Early Cretaceous (late Barremian−Early Albian) expanding aeolian activity in East Asia: Evidence from the stratigraphic evolution of aeolian deposition in the Baiyin-Jingyuan Basin, northern China

GSA Bulletin Pub Date : 2023-04-06 DOI:10.1130/b36747.1

Fei Wang, Zaijun Li, Xiaoyun Sun, Jie Zhao, Yuxin Fan, D. Xia, R. Ayyamperumal, Baofeng Li

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Abstract

Cretaceous aeolian deposition is important for understanding variations of the tropical−subtropical atmospheric circulation under the greenhouse background. Nevertheless, detailed records revealing the response of aeolian deposition to rising atmospheric CO2 are still lacking. To shed light on their linkage, we examined the Early Cretaceous stratigraphic evolution of the Hekou Group in the Baiyin-Jingyuan Basin, northern China, using multiple methods. The results indicate that the lower Hekou Group is characterized by a transition from submerged alluvial to shallow lacustrine deposition. Overlying these facies is loess-like deposition without bedding, distinguished by grain-size distribution, surface microtextures, and geochemical analysis, which is followed by palustrine deposition. In the palustrine deposition, aeolian sand-dune and sand-sheet deposition can be identified, which gradually developed upward in the Hekou Group, with intercalated wet interdunes, damp interdunes, and pebble-sand sheetflood beds. Finally, aeolian sand dunes and sand sheets dominated the upper Hekou Group. Overall, the upward-changing facies indicated the development of aeolian deposition from an aqueous environment, revealing a long-term paleoclimatic shift from semi-humid, semi-arid to extremely arid, which reflects the expanded aeolian activity in East Asia during the Early Cretaceous. Furthermore, various records were combined to investigate the expanding aeolian activity in East Asia, which indicates a west−east-trending arid belt that was wider than the modern counterpart during the late Barremian−Early Aptian and late Aptian−Early Albian, respectively. These stepwise expansions of aeolian activity were mainly driven by rising atmospheric CO2, which strengthened the subsiding branches of Hadley circulation and the subtropical high, eventually leading to intensified aridification.

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早白垩世(晚巴雷世—早白垩世)东亚地区扩大的风成活动:来自中国北方白银-靖远盆地风成沉积地层演化的证据

白垩纪风成沉积对认识温室背景下热带-亚热带大气环流的变化具有重要意义。然而，揭示风成沉积对大气CO2上升的响应的详细记录仍然缺乏。为了阐明它们之间的联系，我们采用多种方法研究了中国北方白银-靖远盆地河口群早白垩世的地层演化。结果表明，下河口群具有由淹没冲积向浅湖沉积过渡的特征。这些相的上覆为无层理的类黄土沉积，以粒度分布、表面显微结构和地球化学分析为特征，其次是滩相沉积。在河口群沉积中，可识别风成沙丘和沙板沉积，在河口群中逐渐向上发育，具有湿间丘、湿间丘和卵石-沙板洪水层。河口群上部以风成沙丘和沙片为主。总体而言，上向变化的风成沉积相反映了东亚地区早白垩世风成活动的扩大，反映了从水环境到半湿润、半干旱到极端干旱的长期古气候转变。此外，综合各种记录考察了东亚地区风成活动的扩大，表明在巴雷米亚晚期-早阿普tian和阿普tian晚期-早阿普tian时期，东亚地区的西-东向干旱带比现代干旱带宽。这些风成活动的逐步扩大主要是由大气CO2的上升驱动的，大气CO2的上升加强了Hadley环流的下沉分支和副热带高压，最终导致干旱化加剧。

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