Early Holocene climate recorded in geomorphological features in Western Tibet

E. T. Brown, R. Bendick, D. L. Bourlès, V. Gaur, P. Molnar, G. M. Raisbeck, F. Yiou

    Research output: Contribution to journalArticlepeer-review

    Abstract

    Cosmic ray exposure ages for formation of perched alluvial terraces and for abandonment of an alluvial/debris-flow fan on opposite sides of the Tangtse Valley (the outflow at the northwest end of Lake Panggong, which is in the Karakorum Range of Western Tibet) provide evidence of a humid period at ∼11.5 to ∼7 ka. This is consistent with other regional records and supports a controversial chronology for the sedimentary record from Lake Panggong. Fan abandonment appears to have occurred at ∼11.5 ka as the climate presumably became more humid in response to initiation of enhanced monsoonal circulation, consistent with previously reported onset of humid conditions in a sedimentary record from the easternmost basin of the lake. In contrast, the terraces did not form until about 7 ka with downcutting of the transverse valley by overflow from Lake Panggong. This lag can be explained in light of the bathymetry of Lake Panggong; the modern lake consists of five basins separated by shallow sills, and outflow through the Tangtse Valley could not occur until the water level was substantially above its present level. The easternmost basin receives the inflow of the major rivers feeding the lake, making its chemistry highly sensitive to changes in precipitation. However, sustained wet conditions are required to fill the basins to the west to the sill depth necessary for overflow through the Tangtse Valley and resultant downcutting and terrace formation.

    Original languageEnglish
    Pages (from-to)141-151
    Number of pages11
    JournalPalaeogeography, Palaeoclimatology, Palaeoecology
    Volume199
    Issue number1-2
    DOIs
    StatePublished - Oct 15 2003

    Keywords

    • Cosmogenic nuclides
    • Dating
    • Debris flow
    • Fluvial features
    • Karakorum
    • Paleoclimate

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