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Quantifying climate conditions for the formation of coals and evaporites

Xiujuan Bao, Yongyun Hu, Christopher R. Scotese, Xiang Li, Jiaqi Guo, Jiawenjing Lan, Qifan Lin, Shuai Yuan, Mengyu Wei, Zhibo Li, Kai Man, Zihan Yin, Jing Han, Jian Zhang, Qiang Wei, Yonggang Liu, Jun Yang, Ji Nie

2023National Science Review34 citationsDOIOpen Access PDF

Abstract

ABSTRACT Coals and evaporites are commonly used as qualitative indicators of wet and dry environments in deep-time climate studies, respectively. Here, we combine geological records with climate simulations to establish quantitative relationships of coals and evaporites with temperature and precipitation over the Phanerozoic. We show that coal records were associated with a median temperature of 25°C and precipitation of 1300 mm yr−1 before 250 Ma. Afterwards, coal records appeared with temperatures between 0°C and 21°C and precipitation of 900 mm yr−1. Evaporite records were associated with a median temperature of 27°C and precipitation of 800 mm yr−1. The most remarkable result is that net precipitation associated with coal and evaporite records remained constant across time. The results here have important implications for quantifying climate conditions for other lithologic indicators of climate and for predicting exogenetic ore deposits.

Topics & Concepts

EvaporitePrecipitationPhanerozoicCoalGeologyLithologyClimate changeGeochemistryPaleontologySedimentary rockArchaeologyCenozoicGeographyStructural basinMeteorologyOceanographyGeology and Paleoclimatology ResearchHydrocarbon exploration and reservoir analysisGeochemistry and Geologic Mapping
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