TY - JOUR
T1 - Pulsed exhumation of interior eastern Tibet
T2 - Implications for relief generation mechanisms and the origin of high-elevation planation surfaces
AU - Zhang, Huiping
AU - Oskin, Michael E.
AU - Liu-Zeng, Jing
AU - Zhang, Peizhen
AU - Reiners, Peter W.
AU - Xiao, Ping
N1 - Funding Information: This current research was supported jointly by the National Science Foundation of China (Grant Nos. 41172179 , 41225010 and 41272196 ), and Strategic Priority Research Program of the CAS ( XDB03020201 ); M.O. and P.R. were supported by NSF EAR-1050060 . We gratefully acknowledge Eric Kirby, Editor An Yin and two anonymous reviewers for constructive reviews. We appreciate comments from Peter Molnar, Doug Burbank and Marin Clark on the early draft and Dr. Ping Fu for sharing their glacial landscape mapping data, and Alexis Ault, Uttam Chowdhury, Erin Abel for helping with apatite and zircon analyses. Publisher Copyright: © 2016 Elsevier B.V.
PY - 2016/9/1
Y1 - 2016/9/1
N2 - River incision into a widespread, upland low-relief landscape, and related patterns of exhumation recorded by low-temperature thermochronology, together underpin geodynamic interpretations for crustal thickening and uplift of the eastern Tibetan Plateau. We report results from a suite of 11 (U–Th–Sm)/He cooling-age samples. Eight samples comprise a 1.2 km relief section collected from elevations up to 4800 m in the Jiulong Shan, an elevated, rugged region located in the hinterland of the Yalong-Longmen Shan Thrust Belt, and surrounded on three sides by upland low-relief landscape surfaces. Zircon and apatite cooling ages record two episodes of rapid exhumation in the early Oligocene and late Miocene, that were separated by a period of stability from ∼30 to 15 Ma. The first episode is consistent with a similar pulse evident from the Longmen Shan. The second episode is ongoing, and when integrated with adjacent cooling-age data sets, shows that doming of the Jiulong Shan has resulted in 2 to 4 km of differential exhumation of the plateau interior. We show from a compilation of glacial landform-mapping that the elevation of the plateau surface closely tracks global last glacial maximum equilibrium line altitude. We hypothesize that smoothing of highlands by efficient glacial and periglacial erosion, coupled with potential river captures and conveyance of sediments via external drainage, can yield an apparently continuous low-relief plateau landscape formed diachronously at high elevation.
AB - River incision into a widespread, upland low-relief landscape, and related patterns of exhumation recorded by low-temperature thermochronology, together underpin geodynamic interpretations for crustal thickening and uplift of the eastern Tibetan Plateau. We report results from a suite of 11 (U–Th–Sm)/He cooling-age samples. Eight samples comprise a 1.2 km relief section collected from elevations up to 4800 m in the Jiulong Shan, an elevated, rugged region located in the hinterland of the Yalong-Longmen Shan Thrust Belt, and surrounded on three sides by upland low-relief landscape surfaces. Zircon and apatite cooling ages record two episodes of rapid exhumation in the early Oligocene and late Miocene, that were separated by a period of stability from ∼30 to 15 Ma. The first episode is consistent with a similar pulse evident from the Longmen Shan. The second episode is ongoing, and when integrated with adjacent cooling-age data sets, shows that doming of the Jiulong Shan has resulted in 2 to 4 km of differential exhumation of the plateau interior. We show from a compilation of glacial landform-mapping that the elevation of the plateau surface closely tracks global last glacial maximum equilibrium line altitude. We hypothesize that smoothing of highlands by efficient glacial and periglacial erosion, coupled with potential river captures and conveyance of sediments via external drainage, can yield an apparently continuous low-relief plateau landscape formed diachronously at high elevation.
KW - eastern Tibet
KW - landscape evolution
KW - low-relief surfaces
KW - low-temperature thermochronology
KW - pulsed exhumation
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U2 - 10.1016/j.epsl.2016.05.048
DO - 10.1016/j.epsl.2016.05.048
M3 - Article
SN - 0012-821X
VL - 449
SP - 176
EP - 185
JO - Earth and Planetary Science Letters
JF - Earth and Planetary Science Letters
ER -