Late Cenozoic uplift of southeastern Tibet

M. K. Clark; M. A. House; L. H. Royden; K. X. Whipple; B. C. Burchfiel; X. Zhang; W. Tang

doi:10.1130/G21265.1

Late Cenozoic uplift of southeastern Tibet

M. K. Clark, M. A. House, L. H. Royden, K. X. Whipple, B. C. Burchfiel, X. Zhang, W. Tang

Research output: Contribution to journal › Article › peer-review

674 Scopus citations

Abstract

The age of surface uplift in southeastern Tibet is currently unknown, but the initiation of major river incision can be used as a proxy for the timing of initial uplift. The topographically high eastern plateau and gently dipping southeastern plateau margin are mantled by an elevated, low-relief relict landscape that formed at a time of slow erosion at low elevation and low tectonic uplift rates prior to uplift of the eastern Tibetan Plateau. Thermochronology from deep river gorges that are cut into the relict landscape shows slow cooling between ca. 100 and ca. 10-20 Ma and a change to rapid cooling after ca. 13 Ma with initiation of rapid river incision at 0.25-0.5 mm/yr between 9 and 13 Ma. A rapid increase in mean elevation of eastern Tibet beginning at this time supports tectonic-climate models that correlate the lateral (eastern) expansion of high topography in Tibet with the late Miocene intensification of the Indian and east Asian monsoons.

Original language	English (US)
Pages (from-to)	525-528
Number of pages	4
Journal	Geology
Volume	33
Issue number	6
DOIs	https://doi.org/10.1130/G21265.1
State	Published - Jun 2005
Externally published	Yes

Keywords

East Asian monsoon
Indian monsoon
Miocene
Tectonics
Thermal modeling
Thermochronology
Tibet

ASJC Scopus subject areas

Geology

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10.1130/G21265.1

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title = "Late Cenozoic uplift of southeastern Tibet",

abstract = "The age of surface uplift in southeastern Tibet is currently unknown, but the initiation of major river incision can be used as a proxy for the timing of initial uplift. The topographically high eastern plateau and gently dipping southeastern plateau margin are mantled by an elevated, low-relief relict landscape that formed at a time of slow erosion at low elevation and low tectonic uplift rates prior to uplift of the eastern Tibetan Plateau. Thermochronology from deep river gorges that are cut into the relict landscape shows slow cooling between ca. 100 and ca. 10-20 Ma and a change to rapid cooling after ca. 13 Ma with initiation of rapid river incision at 0.25-0.5 mm/yr between 9 and 13 Ma. A rapid increase in mean elevation of eastern Tibet beginning at this time supports tectonic-climate models that correlate the lateral (eastern) expansion of high topography in Tibet with the late Miocene intensification of the Indian and east Asian monsoons.",

keywords = "East Asian monsoon, Indian monsoon, Miocene, Tectonics, Thermal modeling, Thermochronology, Tibet",

author = "Clark, {M. K.} and House, {M. A.} and Royden, {L. H.} and Whipple, {K. X.} and Burchfiel, {B. C.} and X. Zhang and W. Tang",

year = "2005",

month = jun,

doi = "10.1130/G21265.1",

language = "English (US)",

volume = "33",

pages = "525--528",

journal = "Geology",

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T1 - Late Cenozoic uplift of southeastern Tibet

AU - Clark, M. K.

AU - House, M. A.

AU - Royden, L. H.

AU - Whipple, K. X.

AU - Burchfiel, B. C.

AU - Zhang, X.

AU - Tang, W.

PY - 2005/6

Y1 - 2005/6

N2 - The age of surface uplift in southeastern Tibet is currently unknown, but the initiation of major river incision can be used as a proxy for the timing of initial uplift. The topographically high eastern plateau and gently dipping southeastern plateau margin are mantled by an elevated, low-relief relict landscape that formed at a time of slow erosion at low elevation and low tectonic uplift rates prior to uplift of the eastern Tibetan Plateau. Thermochronology from deep river gorges that are cut into the relict landscape shows slow cooling between ca. 100 and ca. 10-20 Ma and a change to rapid cooling after ca. 13 Ma with initiation of rapid river incision at 0.25-0.5 mm/yr between 9 and 13 Ma. A rapid increase in mean elevation of eastern Tibet beginning at this time supports tectonic-climate models that correlate the lateral (eastern) expansion of high topography in Tibet with the late Miocene intensification of the Indian and east Asian monsoons.

AB - The age of surface uplift in southeastern Tibet is currently unknown, but the initiation of major river incision can be used as a proxy for the timing of initial uplift. The topographically high eastern plateau and gently dipping southeastern plateau margin are mantled by an elevated, low-relief relict landscape that formed at a time of slow erosion at low elevation and low tectonic uplift rates prior to uplift of the eastern Tibetan Plateau. Thermochronology from deep river gorges that are cut into the relict landscape shows slow cooling between ca. 100 and ca. 10-20 Ma and a change to rapid cooling after ca. 13 Ma with initiation of rapid river incision at 0.25-0.5 mm/yr between 9 and 13 Ma. A rapid increase in mean elevation of eastern Tibet beginning at this time supports tectonic-climate models that correlate the lateral (eastern) expansion of high topography in Tibet with the late Miocene intensification of the Indian and east Asian monsoons.

KW - East Asian monsoon

KW - Indian monsoon

KW - Miocene

KW - Tectonics

KW - Thermal modeling

KW - Thermochronology

KW - Tibet

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JO - Geology

JF - Geology

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ER -

Late Cenozoic uplift of southeastern Tibet

Abstract

Keywords

ASJC Scopus subject areas

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