Shun Cai scite author profile

The combination of different topographic and climatic conditions results in varied precipitation-runoff relations, which in turn influences hillslope erosion, sediment transport and bedrock incision across mountainous landscapes. The runoff coefficient is a suitable tool to represent precipitation-runoff relations, but the spatial distribution of the runoff coefficient across tectonically active mountains in semi-arid environments has received little attention because of limited data availability. We calculated annual runoff coefficients over 22 years for 26 drainage basins across the semi-arid Qilian Mountains based on: (i) annual discharge records; and (ii) the China Meteorological Forcing Dataset to enhance our understanding of the precipitation-runoff processes. The mean annual runoff coefficients show no obvious spatial trends. When compared to potential controlling factors, mean annual runoff coefficients are highly correlated with mean slope rather than any climatic characteristics (e.g., mean annual precipitation and Normalized Difference Vegetation Index). The slope-dependent runoff coefficient could theoretically have enhanced the topographic control on erosion rates and dampen the influence of precipitation. The enhanced discharge for drainage basins with less precipitation but steep topography in the western Qilian Mountains will enable fluvial incision to keep pace with ongoing uplift caused by the northward growth of the Qilian Mountains. The geomorphic implications are that tectonic rather than climatic factors are more significant for long-term landscape evolution in arid and semi-arid contexts.

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Deduction of the age of the Dali hominin fossil based on regional geomorphic-sedimentary evolution

Cai

Zhang

et al. 2020

Geomorphology

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The episodic geomorphological-sedimentary evolution of different basins in the Fenwei Graben and its tectonic implication

Zhou

Cai

2017

J. Geogr. Sci.

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There are a series of basins in the Fenwei Graben. Field survey found that there took place several paleolake regressions or intensive stream down-incisions in all basins during the Mid-Late Quaternary. The lowest and oldest paleosol/loess units overlying three of the lacustrine terraces or alluvial ones and some paleomagenetism data from the lacustrine sediment indicate that the onset times of three paleolake regressions or intensive stream down-incisions are synchronous with the formation of L 9 , L 6 and L 2 respectively in the Weihe Basin, S 8 , S 5 and S 1 respectively in the Linfen-Taiyuan-Xingding Basins, and L 8 , L 5 and L 1 respectively in the Datong Basin. The difference in the onset time of each lake regressions or intensive stream down-incision in different basins reveals that the farther the basin is from the Tibetan Plateau, the later it took place. Taking these field facts and the former research results in terms of the regional tectonic movement into account, it is inferred that the tectonic movement of the Tibetan Plateau most probably controlled such geomorphologicalsedimentary evolution in the graben.

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How can a youthful mountain survive in a foreland setting? – Constraining the uplift threshold rate by numerical simulation

Geng¹,

Cai²,

Lü³

et al. 2022

Science Bulletin

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Shun Cai

Numerical simulation of landscape evolution and mountain uplift history constrain—A case study from the youthful stage mountains around the central Hexi Corridor, NE Tibetan Plateau

Topographic controls on the annual runoff coefficient and implications for landscape evolution across semiarid Qilian Mountains, NE Tibetan Plateau

Deduction of the age of the Dali hominin fossil based on regional geomorphic-sedimentary evolution

The episodic geomorphological-sedimentary evolution of different basins in the Fenwei Graben and its tectonic implication

How can a youthful mountain survive in a foreland setting? – Constraining the uplift threshold rate by numerical simulation

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