Soil microbial sources of nitrous oxide: recent advances in knowledge, emerging challenges and future direction

Elizabeth M. Baggs

doi:10.1016/j.cosust.2011.08.011

Soil microbial sources of nitrous oxide: recent advances in knowledge, emerging challenges and future direction

Elizabeth M. Baggs

Aberdeen Centre For Environmental Sustainability

Research output: Contribution to journal › Literature review › peer-review

226 Citations (Scopus)

Abstract

The greenhouse gas nitrous oxide can be produced in soil during several microbial processes. Understanding of the regulation of these processes and the conditions under which they are likely to prevail have advanced in the last couple of decades. This is important for the development of targeted mitigation strategies. Here the focus is placed on the most recent advances in understanding associated with nitrous oxide production during ammonia oxidation, and the nitrate reducing processes of nitrate ammonification (or dissimilatory nitrate reduction to ammonium) and denitrification, including nitrifier denitrification in temperate soils. Some of the possibilities these offer for management to lower net emissions are outlined, and consideration is given to the current challenges and future directions required for these possibilities to be realised. These highlight the need for a multidisciplinary approach to understand the regulation of N2O production and reduction, synthesising relationships across a range systems, and increasing our predictive capability of interactions within the atmosphere-plant-microbe-soil continuum.

Original language	English
Pages (from-to)	321-327
Number of pages	7
Journal	Current Opinion in Environmental Sustainability
Volume	3
Issue number	5
Early online date	8 Sept 2011
DOIs	https://doi.org/10.1016/j.cosust.2011.08.011
Publication status	Published - Oct 2011

Bibliographical note

A paid open access option is available for this journal.
Voluntary deposit by author of pre-print allowed on Institutions open scholarly website and pre-print servers
Voluntary deposit by author of authors post-print allowed on institutions open scholarly website including Institutional Repository
Deposit due to Funding Body, Institutional and Governmental mandate only allowed where separate agreement between repository and publisher exists
Set statement to accompany deposit
Published source must be acknowledged
Must link to journal home page or articles' DOI
Publisher's version/PDF cannot be used
Articles in some journals can be made Open Access on payment of additional charge
NIH Authors articles will be submitted to PubMed Central after 12 months
Authors who are required to deposit in subject-based repositories may also use Sponsorship Option

Keywords

dissimilatory nitrate reduction
Chilean nothofagus forest
nitrifier denitrification
cytochrome P450NOR
oxygen-exchange
tropical forest
grassland soil
N2O
nitrification
emissions

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10.1016/j.cosust.2011.08.011

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title = "Soil microbial sources of nitrous oxide: recent advances in knowledge, emerging challenges and future direction",

abstract = "The greenhouse gas nitrous oxide can be produced in soil during several microbial processes. Understanding of the regulation of these processes and the conditions under which they are likely to prevail have advanced in the last couple of decades. This is important for the development of targeted mitigation strategies. Here the focus is placed on the most recent advances in understanding associated with nitrous oxide production during ammonia oxidation, and the nitrate reducing processes of nitrate ammonification (or dissimilatory nitrate reduction to ammonium) and denitrification, including nitrifier denitrification in temperate soils. Some of the possibilities these offer for management to lower net emissions are outlined, and consideration is given to the current challenges and future directions required for these possibilities to be realised. These highlight the need for a multidisciplinary approach to understand the regulation of N2O production and reduction, synthesising relationships across a range systems, and increasing our predictive capability of interactions within the atmosphere-plant-microbe-soil continuum.",

keywords = "dissimilatory nitrate reduction , Chilean nothofagus forest, nitrifier denitrification, cytochrome P450NOR, oxygen-exchange, tropical forest, grassland soil, N2O, nitrification, emissions",

author = "Baggs, {Elizabeth M.}",

note = "A paid open access option is available for this journal. Voluntary deposit by author of pre-print allowed on Institutions open scholarly website and pre-print servers Voluntary deposit by author of authors post-print allowed on institutions open scholarly website including Institutional Repository Deposit due to Funding Body, Institutional and Governmental mandate only allowed where separate agreement between repository and publisher exists Set statement to accompany deposit Published source must be acknowledged Must link to journal home page or articles' DOI Publisher's version/PDF cannot be used Articles in some journals can be made Open Access on payment of additional charge NIH Authors articles will be submitted to PubMed Central after 12 months Authors who are required to deposit in subject-based repositories may also use Sponsorship Option",

year = "2011",

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doi = "10.1016/j.cosust.2011.08.011",

language = "English",

volume = "3",

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journal = "Current Opinion in Environmental Sustainability",

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T2 - recent advances in knowledge, emerging challenges and future direction

AU - Baggs, Elizabeth M.

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PY - 2011/10

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N2 - The greenhouse gas nitrous oxide can be produced in soil during several microbial processes. Understanding of the regulation of these processes and the conditions under which they are likely to prevail have advanced in the last couple of decades. This is important for the development of targeted mitigation strategies. Here the focus is placed on the most recent advances in understanding associated with nitrous oxide production during ammonia oxidation, and the nitrate reducing processes of nitrate ammonification (or dissimilatory nitrate reduction to ammonium) and denitrification, including nitrifier denitrification in temperate soils. Some of the possibilities these offer for management to lower net emissions are outlined, and consideration is given to the current challenges and future directions required for these possibilities to be realised. These highlight the need for a multidisciplinary approach to understand the regulation of N2O production and reduction, synthesising relationships across a range systems, and increasing our predictive capability of interactions within the atmosphere-plant-microbe-soil continuum.

AB - The greenhouse gas nitrous oxide can be produced in soil during several microbial processes. Understanding of the regulation of these processes and the conditions under which they are likely to prevail have advanced in the last couple of decades. This is important for the development of targeted mitigation strategies. Here the focus is placed on the most recent advances in understanding associated with nitrous oxide production during ammonia oxidation, and the nitrate reducing processes of nitrate ammonification (or dissimilatory nitrate reduction to ammonium) and denitrification, including nitrifier denitrification in temperate soils. Some of the possibilities these offer for management to lower net emissions are outlined, and consideration is given to the current challenges and future directions required for these possibilities to be realised. These highlight the need for a multidisciplinary approach to understand the regulation of N2O production and reduction, synthesising relationships across a range systems, and increasing our predictive capability of interactions within the atmosphere-plant-microbe-soil continuum.

KW - dissimilatory nitrate reduction

KW - Chilean nothofagus forest

KW - nitrifier denitrification

KW - cytochrome P450NOR

KW - oxygen-exchange

KW - tropical forest

KW - grassland soil

KW - N2O

KW - nitrification

KW - emissions

U2 - 10.1016/j.cosust.2011.08.011

DO - 10.1016/j.cosust.2011.08.011

M3 - Literature review

SN - 1877-3435

VL - 3

SP - 321

EP - 327

JO - Current Opinion in Environmental Sustainability

JF - Current Opinion in Environmental Sustainability

IS - 5

ER -

Soil microbial sources of nitrous oxide: recent advances in knowledge, emerging challenges and future direction

Abstract

Bibliographical note

Keywords

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