The Role of Continental Alkaline Magmatism in Mantle Carbon Outflux Constrained by a Machine Learning Analysis of Zircon

Lu Wang; Jia Liu; Christopher J. Spencer; Sensen Wu; Anzhou Li; Chengfeng Qiu; Qi Wu; Zubing Jia; Zizhen Wang; Hao Sun; Qun‐Ke Xia

doi:10.1029/2023GL106847

Geophysical Research Letters (Jul 2024)

The Role of Continental Alkaline Magmatism in Mantle Carbon Outflux Constrained by a Machine Learning Analysis of Zircon

Lu Wang,
Jia Liu,
Christopher J. Spencer,
Sensen Wu,
Anzhou Li,
Chengfeng Qiu,
Qi Wu,
Zubing Jia,
Zizhen Wang,
Hao Sun,
Qun‐Ke Xia

Affiliations

Lu Wang: Key Laboratory of Geoscience Big Data and Deep Resource of Zhejiang Province School of Earth Sciences Zhejiang University Hangzhou China
Jia Liu: Key Laboratory of Geoscience Big Data and Deep Resource of Zhejiang Province School of Earth Sciences Zhejiang University Hangzhou China
Christopher J. Spencer: Department of Geological Sciences and Geological Engineering Queen's University Kingston ON Canada
Sensen Wu: Key Laboratory of Geoscience Big Data and Deep Resource of Zhejiang Province School of Earth Sciences Zhejiang University Hangzhou China
Anzhou Li: Key Laboratory of Geoscience Big Data and Deep Resource of Zhejiang Province School of Earth Sciences Zhejiang University Hangzhou China
Chengfeng Qiu: NetEase Zhiqi Technology Co. LTD Hangzhou China
Qi Wu: Huanggang Geology and Mineral Center Huanggang China
Zubing Jia: Higher Education Press Beijing China
Zizhen Wang: Institute of Geological Surveying and Mapping Technology of Anhui Province Hefei China
Hao Sun: Sinopec Sales Co., Ltd Zhejiang Branch Hangzhou China
Qun‐Ke Xia: Key Laboratory of Geoscience Big Data and Deep Resource of Zhejiang Province School of Earth Sciences Zhejiang University Hangzhou China

DOI: https://doi.org/10.1029/2023GL106847
Journal volume & issue: Vol. 51, no. 13
pp. n/a – n/a

Abstract

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Abstract Continental alkaline magmatism has been suggested to play a significant role in releasing deep mantle carbon into the atmosphere, which can greatly impact the global climate. However, the temporal variations of alkaline magmatism and their potential to modulate climate over geologic time remain poorly constrained. The detrital zircon record is a frequently used proxy for tracking secular variations in particular magmatism. Here, we use a novel machine‐learning technique to discriminate zircon from carbonatites, kimberlites, and other alkaline rocks. A global compilation of detrital zircon yields continental alkaline magmatic flare‐ups between 1,050−850, 650−500, 250−200, and 50−0 Ma. Our estimates indicate relatively elevated contributions of total magmatic carbon outgassing from alkaline magmatism during the aforementioned magmatic flare‐ups. We infer that anomalous alkaline magmatism may influence global warming during specific intervals of geologic time, but when they are not that voluminous or persistent extensive arc magmatism may drive warming conditions.

Published in Geophysical Research Letters

ISSN: 0094-8276 (Print); 1944-8007 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/19448007

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