Ronald W. Klusman scite author profile

Converging evidence from new top‐down and bottom‐up estimates of fossil “radiocarbon‐free” methane emissions indicates that natural geologic sources account for a substantial component of the atmospheric methane budget. Comparing emission estimates based on atmospheric 14CH4 (“radiomethane”) with geologic emissions from seepage, including terrestrial macroseeps, microseepage, marine seeps, and geothermal/volcanic emissions from the Earth's crust, shows that such “geo‐CH4” sources can be conservatively estimated at 53 ± 11 Tg yr−1 globally. This makes geo‐CH4 second in importance to wetlands as a natural methane source. Such a new appraisal can easily be accommodated within the uncertainty of the global methane budget as recently compiled, and recognizes the importance of geophysical out‐gassing of methane generated within the lithosphere. We propose a new coherent contemporary budget in which 30 ± 5% (based on atmospheric radiomethane measurements) of the global source of 582 ± 87 Tg yr−1 has fossil origin, both natural and anthropogenic.

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Microseepage in drylands: Flux and implications in the global atmospheric source/sink budget of methane

Etiope

Klusman

2010

Global and Planetary Change

108

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Evaluation of leakage potential from a carbon dioxide EOR/sequestration project

Klusman

2003

Energy Conversion and Management

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Comparison of surface and near-surface geochemical methods for detection of gas microseepage from carbon dioxide sequestration

Klusman

2011

International Journal of Greenhouse Gas Control

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Ronald W. Klusman

Geologic emissions of methane to the atmosphere

Reappraisal of the fossil methane budget and related emission from geologic sources

Microseepage in drylands: Flux and implications in the global atmospheric source/sink budget of methane

Evaluation of leakage potential from a carbon dioxide EOR/sequestration project

Comparison of surface and near-surface geochemical methods for detection of gas microseepage from carbon dioxide sequestration

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