西伯利亚-北极大陆架沉积作为北极水文循环的指标

IF 3.3 2区地球科学 Q2 ENVIRONMENTAL SCIENCES

Anthropocene Pub Date : 2023-03-01 DOI:10.1016/j.ancene.2023.100370

Valeriy Y. Rusakov , Alexander P. Borisov

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引用次数: 2

摘要

西伯利亚占据了欧亚大陆的重要部分，该地区的环境变化对北半球的气候系统具有重要影响。西伯利亚河流的沉积物通量对大陆上发生的物理、化学和生物过程的变化非常敏感，这些变化可以在西伯利亚北极陆架的海洋沉积物中得到记录。本文介绍了近100年来陆架沉积物粒度分布、沉积速率和质量堆积速率的资料。年龄模型基于过量铅同位素210Pb的衰变速率，考虑了海洋沉积物的吸附能力，以及沉积物岩心中铯同位素137Cs峰的存在。在20世纪20 - 40年代之前观测到最高的沉积和质量积累速率，并与较大的颗粒尺寸相吻合，这表明一个活跃的沉积物装载海冰和冰山融化的时期。20世纪下半叶，在陆架沉积物中泥沙组分比例增加的背景下，沉积和质量积累速率的系统性降低可以用北极水文循环的加速来解释。

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Sedimentation on the Siberian Arctic Shelf as an indicator of the arctic hydrological cycle

Siberia occupies a significant part of the Eurasian continent and environmental changes in this region can have an important impact on the climate system of the Northern Hemisphere. The sediment flux of Siberian rivers is sensitive to changes in physical, chemical, and biological processes taking place on the continent, and these changes can be recorded in marine sediments on the Siberian Arctic Shelf. This paper presents data on grain-size distribution of the sediments, the sedimentation rates, and the mass accumulation rates on the shelf over the past 100 years. Age models are based on the decay rate of excess lead isotope ²¹⁰Pb, taking into account the sorption capacity of the marine sediments, and the presence of cesium isotope ¹³⁷Cs peaks in the sediment cores. The highest sedimentation and mass accumulation rates were observed prior to the 1920–40 and coincide with larger particle sizes, indicate a period of active sediment-laden sea ice and iceberg melt. Systematic decrease in the sedimentation and mass accumulation rates against the background of an increase in the proportion of silt fractions in the shelf sediments in the second half of the 20th century can be explained by an acceleration of the arctic hydrological cycle.

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来源期刊

Anthropocene Earth and Planetary Sciences-Earth and Planetary Sciences (miscellaneous)

CiteScore

6.30

自引率

0.00%

发文量

审稿时长

102 days

期刊介绍： Anthropocene is an interdisciplinary journal that publishes peer-reviewed works addressing the nature, scale, and extent of interactions that people have with Earth processes and systems. The scope of the journal includes the significance of human activities in altering Earth’s landscapes, oceans, the atmosphere, cryosphere, and ecosystems over a range of time and space scales - from global phenomena over geologic eras to single isolated events - including the linkages, couplings, and feedbacks among physical, chemical, and biological components of Earth systems. The journal also addresses how such alterations can have profound effects on, and implications for, human society. As the scale and pace of human interactions with Earth systems have intensified in recent decades, understanding human-induced alterations in the past and present is critical to our ability to anticipate, mitigate, and adapt to changes in the future. The journal aims to provide a venue to focus research findings, discussions, and debates toward advancing predictive understanding of human interactions with Earth systems - one of the grand challenges of our time.