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

Nitrous oxide (N(2)O) is a powerful greenhouse gas and the main driver of stratospheric ozone depletion. Since soils are the largest source of N(2)O, predicting soil response to changes in climate or land use is central to understanding and managing N(2)O. Here we find that N(2)O flux can be predict...

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Autores principales: Pärn, Jaan, Verhoeven, Jos T. A., Butterbach-Bahl, Klaus, Dise, Nancy B., Ullah, Sami, Aasa, Anto, Egorov, Sergey, Espenberg, Mikk, Järveoja, Järvi, Jauhiainen, Jyrki, Kasak, Kuno, Klemedtsson, Leif, Kull, Ain, Laggoun-Défarge, Fatima, Lapshina, Elena D., Lohila, Annalea, Lõhmus, Krista, Maddison, Martin, Mitsch, William J., Müller, Christoph, Niinemets, Ülo, Osborne, Bruce, Pae, Taavi, Salm, Jüri-Ott, Sgouridis, Fotis, Sohar, Kristina, Soosaar, Kaido, Storey, Kathryn, Teemusk, Alar, Tenywa, Moses M., Tournebize, Julien, Truu, Jaak, Veber, Gert, Villa, Jorge A., Zaw, Seint Sann, Mander, Ülo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5859301/
https://www.ncbi.nlm.nih.gov/pubmed/29555906
http://dx.doi.org/10.1038/s41467-018-03540-1
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author Pärn, Jaan
Verhoeven, Jos T. A.
Butterbach-Bahl, Klaus
Dise, Nancy B.
Ullah, Sami
Aasa, Anto
Egorov, Sergey
Espenberg, Mikk
Järveoja, Järvi
Jauhiainen, Jyrki
Kasak, Kuno
Klemedtsson, Leif
Kull, Ain
Laggoun-Défarge, Fatima
Lapshina, Elena D.
Lohila, Annalea
Lõhmus, Krista
Maddison, Martin
Mitsch, William J.
Müller, Christoph
Niinemets, Ülo
Osborne, Bruce
Pae, Taavi
Salm, Jüri-Ott
Sgouridis, Fotis
Sohar, Kristina
Soosaar, Kaido
Storey, Kathryn
Teemusk, Alar
Tenywa, Moses M.
Tournebize, Julien
Truu, Jaak
Veber, Gert
Villa, Jorge A.
Zaw, Seint Sann
Mander, Ülo
author_facet Pärn, Jaan
Verhoeven, Jos T. A.
Butterbach-Bahl, Klaus
Dise, Nancy B.
Ullah, Sami
Aasa, Anto
Egorov, Sergey
Espenberg, Mikk
Järveoja, Järvi
Jauhiainen, Jyrki
Kasak, Kuno
Klemedtsson, Leif
Kull, Ain
Laggoun-Défarge, Fatima
Lapshina, Elena D.
Lohila, Annalea
Lõhmus, Krista
Maddison, Martin
Mitsch, William J.
Müller, Christoph
Niinemets, Ülo
Osborne, Bruce
Pae, Taavi
Salm, Jüri-Ott
Sgouridis, Fotis
Sohar, Kristina
Soosaar, Kaido
Storey, Kathryn
Teemusk, Alar
Tenywa, Moses M.
Tournebize, Julien
Truu, Jaak
Veber, Gert
Villa, Jorge A.
Zaw, Seint Sann
Mander, Ülo
author_sort Pärn, Jaan
collection PubMed
description Nitrous oxide (N(2)O) is a powerful greenhouse gas and the main driver of stratospheric ozone depletion. Since soils are the largest source of N(2)O, predicting soil response to changes in climate or land use is central to understanding and managing N(2)O. Here we find that N(2)O flux can be predicted by models incorporating soil nitrate concentration (NO(3)(−)), water content and temperature using a global field survey of N(2)O emissions and potential driving factors across a wide range of organic soils. N(2)O emissions increase with NO(3)(−) and follow a bell-shaped distribution with water content. Combining the two functions explains 72% of N(2)O emission from all organic soils. Above 5 mg NO(3)(−)-N kg(−1), either draining wet soils or irrigating well-drained soils increases N(2)O emission by orders of magnitude. As soil temperature together with NO(3)(−) explains 69% of N(2)O emission, tropical wetlands should be a priority for N(2)O management.
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spelling pubmed-58593012018-03-21 Nitrogen-rich organic soils under warm well-drained conditions are global nitrous oxide emission hotspots Pärn, Jaan Verhoeven, Jos T. A. Butterbach-Bahl, Klaus Dise, Nancy B. Ullah, Sami Aasa, Anto Egorov, Sergey Espenberg, Mikk Järveoja, Järvi Jauhiainen, Jyrki Kasak, Kuno Klemedtsson, Leif Kull, Ain Laggoun-Défarge, Fatima Lapshina, Elena D. Lohila, Annalea Lõhmus, Krista Maddison, Martin Mitsch, William J. Müller, Christoph Niinemets, Ülo Osborne, Bruce Pae, Taavi Salm, Jüri-Ott Sgouridis, Fotis Sohar, Kristina Soosaar, Kaido Storey, Kathryn Teemusk, Alar Tenywa, Moses M. Tournebize, Julien Truu, Jaak Veber, Gert Villa, Jorge A. Zaw, Seint Sann Mander, Ülo Nat Commun Article Nitrous oxide (N(2)O) is a powerful greenhouse gas and the main driver of stratospheric ozone depletion. Since soils are the largest source of N(2)O, predicting soil response to changes in climate or land use is central to understanding and managing N(2)O. Here we find that N(2)O flux can be predicted by models incorporating soil nitrate concentration (NO(3)(−)), water content and temperature using a global field survey of N(2)O emissions and potential driving factors across a wide range of organic soils. N(2)O emissions increase with NO(3)(−) and follow a bell-shaped distribution with water content. Combining the two functions explains 72% of N(2)O emission from all organic soils. Above 5 mg NO(3)(−)-N kg(−1), either draining wet soils or irrigating well-drained soils increases N(2)O emission by orders of magnitude. As soil temperature together with NO(3)(−) explains 69% of N(2)O emission, tropical wetlands should be a priority for N(2)O management. Nature Publishing Group UK 2018-03-19 /pmc/articles/PMC5859301/ /pubmed/29555906 http://dx.doi.org/10.1038/s41467-018-03540-1 Text en © The Author(s) 2018 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Pärn, Jaan
Verhoeven, Jos T. A.
Butterbach-Bahl, Klaus
Dise, Nancy B.
Ullah, Sami
Aasa, Anto
Egorov, Sergey
Espenberg, Mikk
Järveoja, Järvi
Jauhiainen, Jyrki
Kasak, Kuno
Klemedtsson, Leif
Kull, Ain
Laggoun-Défarge, Fatima
Lapshina, Elena D.
Lohila, Annalea
Lõhmus, Krista
Maddison, Martin
Mitsch, William J.
Müller, Christoph
Niinemets, Ülo
Osborne, Bruce
Pae, Taavi
Salm, Jüri-Ott
Sgouridis, Fotis
Sohar, Kristina
Soosaar, Kaido
Storey, Kathryn
Teemusk, Alar
Tenywa, Moses M.
Tournebize, Julien
Truu, Jaak
Veber, Gert
Villa, Jorge A.
Zaw, Seint Sann
Mander, Ülo
Nitrogen-rich organic soils under warm well-drained conditions are global nitrous oxide emission hotspots
title Nitrogen-rich organic soils under warm well-drained conditions are global nitrous oxide emission hotspots
title_full Nitrogen-rich organic soils under warm well-drained conditions are global nitrous oxide emission hotspots
title_fullStr Nitrogen-rich organic soils under warm well-drained conditions are global nitrous oxide emission hotspots
title_full_unstemmed Nitrogen-rich organic soils under warm well-drained conditions are global nitrous oxide emission hotspots
title_short Nitrogen-rich organic soils under warm well-drained conditions are global nitrous oxide emission hotspots
title_sort nitrogen-rich organic soils under warm well-drained conditions are global nitrous oxide emission hotspots
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5859301/
https://www.ncbi.nlm.nih.gov/pubmed/29555906
http://dx.doi.org/10.1038/s41467-018-03540-1
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