中国东北四海龙湾麻珥湖作为人类世系列的候选全球边界层型剖面和点

Yongming Han, A. Zhisheng, Dewen Lei, Weijian Zhou, Luyuan Zhang, Xue Zhao, D. Yan, R. Arimoto, N. Rose, S. Roberts, Li Li, Yalan Tang, Xingqi Liu, Xuewu Fu, Tobias Schneider, Xiaolin Hou, Jianghu Lan, L. Tan, Xingxing Liu, Jing Hu, Yunning Cao, Weiguo Liu, Feng Wu, Tianli Wang, X. Qiang, Ning Chen, Peng Cheng, Yifei Hao, Qiyuan Wang, G. Chu, Meiling Guo, Mei Han, Zhihai Tan, C. Wei, U. Dusek
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引用次数: 4

摘要

位于中国东北部的四海龙湾玛尔湖是人类世划分的候选全球边界层型剖面和点。该湖的变异沉积物是由交替的异成因大气输入和自生湖泊过程形成的,并保存了全球大陆范围内环境和人类影响的记录。Varve计数和辐射测年为该遗址提供了精确的年分辨率沉积物年表。放射性(239240Pu、129I和烟尘14C)、化学(球状碳质颗粒、多环芳烃、烟尘、重金属、δ13C等)、物理(磁化率和灰阶)和生物(环境DNA)指标的时间序列记录都显示,20世纪中期的变化很快,与沉积物明显的岩性变化相吻合。对这些指标的统计分析表明,1954年的CE达到了临界点。239240Pu活动遵循典型的单峰全球分布剖面,被认为是人类世的主要标志。88岁时239240Pu活动迅速增加 SHLW21-Fr-13(1953 CE)岩芯中的mm深度与其他人为指标的快速变化和大加速度同步,标志着人类世的开始。结果表明,四海龙湾马尔湖是人类世GSSP的理想地点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Sihailongwan Maar Lake, northeastern China as a candidate Global boundary Stratotype Section and Point for the Anthropocene series
Sihailongwan Maar Lake, located in Northeast China, is a candidate Global boundary Stratotype Section and Point (GSSP) for demarcation of the Anthropocene. The lake’s varved sediments are formed by alternating allogenic atmospheric inputs and authigenic lake processes and store a record of environmental and human impacts at a continental-global scale. Varve counting and radiometric dating provided a precise annual-resolution sediment chronology for the site. Time series records of radioactive (239,240Pu, 129I and soot 14C), chemical (spheroidal carbonaceous particles, polycyclic aromatic hydrocarbons, soot, heavy metals, δ13C, etc.), physical (magnetic susceptibility and grayscale) and biological (environmental DNA) indicators all show rapid changes in the mid-20th century, coincident with clear lithological changes of the sediments. Statistical analyses of these proxies show a tipping point in 1954 CE. 239,240Pu activities follow a typical unimodal globally-distributed profile, and are proposed as the primary marker for the Anthropocene. A rapid increase in 239,240Pu activities at 88 mm depth in core SHLW21-Fr-13 (1953 CE) is synchronous with rapid changes of other anthropogenic proxies and the Great Acceleration, marking the onset of the Anthropocene. The results indicate that Sihailongwan Maar Lake is an ideal site for the Anthropocene GSSP.
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