Late Holocene extraordinary palaeoflood events and their climatological context in the Shahe River, Huaihe River Basin, China

IF 2.7 3区地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY

Journal of Asian Earth Sciences Pub Date : 2024-10-01 DOI:10.1016/j.jseaes.2024.106346

Lijun Shang , Xiaochun Zha, Chunchang Huang, Yuqin Li, Jiangli Pang, Yali Zhou, Yang Liu, Yuwei Wen

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引用次数: 0

Abstract

Palaeoflood events represent immediate hydrological responses to extreme climate change. A loess-paleosol sedimentary profile containing three overbank flood deposits (OFD1, OFD2, and OFD3) layers that recorded palaeoflood events was discovered on the platform scarp of the Shahe River, a tributary of the Huaihe River through a field investigation. Sediment samples were collected, and their physicochemical properties, as well as optically stimulated luminescence (OSL) dating, were analyzed. The results indicated that OFD1, OFD2, and OFD3 were indeed overbank flood deposits influenced by hydrodynamic forces. However, OFD3 and OFD1 consisted primarily of sand (>60 %) in terms of particle size composition, whereas paleosol (S₀), transitional loess (L_t), and Malan loess (L₁) mainly comprised silt (>70 %). Moreover, the magnetic susceptibility values of OFD3 and OFD1 exceeded those of S₀, L_t, and L₁. The contents of Na₂O, K₂O, and SiO₂ were higher, while their contents of Al₂O₃ and Fe₂O₃ were lower in OFD3 and OFD1. These suggested that OFD3 and OFD1 may originate from weathered bedrock materials transported from the upper reaches of the Shahe River under significant hydrodynamic forces. The particle size composition, magnetic susceptibility value, and geochemical element composition of OFD2 were similar to those of S₀, L_t, and L₁ but diverged significantly from those of OFD1 and OFD3, indicating that OFD2 originated from loess and soil sediments widely distributed on both sides of the valley. Through OSL dating and stratigraphic chronological framework of the sedimentary profile, these three extraordinary palaeoflood events in the Huaihe River Basin occurred during the late Holocene, ∼1470 a. The analysis of high-resolution climate proxy indicators, atmospheric circulation factors, and global mean temperature demonstrated a direct correlation between these extreme flood events and abrupt climate changes during ∼ 1470 a. This period corresponded to severe climate deterioration during the Northern and Southern Dynasties (589–420 CE) in China. These findings are crucial for enhancing our understanding of regional hydrological climate responses to global changes.

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中国淮河流域沙河全新世晚期异常古洪水事件及其气候学背景

古洪水事件是对极端气候变化的直接水文反应。通过野外调查，我们在淮河支流沙河的台垄上发现了一个黄土-页岩沉积剖面，其中包含三个记录古洪水事件的过岸洪积层（OFD1、OFD2 和 OFD3）。采集了沉积物样品，并对其物理化学性质和光激发发光（OSL）测年进行了分析。结果表明，OFD1、OFD2 和 OFD3 确实是受流体动力影响的过岸洪积物。不过，从粒度组成来看，OFD3 和 OFD1 主要由沙（60%）组成，而古溶岩（S0）、过渡黄土（Lt）和马兰黄土（L1）则主要由粉砂（70%）组成。此外，OFD3 和 OFD1 的磁感应强度值超过了 S0、Lt 和 L1。在 OFD3 和 OFD1 中，Na2O、K2O 和 SiO2 的含量较高，而 Al2O3 和 Fe2O3 的含量较低。这表明 OFD3 和 OFD1 可能来自沙河上游在强大水动力作用下搬运过来的风化基岩物质。OFD2 的粒度组成、磁感应强度值和地球化学元素组成与 S0、Lt 和 L1 相似，但与 OFD1 和 OFD3 有明显差异，表明 OFD2 起源于广泛分布于河谷两侧的黄土和土壤沉积物。通过对高分辨率气候代用指标、大气环流因子和全球平均气温的分析，这些特大洪水事件与1470年代的气候突变直接相关。这些发现对于加深我们理解区域水文气候对全球变化的响应至关重要。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Asian Earth Sciences 地学-地球科学综合

CiteScore

5.90

自引率

10.00%

发文量

324

审稿时长

71 days

期刊介绍： Journal of Asian Earth Sciences has an open access mirror journal Journal of Asian Earth Sciences: X, sharing the same aims and scope, editorial team, submission system and rigorous peer review. The Journal of Asian Earth Sciences is an international interdisciplinary journal devoted to all aspects of research related to the solid Earth Sciences of Asia. The Journal publishes high quality, peer-reviewed scientific papers on the regional geology, tectonics, geochemistry and geophysics of Asia. It will be devoted primarily to research papers but short communications relating to new developments of broad interest, reviews and book reviews will also be included. Papers must have international appeal and should present work of more than local significance. The scope includes deep processes of the Asian continent and its adjacent oceans; seismology and earthquakes; orogeny, magmatism, metamorphism and volcanism; growth, deformation and destruction of the Asian crust; crust-mantle interaction; evolution of life (early life, biostratigraphy, biogeography and mass-extinction); fluids, fluxes and reservoirs of mineral and energy resources; surface processes (weathering, erosion, transport and deposition of sediments) and resulting geomorphology; and the response of the Earth to global climate change as viewed within the Asian continent and surrounding oceans.