Biological sources and sinks of nitrous oxide and strategies to mitigate emissions.
TLDR
The outcomes of an interdisciplinary meeting, ‘Nitrous oxide (N2O) the forgotten greenhouse gas’, held at the Kavli Royal Society International Centre, from 23 to 24 May 2011 are summarized and the conclusions reached regarding the biological sources and sinks are summarized.Abstract:
Nitrous oxide (N2O) is a powerful atmospheric greenhouse gas and cause of ozone layer depletion. Global emissions continue to rise. More than two-thirds of these emissions arise from bacterial and fungal denitrification and nitrification processes in soils, largely as a result of the application of nitrogenous fertilizers. This article summarizes the outcomes of an interdisciplinary meeting, ‘Nitrous oxide (N2O) the forgotten greenhouse gas’, held at the Kavli Royal Society International Centre, from 23 to 24 May 2011. It provides an introduction and background to the nature of the problem, and summarizes the conclusions reached regarding the biological sources and sinks of N2O in oceans, soils and wastewaters, and discusses the genetic regulation and molecular details of the enzymes responsible. Techniques for providing global and local N2O budgets are discussed. The findings of the meeting are drawn together in a review of strategies for mitigating N2O emissions, under three headings, namely: (i) managing soil chemistry and microbiology, (ii) engineering crop plants to fix nitrogen, and (iii) sustainable agricultural intensification.read more
Citations
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Nitrogen losses from the soil/plant system: a review
TL;DR: It is shown that careful management of temperate soil/plant systems using best management practices and newly developed technologies can increase the sustainability of agriculture and reduce its impact on the environment.
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Biochar's role in mitigating soil nitrous oxide emissions: A review and meta-analysis
Maria Luz Cayuela,L. Van Zwieten,Bhupinder Pal Singh,Simon Jeffery,Asunción Roig,Miguel A. Sánchez-Monedero +5 more
TL;DR: In this paper, a meta-analysis using published literature from 2007 to 2013 showed that biochar reduced soil N2O emissions by 54% in laboratory and field studies and that the biochar feedstock, pyrolysis conditions and C/N ratio were key factors influencing emissions.
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Sustainable intensification in agricultural systems
TL;DR: This review analyses recent evidence of the impacts of SI in both developing and industrialized countries, and demonstrates that both yield and natural capital dividends can occur.
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Microbial regulation of terrestrial nitrous oxide formation: understanding the biological pathways for prediction of emission rates
TL;DR: It is argued that it is urgently necessary to incorporate microbial traits into biogeochemical ecosystem modeling in order to increase the estimation reliability of N2O emissions and proposed a molecular methodology oriented framework from gene to ecosystem scales for more robust prediction and mitigation of future N1O emissions.
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Linking N2O emissions from biochar-amended soil to the structure and function of the N-cycling microbial community
Johannes Harter,Hans Martin Krause,Stefanie Schuettler,Reiner Ruser,Markus Fromme,Thomas Scholten,Andreas Kappler,Sebastian Behrens +7 more
TL;DR: In this paper, a microcosm study with a water-saturated soil amended with different amounts (0, 2% and 10% (w/w)) of high-temperature biochar was performed.
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TL;DR: In this paper, the ozone depletion potential-weighted anthropogenic emissions of N2O with those of other ozone-depleting substances were compared, and it was shown that N 2O emission currently is the single most important ozone-destroying emission and is expected to remain the largest throughout the 21st century.
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Nitrous oxide (N_2O) : the dominanat ozone-depleting substance emitted in the 21st century
TL;DR: Nitrous oxide emission currently is the single most important ozone-depleting emission and is expected to remain the largest throughout the 21st century, and N2O is unregulated by the Montreal Protocol, which would enhance the recovery of the ozone layer from its depleted state and reduce the anthropogenic forcing of the climate system.