Back to Search Start Over

Global increase in methane production under future warming of lake bottom waters

Authors :
Jansen, Joachim
Woolway, Richard Iestyn
Kraemer, Benjamin M.
Albergel, Clement
Bastviken, David
Weyhenmeyer, Gesa A.
Marce, Rafael
Sharma, Sapna
Sobek, Sebastian
Tranvik, Lars J.
Perroud, Marjorie
Golub, Malgorzata
Moore, Tadhg N.
Vinna, Love Raman
La Fuente, Sofia
Grant, Luke
Pierson, Don C.
Thiery, Wim
Jennings, Eleanor
Jansen, Joachim
Woolway, Richard Iestyn
Kraemer, Benjamin M.
Albergel, Clement
Bastviken, David
Weyhenmeyer, Gesa A.
Marce, Rafael
Sharma, Sapna
Sobek, Sebastian
Tranvik, Lars J.
Perroud, Marjorie
Golub, Malgorzata
Moore, Tadhg N.
Vinna, Love Raman
La Fuente, Sofia
Grant, Luke
Pierson, Don C.
Thiery, Wim
Jennings, Eleanor
Publication Year :
2022

Abstract

Lakes are significant emitters of methane to the atmosphere, and thus are important components of the global methane budget. Methane is typically produced in lake sediments, with the rate of methane production being strongly temperature dependent. Local and regional studies highlight the risk of increasing methane production under future climate change, but a global estimate is not currently available. Here, we project changes in global lake bottom temperatures and sediment methane production rates from 1901 to 2099. By the end of the 21st century, lake bottom temperatures are projected to increase globally, by an average of 0.86-2.60 degrees C under Representative Concentration Pathways (RCPs) 2.6-8.5, with greater warming projected at lower latitudes. This future warming of bottom waters will likely result in an increase in methane production rates of 13%-40% by the end of the century, with many low-latitude lakes experiencing an increase of up to 17 times the historical (1970-1999) global average under RCP 8.5. The projected increase in methane production will likely lead to higher emissions from lakes, although the exact magnitude of the emission increase requires more detailed regional studies.

Details

Database :
OAIster
Notes :
application/pdf, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1349084170
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.1111.gcb.16298