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The evolution of Earth's surficial Mg cycle over the past 2 billion years.

Zhiguang XiaShilei 李石磊 LiZhongya HuOr M BialikTianyu ChenMebrahtu F WeldeghebrielQishun FanJun-Xuan FanXiang-Dong WangShichao AnFei-Fei ZhangHaoran XuJiayang ChenZhihan JiShu-Zhong ShenTim K LowensteinWei-Qiang Li
Published in: Science advances (2024)
The surficial cycling of Mg is coupled with the global carbon cycle, a predominant control of Earth's climate. However, how Earth's surficial Mg cycle evolved with time has been elusive. Magnesium isotope signatures of seawater (δ 26 Mg sw ) track the surficial Mg cycle, which could provide crucial information on the carbon cycle in Earth's history. Here, we present a reconstruction of δ 26 Mg sw evolution over the past 2 billion years using marine halite fluid inclusions and sedimentary dolostones. The data show that δ 26 Mg sw decreased, with fluctuations, by about 1.4‰ from the Paleoproterozoic to the present time. Mass balance calculations based on this δ 26 Mg sw record reveal a long-term decline in net dolostone burial (NDB) over the past 2 billion years, due to the decrease in dolomitization in the oceans and the increase in dolostone weathering on the continents. This underlines a previously underappreciated connection between the weathering-burial cycle of dolostone and the Earth's climate on geologic timescales.
Keyphrases
  • climate change
  • healthcare
  • genome wide
  • machine learning
  • social media
  • molecular dynamics simulations
  • mass spectrometry
  • solid phase extraction