Author
Listed:
- Kuang-Yu Chang
(Climate and Ecosystem Sciences Division, Lawrence Berkeley National Laboratory)
- William J. Riley
(Climate and Ecosystem Sciences Division, Lawrence Berkeley National Laboratory)
- Sara H. Knox
(The University of British Columbia)
- Robert B. Jackson
(Stanford University
Woods Institute for the Environment and Precourt Institute for Energy)
- Gavin McNicol
(Stanford University)
- Benjamin Poulter
(NASA Goddard Space Flight Center, Biospheric Sciences Laboratory)
- Mika Aurela
(Finnish Meteorological Institute)
- Dennis Baldocchi
(Department of Environmental Science, Policy & Management, UC Berkeley)
- Sheel Bansal
(U.S. Geological Survey, Northern Prairie Wildlife Research Center)
- Gil Bohrer
(The Ohio State University)
- David I. Campbell
(University of Waikato)
- Alessandro Cescatti
(European Commission, Joint Research Centre (JRC))
- Housen Chu
(Climate and Ecosystem Sciences Division, Lawrence Berkeley National Laboratory)
- Kyle B. Delwiche
(Stanford University)
- Ankur R. Desai
(University of Wisconsin-Madison)
- Eugenie Euskirchen
(University of Alaska Fairbanks, Institute of Arctic Biology)
- Thomas Friborg
(University of Copenhagen)
- Mathias Goeckede
(Max Planck Institute for Biogeochemistry)
- Manuel Helbig
(McMaster University
Département de Géographie & Centre d’Études Nordiques)
- Kyle S. Hemes
(Woods Institute for the Environment, Stanford University)
- Takashi Hirano
(Hokkaido University)
- Hiroki Iwata
(Shinshu University)
- Minseok Kang
(National Center for AgroMeteorology)
- Trevor Keenan
(Climate and Ecosystem Sciences Division, Lawrence Berkeley National Laboratory
Department of Environmental Science, Policy & Management, UC Berkeley)
- Ken W. Krauss
(U.S. Geological Survey, Wetland and Aquatic Research Center)
- Annalea Lohila
(Finnish Meteorological Institute
University of Helsink)
- Ivan Mammarella
(University of Helsink)
- Bhaskar Mitra
(Texas A&M University)
- Akira Miyata
(Institute for Agro-Environmental Sciences, National Agriculture and Food Research Organization)
- Mats B. Nilsson
(Swedish University of Agricultural Sciences)
- Asko Noormets
(Texas A&M University)
- Walter C. Oechel
(San Diego State University)
- Dario Papale
(DIBAF, Università degli Studi della Tuscia, Largo dell’Università)
- Matthias Peichl
(Swedish University of Agricultural Sciences)
- Michele L. Reba
(United States Department of Agriculture, Agricultural Research Service, Delta Water Management Research Service)
- Janne Rinne
(Lund University)
- Benjamin R. K. Runkle
(University of Arkansas)
- Youngryel Ryu
(Seoul National University)
- Torsten Sachs
(GFZ German Research Centre for Geoscience)
- Karina V. R. Schäfer
(Rutgers University Newark)
- Hans Peter Schmid
(Institute of Meteorology and Climatology – Atmospheric Environmental Research (IMK-IFU), Karlsruhe Institute of Technology (KIT))
- Narasinha Shurpali
(Production Systems, Natural Resources Institute Finland)
- Oliver Sonnentag
(Département de Géographie & Centre d’Études Nordiques)
- Angela C. I. Tang
(Sarawak Tropical Peat Research Institute)
- Margaret S. Torn
(Climate and Ecosystem Sciences Division, Lawrence Berkeley National Laboratory)
- Carlo Trotta
(DIBAF, Università degli Studi della Tuscia, Largo dell’Università
Euro-Mediterranean Center on Climate Change, CMCC IAFES)
- Eeva-Stiina Tuittila
(University of Eastern Finland)
- Masahito Ueyama
(Osaka Prefecture University)
- Rodrigo Vargas
(University of Delaware)
- Timo Vesala
(University of Helsink
University of Helsinki)
- Lisamarie Windham-Myers
(Water Mission Area, U.S. Geological Survey)
- Zhen Zhang
(University of Maryland)
- Donatella Zona
(San Diego State University
University of Sheffield)
Abstract
Wetland methane (CH4) emissions ( $${F}_{{{CH}}_{4}}$$ F C H 4 ) are important in global carbon budgets and climate change assessments. Currently, $${F}_{{{CH}}_{4}}$$ F C H 4 projections rely on prescribed static temperature sensitivity that varies among biogeochemical models. Meta-analyses have proposed a consistent $${F}_{{{CH}}_{4}}$$ F C H 4 temperature dependence across spatial scales for use in models; however, site-level studies demonstrate that $${F}_{{{CH}}_{4}}$$ F C H 4 are often controlled by factors beyond temperature. Here, we evaluate the relationship between $${F}_{{{CH}}_{4}}$$ F C H 4 and temperature using observations from the FLUXNET-CH4 database. Measurements collected across the globe show substantial seasonal hysteresis between $${F}_{{{CH}}_{4}}$$ F C H 4 and temperature, suggesting larger $${F}_{{{CH}}_{4}}$$ F C H 4 sensitivity to temperature later in the frost-free season (about 77% of site-years). Results derived from a machine-learning model and several regression models highlight the importance of representing the large spatial and temporal variability within site-years and ecosystem types. Mechanistic advancements in biogeochemical model parameterization and detailed measurements in factors modulating CH4 production are thus needed to improve global CH4 budget assessments.
Suggested Citation
Kuang-Yu Chang & William J. Riley & Sara H. Knox & Robert B. Jackson & Gavin McNicol & Benjamin Poulter & Mika Aurela & Dennis Baldocchi & Sheel Bansal & Gil Bohrer & David I. Campbell & Alessandro Ce, 2021.
"Substantial hysteresis in emergent temperature sensitivity of global wetland CH4 emissions,"
Nature Communications, Nature, vol. 12(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-22452-1
DOI: 10.1038/s41467-021-22452-1
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