualitatively, with global climatic events, and perhaps the Burfu lake sequence provides regional evidence of globally recorded excursions. This study also suggests a potential use of radiocarbon ages in specific environments as a paleoenvironmental proxy. (C) 2011 Published by Elsevier Inc. on behalf of University of Washington.
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