Nitrogen-rich organic soils under warm well-drained conditions are global nitrous oxide emission hotspots

被引：0

作者：

Jaan Pärn

Jos T. A. Verhoeven

Klaus Butterbach-Bahl

Nancy B. Dise

Sami Ullah

Anto Aasa

Sergey Egorov

Mikk Espenberg

Järvi Järveoja

Jyrki Jauhiainen

Kuno Kasak

Leif Klemedtsson

Ain Kull

Fatima Laggoun-Défarge

Elena D. Lapshina

Annalea Lohila

Krista Lõhmus

Martin Maddison

William J. Mitsch

Christoph Müller

Ülo Niinemets

Bruce Osborne

Taavi Pae

Jüri-Ott Salm

Fotis Sgouridis

Kristina Sohar

Kaido Soosaar

Kathryn Storey

Alar Teemusk

Moses M. Tenywa

Julien Tournebize

Jaak Truu

Gert Veber

Jorge A. Villa

Seint Sann Zaw

Ülo Mander

机构：

[1] University of Tartu,Department of Geography, Instute of Ecology and Earth Sciences

[2] Keele University,School of Geography, Geology and the Environment

[3] University of Birmingham,School of Geography, Earth and Environmental Sciences

[4] Utrecht University,Ecology and Biodiversity, Department of Biology

[5] Karlsruhe Institute of Technology,Institute of Meteorology and Climate Research

[6] Centre for Ecology and Hydrology,Department of Forest Ecology and Management

[7] Swedish University of Agricultural Sciences,Department of Earth Sciences

[8] Natural Resources Institute Finland (Luke),Institute of Earth Sciences

[9] University of Gothenburg,UNESCO Chair of Environmental Dynamics and Climate Change

[10] National Center for Scientific Research (CNRS) and University of Orléans,Atmospheric Composition Research

[11] Yugra State University,Department of Botany, Institute of Ecology and Earth Sciences

[12] Finnish Meteorological Institute,Everglades Wetland Research Park, Kapnick Center

[13] University of Tartu,Institute of Plant Ecology

[14] Florida Gulf Coast University,University College Dublin (UCD) School of Biology and Environmental Science

[15] Justus Liebig University Giessen,Department of Plant Physiology, Institute of Agricultural and Environmental Sciences

[16] UCD Earth Institute,School of Geographical Sciences

[17] Estonian University of Life Sciences,Department of Primary Industries, Parks, Water and Environment

[18] Estonian Fund for Nature,Department of Agricultural Production, College of Agricultural and Environmental Sciences

[19] University of Bristol,Hydrosystems and Bioprocesses Research Unit

[20] Tasmanian Government,Grupo de Investigación Aplicada al Medio Ambiente

[21] Makerere University,undefined

[22] National Research Institute of Science and Technology for Environment and Agriculture (IRSTEA),undefined

[23] Corporacion Universitaria Lasallista,undefined

[24] Forest Resource Environment Development and Conservation Association,undefined

来源：

Nature Communications | / 9卷

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摘要：

Nitrous oxide (N2O) is a powerful greenhouse gas and the main driver of stratospheric ozone depletion. Since soils are the largest source of N2O, predicting soil response to changes in climate or land use is central to understanding and managing N2O. Here we find that N2O flux can be predicted by models incorporating soil nitrate concentration (NO3−), water content and temperature using a global field survey of N2O emissions and potential driving factors across a wide range of organic soils. N2O emissions increase with NO3− and follow a bell-shaped distribution with water content. Combining the two functions explains 72% of N2O emission from all organic soils. Above 5 mg NO3−-N kg−1, either draining wet soils or irrigating well-drained soils increases N2O emission by orders of magnitude. As soil temperature together with NO3− explains 69% of N2O emission, tropical wetlands should be a priority for N2O management.

引用

共 18 条

[11] Global nitrous oxide emission factors from agricultural soils after addition of organic amendments: A meta-analysis
Charles, Anais
Rochette, Philippe
Whalen, Joann K.
Angers, Denis A.
Chantigny, Martin H.
Bertrand, Normand
AGRICULTURE ECOSYSTEMS & ENVIRONMENT, 2017, 236 : 88 - 98
[12] Effects of Biogas Digestate on Winter Wheat Yield, Nitrogen Balance, and Nitrous Oxide Emissions under Organic Farming Conditions
Winkhart, Felizitas
Schmid, Harald
Huelsbergen, Kurt-Juergen
AGRONOMY-BASEL, 2024, 14 (08):
[13] Nitrogen-rich covalent organic polymers and potassium iodide for efficient chemical fixation of CO2 into epoxides under mild conditions
Hao, Yongjing
Yan, Xiuli
Zhu, Zheng
Chang, Tao
Meng, Xiaocai
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Kang, Lianwei
Qin, Shenjun
SUSTAINABLE ENERGY & FUELS, 2021, 5 (11) : 2943 - 2951
[14] Controlled-release fertilizer, floating duckweed, and biochar affect ammonia volatilization and nitrous oxide emission from rice paddy fields irrigated with nitrogen-rich wastewater
Haijun Sun
Hailin Zhang
Ju Min
Yanfang Feng
Weiming Shi
Paddy and Water Environment, 2016, 14 : 105 - 111
[15] Controlled-release fertilizer, floating duckweed, and biochar affect ammonia volatilization and nitrous oxide emission from rice paddy fields irrigated with nitrogen-rich wastewater
Sun, Haijun
Zhang, Hailin
Min, Ju
Feng, Yanfang
Shi, Weiming
PADDY AND WATER ENVIRONMENT, 2016, 14 (01) : 105 - 111
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Chen, Can
Chen, Deli
Lam, Shu Kee
CLEAN-Soil Air Water, 2015, 43 (04) : 577 - 583
[17] Reduction of nitrous oxide emission by using stearic acid combined zinc coated urea in silty clay and sandy loam soils under bare and planted conditions
Umar, Wajid
Balogh, Janos
Hameed, Muhammad Khalid
Ayub, Muhammad Ashar
Anwaar, Muhammad Hasham
Czinkota, Imre
Gulyas, Miklos
HELIYON, 2023, 9 (12)
[18] Nitrous oxide emission and nitrogen use efficiency in response to nitrophosphate, N-(n-butyl) thiophosphoric triamide and dicyandiamide of a wheat cultivated soil under sub-humid monsoon conditions
Ding, W. X.
Chen, Z. M.
Yu, H. Y.
Luo, J. F.
Yoo, G. Y.
Xiang, J.
Zhang, H. J.
Yuan, J. J.
BIOGEOSCIENCES, 2015, 12 (03) : 803 - 815

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