Impact of Vermicomposting on Greenhouse Gas Emission: A Short Review

The implementation of cutting-edge agricultural practices provides tools and techniques to drive climate-smart agriculture, reduce carbon emissions, and lower the carbon footprint. The alteration of climate conditions due to human activities poses a serious threat to the global agricultural systems....

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Veröffentlicht in:	Sustainability 2022-09, Vol.14 (18), p.11306
Hauptverfasser:	Panda, Amrita Kumari, Mishra, Rojita, Dutta, Joystu, Wani, Zishan Ahmad, Pant, Shreekar, Siddiqui, Sazada, Alamri, Saad Abdulrahman, Alrumman, Sulaiman A, Alkahtani, Mohammed Ali, Bisht, Satpal Singh
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Sprache:	eng
Schlagworte:	Agricultural practices Agricultural production Agricultural wastes Agriculture Air pollution Air quality management Bacteria Carbon dioxide Climate change Climate-smart agriculture Climatic conditions Composting Digital agriculture Ecological footprint Emissions Emissions (Pollution) Environment Environmental aspects Fly ash Green Revolution Greenhouse effect Greenhouse gases Human influences Inorganic materials Landfill Mineralization Moisture content Organic wastes Sawdust Sustainability Sustainable agriculture Vermicomposting Waste management Worms
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creator	Panda, Amrita Kumari Mishra, Rojita Dutta, Joystu Wani, Zishan Ahmad Pant, Shreekar Siddiqui, Sazada Alamri, Saad Abdulrahman Alrumman, Sulaiman A Alkahtani, Mohammed Ali Bisht, Satpal Singh
description	The implementation of cutting-edge agricultural practices provides tools and techniques to drive climate-smart agriculture, reduce carbon emissions, and lower the carbon footprint. The alteration of climate conditions due to human activities poses a serious threat to the global agricultural systems. Greenhouse gas emissions (GHG) from organic waste management need urgent attention to optimize conventional composting strategies for organic wastes. The addition of various inorganic materials such as sawdust and fly ash mitigate GHG during the vermicomposting process. This paper critically investigates the factors responsible for GHG emissions during vermicomposting so that possible threats can be managed.
doi_str_mv	10.3390/su141811306
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subjects	Agricultural practices Agricultural production Agricultural wastes Agriculture Air pollution Air quality management Bacteria Carbon dioxide Climate change Climate-smart agriculture Climatic conditions Composting Digital agriculture Ecological footprint Emissions Emissions (Pollution) Environment Environmental aspects Fly ash Green Revolution Greenhouse effect Greenhouse gases Human influences Inorganic materials Landfill Mineralization Moisture content Organic wastes Sawdust Sustainability Sustainable agriculture Vermicomposting Waste management Worms
title	Impact of Vermicomposting on Greenhouse Gas Emission: A Short Review
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