A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Harnessing microbiome-based biotechnologies for sustainable mitigation of nitrous oxide emissions
Achieving the Sustainable Development Goal of climate change mitigation within this century will require adoption of new innovative technologies to control emissions of nitrous oxide (N2O), an important greenhouse gas leading to global warming. This is particularly important in the face of growing fertilizer consumption and continuous land degradation. Currently used tools to mitigate N2O emissions are based on agrochemical inputs and agronomic practices. Emerging technologies include plant breeding approaches to manipulate microbiome activities in agro-ecosystems, and microbial biotechnology approaches for in situ microbiome manipulation and engineering via use of biochemical, cellular and genome-editing methods. This article assessed the likely contribution of microbial biotechnology to the mitigation of N2O emissions and discussed how to facilitate the development of environmental-friendly microbiome-based biotechnology for sustainable climate change mitigation.
Harnessing microbiome-based biotechnologies for sustainable mitigation of nitrous oxide emissions
Achieving the Sustainable Development Goal of climate change mitigation within this century will require adoption of new innovative technologies to control emissions of nitrous oxide (N2O), an important greenhouse gas leading to global warming. This is particularly important in the face of growing fertilizer consumption and continuous land degradation. Currently used tools to mitigate N2O emissions are based on agrochemical inputs and agronomic practices. Emerging technologies include plant breeding approaches to manipulate microbiome activities in agro-ecosystems, and microbial biotechnology approaches for in situ microbiome manipulation and engineering via use of biochemical, cellular and genome-editing methods. This article assessed the likely contribution of microbial biotechnology to the mitigation of N2O emissions and discussed how to facilitate the development of environmental-friendly microbiome-based biotechnology for sustainable climate change mitigation.
Harnessing microbiome-based biotechnologies for sustainable mitigation of nitrous oxide emissions
Hu, Hangwei (author) / He, Jizheng (author) / Singh, Brajesh K. (R15253) (author) / Hawkesbury Institute for the Environment (Host institution)
2017-01-01
Microbial Biotechnology--1751-7915 Vol. 10 Issue. 5 pp: 1226-1231
Article (Journal)
Electronic Resource
English
DDC:
710
Indian methane and nitrous oxide emissions and mitigation flexibility
| Elsevier | 2003
Part 4: Emissions - Mitigation of nitrous oxide emission from dairy farming systems
| Online Contents | 1998
Nitrous Oxide Emissions in Sewer Systems
| Online Contents | 1997
Enzymatic nitrous oxide emissions from wastewater treatment
| Springer Verlag | 2017