Fast valley landscape response to climate change in the Lower Jinsha River, Southeastern Tibetan Plateau: Field investigations and numerical modeling

沉积作用 地质学 末次冰期最大值 高原(数学) 冰消 干旱 河流阶地 表面暴露年代测定 地貌学 气候变化 梯田(农业) 自然地理学 第四纪 水文学(农业) 冰期 古生物学 河流 构造盆地 考古 冰碛 地理 海洋学 岩土工程 数学分析 数学
作者
An Wang,Qiao Jiang,Ganyu Lyu,Tuanle Wang,Bingqiang Zhou,Jie Wei,Yangyong Li,G. Gu,Liangpeng Wan,Ke Liu,Hongyue Pan
出处
期刊:Geomorphology [Elsevier BV]
卷期号:403: 108158-108158 被引量:9
标识
DOI:10.1016/j.geomorph.2022.108158
摘要

The Jinsha River, the upper reaches of the Yangtze River, winds and incises through the eastern margin of the Tibetan Plateau, where Asian monsoon climate prevails. Along the Jinsha River, extensive and thick Quaternary valley fillings and multiple river terraces have been developed. However, their specific relations to climate change and tectonics remain elusive. In this study, we conducted field investigation, chronological studies and numerical modeling in its lower reaches. Our study indicates that the extensive valley fillings in the Wudongde-Menggu segment were formed in cold-arid climate with Optically Stimulated Luminescence (OSL) ages of ~23–19 ka B.P., coinciding with the timing of the Last Glacial Maximum (LGM). We suggest that the post-LGM warming and humidifying, by restrained sediment supply while enhanced discharge, switched the valley from prevailing aggradation into incision. Multiple subsequent fill-cut terraces, postdating the LGM, were formed and nested in the valley fillings. OSL data indicate that sediments of three terraces (T1–T3) were formed at ~10 ka B.P., ~11.5–12.5 ka B.P. and ~13.5 ka B.P., respectively. Our study suggests that these terraces are sensitive records of millennial and sub-millennial cold-arid climate perturbations superimposed over the post-LGM deglaciation. Our modeling highlights a high sensitivity of valley aggradation and incision to cold-arid and warm-wet climate change, as well as a fast valley landscape response in the Jinsha River characterized by high sediment transport influx. We propose that valley landscape and terraces serve as a timely record for climate change in certain rivers with short response time threshold characterized by high sediment transport influx. • Valley filling was driven by the cold-arid climate in the LGM. • Fill-cut terraces record sub-millennial cold-arid climate perturbations. • Modeling supports a sensitive and fast response of Jinsha River to climate change. • The present valley landscape remains in a transient adjustment since the LGM.
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