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sl8

(16,245 posts)
Thu Nov 2, 2023, 08:22 PM Nov 2023

Atmospheric Methane: Comparison Between Methane's Record in 2006-2022 and During Glacial Terminations

https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2023GB007875

Atmospheric Methane: Comparison Between Methane's Record in 2006–2022 and During Glacial Terminations

Euan G. Nisbet, Martin R. Manning, Ed J. Dlugokencky, Sylvia Englund Michel, Xin Lan, Thomas Röckmann, Hugo A. C. Denier van der Gon, Jochen Schmitt, Paul I. Palmer, Michael N. Dyonisius

First published: 14 July 2023
https://doi.org/10.1029/2023GB007875

Abstract
Atmospheric methane's rapid growth from late 2006 is unprecedented in the observational record. Assessment of atmospheric methane data attributes a large fraction of this atmospheric growth to increased natural emissions over the tropics, which appear to be responding to changes in anthropogenic climate forcing. Isotopically lighter measurements of urn:x-wiley:08866236:media:gbc21450:gbc21450-math-0001 are consistent with the recent atmospheric methane growth being mainly driven by an increase in emissions from microbial sources, particularly wetlands. The global methane budget is currently in disequilibrium and new inputs are as yet poorly quantified. Although microbial emissions from agriculture and waste sources have increased between 2006 and 2022 by perhaps 35 Tg/yr, with wide uncertainty, approximately another 35–45 Tg/yr of the recent net growth in methane emissions may have been driven by natural biogenic processes, especially wetland feedbacks to climate change. A model comparison shows that recent changes may be comparable or greater in scale and speed than methane's growth and isotopic shift during past glacial/interglacial termination events. It remains possible that methane's current growth is within the range of Holocene variability, but it is also possible that methane's recent growth and isotopic shift may indicate a large-scale reorganization of the natural climate and biosphere is under way.

Key Points

- The rapid growth in the atmospheric methane burden that began in late 2006 is very different from methane's past observational record

- Recent studies point to strongly increased emissions from wetlands, especially in the tropics

- This increase is comparable in scale and speed to glacial/interglacial terminations when the global climate system suddenly reorganized

Plain Language Summary

Atmospheric methane's unprecedented current growth, which in part may be driven by surging wetland emissions, has strong similarities to ice core methane records during glacial-interglacial “termination” events marking global reorganizations of the planetary climate system. Here we compare current and termination-event methane records to test the hypothesis that a termination-scale change may currently be in progress.

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Atmospheric Methane: Comparison Between Methane's Record in 2006-2022 and During Glacial Terminations (Original Post) sl8 Nov 2023 OP
Thank you for this. The full paper is a very interesting read. NNadir Nov 2023 #1

NNadir

(34,675 posts)
1. Thank you for this. The full paper is a very interesting read.
Fri Nov 3, 2023, 09:44 AM
Nov 2023

I was unaware of the recent reversal of del13C trends.

It's an interesting feedback loop, a little scary but interesting.

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