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Sustained and intensified lacustrine methane cycling during Early Permian climate warming

Funing Sun, Wenxuan Hu, Jian Cao, Xiaolin Wang, Zhirong Zhang, Jahandar Ramezani, Shu‐zhong Shen

2022Nature Communications72 citationsDOIOpen Access PDF

Abstract

Abstract Lakes are a major emitter of the atmospheric greenhouse gas methane (CH 4 ); however, their roles in past climate warming episodes remain poorly understood owing to a scarcity of geological records. Here we report the occurrence of sustained and intensified microbial CH 4 cycling in paleo-Lake Junggar in northwestern China, one of the largest known Phanerozoic lakes, during Early Permian climate warming. High-precision U-Pb geochronology refines the age of the upper Lucaogou Formation to the Artinskian, which marks a major glacial-to-postglacial climate transition. The 13 C-enriched authigenic dolomites indicate active methanogenesis in the anoxic lake sediments, and 13 C-depleted hopanes suggest vigorous methanotrophy in the water column. The intensification of CH 4 cycling coincided with increasing global temperature, as evidenced from elevated continental chemical weathering. Our results suggest that the lacustrine CH 4 emissions acted as a positive feedback to global warming and contributed to the demise of the Late Paleozoic Ice Age.

Topics & Concepts

Snowball EarthMethanogenesisGeologyGlobal warmingAnoxic watersGreenhouse gasAuthigenicClimate changeGlacial periodEarth scienceMethanePaleoclimatologyPaleontologyOceanographyEcologySedimentBiologyBacteriaMethane Hydrates and Related PhenomenaHydrocarbon exploration and reservoir analysisPaleontology and Stratigraphy of Fossils
Sustained and intensified lacustrine methane cycling during Early Permian climate warming | Litcius