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Subaerial volcanism broke mid-Proterozoic environmental stasis

Shuichang Zhang, Huajian Wang, Xiaomei Wang, Wang Zheng, Jihua Hao, Philip A.E. Pogge von Strandmann, Yuntao Ye, Miao Shi, Yuke Liu, Yitong Lyu

2024Science Advances17 citationsDOIOpen Access PDF

Abstract

The mid-Proterozoic, spanning 1.8 to 0.8 billion years ago, is recognized as a phase of marine anoxia, low marine primary productivity (MPP), and constrained eukaryotic biodiversity. However, emerging evidence suggesting intermittent environmental disturbances and concurrent eukaryotic evolution challenges the notion of a stagnant Earth during this era. We present a study detailing volcanic activity and its consequential impact on terrestrial weathering and MPP, elucidated through the examination of 1.4-billion-year-old tropical offshore sediments. Our investigation, leveraging precise mercury (Hg) and lithium (Li) isotopic analyses, reveals the introduction of fresh rock substrates by local volcanism. This geological event initiated a transformative process, shifting the initial regolith-dominated condition in tropical lowland to a regime of enhanced chemical weathering and denudation efficiency. Notably, the heightened influx of nutrient-rich volcanic derivatives, especially phosphorus, spurred MPP rates and heightened organic carbon burial. These factors emerge as potential drivers in breaking the long-term static state of the mid-Proterozoic.

Topics & Concepts

WeatheringProterozoicEarth scienceGeologySubaerialVolcanismVolcanoGeologic recordRegolithGeochemistryBioturbationSnowball EarthDenudationPaleontologySedimentTectonicsAstrobiologyGlacial periodPhysicsPaleontology and Stratigraphy of FossilsGeology and Paleoclimatology ResearchGeochemistry and Elemental Analysis
Subaerial volcanism broke mid-Proterozoic environmental stasis | Litcius