Large river expansion and global cooling controlled the Plio-Pleistocene weathering intensity records in East Asian margin

IF 2.6 2区 地球科学 Q2 GEOGRAPHY, PHYSICAL Palaeogeography, Palaeoclimatology, Palaeoecology Pub Date : 2024-09-21 DOI:10.1016/j.palaeo.2024.112517
Fangliang Li , Shouye Yang , Daniel O. Breecker , Yulong Guo , Evan J. Ramos , Xiangtong Huang , Kai Deng , Jimin Yu , Sanzhong Li
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Abstract

Silicate weathering has long been considered to maintain the Earth's climate stability, yet how the weathering responds to the late Cenozoic cooling remains unclear, partly because of the complicated factors which obscure the weathering records. Large rivers in East Asia integrate continental weathering history, but how the source-to-sink system evolution affected the weathering signals need to be clarified. We compile proxy data of Nd isotopes, zircon ages and Chemical Index of Alteration (CIA) in East Asian margin and source terranes, along with new proxy data from core CSDP-2 in the shelf region, to understand the large river evolution and assess their influence on weathering proxy records. The median εNd values of East Asian marginal sediments increased from −18.8 in pre-3.6 Ma period to −11.3 since the 1.0 Ma, corresponding to the isotopic signatures in North China Craton and Northeastern (NE) Tibetan Plateau/Loess Plateau terranes, respectively. The zircon ages further confirmed the provenance shift, hinting that the modern-like Huanghe (Yellow River) system has been fully integrated during early Pleistocene, no later than ∼1.0 Ma. This integration facilitated the sediment transportation from plateaus into the continental margin. Consequently, the CIA records in marginal regions show a more significant decrease than other Asian regions, within the context of Plio-Pleistocene cooling. Our study found that the upland expansion of large river system and global cooling jointly controlled the decline in the weathering intensity records, highlighting the importance to understand the evolution of source-to-sink system before interpreting the weathering signals from the continental margin sediments.
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大河扩张和全球变冷控制了东亚边缘的上新世-更新世风化强度记录
长期以来,硅酸盐风化作用一直被认为是维持地球气候稳定的重要因素,但风化作用如何对新生代晚期的冷却做出反应仍不清楚,部分原因是复杂的因素掩盖了风化作用的记录。东亚的大江大河整合了大陆的风化历史,但是源-汇系统演化如何影响风化信号仍有待澄清。我们汇编了东亚边缘和源地的钕同位素、锆石年龄和化学蚀变指数(CIA)等代用数据,以及大陆架地区CSDP-2岩芯的新代用数据,以了解大河流演化并评估其对风化代用记录的影响。东亚边缘沉积物的εNd中值从3.6Ma以前的-18.8增加到1.0Ma以来的-11.3,分别与华北克拉通和青藏高原东北部/黄土高原陆相的同位素特征相对应。锆石年龄进一步证实了来源的转变,暗示了类似现代的黄河(黄河)水系在早更新世就已经完全整合,时间不晚于 1.0 Ma。这种整合促进了沉积物从高原进入大陆边缘。因此,在上新世-更新世变冷的背景下,边缘地区的CIA记录比其他亚洲地区的CIA记录显示了更显著的减少。我们的研究发现,大江大河系统的高地扩张和全球变冷共同控制了风化强度记录的下降,突出了在解释来自大陆边缘沉积物的风化信号之前了解源-汇系统演化的重要性。
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来源期刊
CiteScore
5.90
自引率
10.00%
发文量
398
审稿时长
3.8 months
期刊介绍: Palaeogeography, Palaeoclimatology, Palaeoecology is an international medium for the publication of high quality and multidisciplinary, original studies and comprehensive reviews in the field of palaeo-environmental geology. The journal aims at bringing together data with global implications from research in the many different disciplines involved in palaeo-environmental investigations. By cutting across the boundaries of established sciences, it provides an interdisciplinary forum where issues of general interest can be discussed.
期刊最新文献
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