从南海北部沉积物推断冰川期风化作用增强及其对气候和海平面变化的动态响应

IF 2.9 Q2 GEOGRAPHY, PHYSICAL
Chi Zhang , Xiangtong Huang , Yanguang Dou , Qiang Hao , Xinning Xu , Shouye Yang
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引用次数: 0

摘要

低纬度地区裸露大陆架沉积物的二次风化可能在冰川期大气二氧化碳消耗中发挥重要作用,这对气候稳定是一个负反馈。然而,要验证冰川风化与气候之间的联系,还需要更多的证据。本研究对地球化学代用指标进行了全面分析,这些代用指标显示了中国南海北部自 244 ka 以来在轨道时间尺度上的硅酸盐风化强度。基于Sr-Nd同位素值和稀土元素(REEs)模式的产地判别结果表明,土著沉积物主要来自台湾岛。硅酸盐风化记录揭示了南中国海北部冰川期两种不同的风化机制,与季风气候和海平面的变化相对应。在海洋同位素阶段 6(MIS 6)早期,风化强度的增加是对气候多变性的响应,而等高线海流对土著沉积物的快速输送使得气候信号得以保存在大陆边缘。相反,在 MIS 2 晚期和 MIS 6 晚期的冰川期,风化强度显著增加,这是海平面上升主导沉积物循环过程的结果。在这种情况下,由于裸露大陆架的二次风化过程,边缘海风化记录并不能真实反映气候变化。我们新的地球化学研究结果强调了气候和海平面变化在冰川期低纬度地区传递和保存硅酸盐风化信号的动态耦合效应。在利用边缘海沉积物进行古气候和古气象重建时,应谨慎对待沉积物从源到汇过程对沉积物组成的复杂影响,整体方法可能会提供更有力的约束。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhanced weathering during glacial periods and its dynamic response to climate and sea-level changes inferred from the northern South China Sea sediments

Secondary weathering of exposed continental shelf sediment at low-latitudes may play a significant role in atmospheric CO2 consumption during glacial periods, which is negative feedback for climate stability. However, more lines of evidences are required to verify the link of glacial weathering with climate. This study presents a comprehensive analysis of geochemical proxies that indicate the silicate weathering intensity in the northern South China Sea (SCS) over orbital timescales since ∼244 ka. Provenance discrimination results, based on the Sr-Nd isotopes values and the patterns of rare earth elements (REEs), suggest that the terrigenous sediment was primarily derived from Taiwan Island. The silicate weathering records revealed two different weathering regimes during glacial periods in the northern SCS, corresponding to changes in monsoon climate and sea-level. During the early period of Marine Isotope Stage 6 (MIS 6), the increase in weathering intensity was in response to climate variability, and the rapid delivery of terrigenous sediment through contour currents allowed for the preservation of climate signals in the continental margin. In contrast, the significant increase in weathering intensity during the glacial periods at late MIS 2 and late MIS 6, was a result of the sedimentary recycling process dominated by sea-level rises. In this case, the marginal sea weathering records did not truly reflect climate changes, due to secondary weathering processes on the exposed continental shelf. Our new geochemical results emphasize the dynamic coupling effects of climate and sea-level changes in transmitting and preserving silicate weathering signals at low-latitude during glacial periods. When using marginal sea sediments for paleoclimatic and paleo-weathering reconstruction, one should be cautious of the complex influence of sediment source-to-sink processes on sediment composition, and a holistic approach may provide more robust constraints.

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来源期刊
Quaternary Science Advances
Quaternary Science Advances Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
4.00
自引率
13.30%
发文量
16
审稿时长
61 days
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