Emission of greenhouse gases from soil in a semi-arid area applied with organic matter in south-western Iran


Citation

Dezfuli I. Dalileh, . and Farjaie F., . and Moezzib A. A., . Emission of greenhouse gases from soil in a semi-arid area applied with organic matter in south-western Iran. pp. 79-94. ISSN 1394-7990

Abstract

One of the problems of the modern world is global warming. Agriculture after industry is a source of production of greenhouse gases (GHGs). However suitable agricultural management practices will enable the reduction in emission of GHGs from fields. The objective of this research was to determine the effect of organic matter such as filter mud bagasse manure poultry and biochar on the production of GHGs in a wheat-corn-wheat rotation semi-arid area of south-western Iran from December 2011 to May 2013. The results from this study show there is a fluctuation in production of CH4 CO2 and N2 O with the change in seasons with this behaviour being related to temperature and moisture changes of the season. There were significant differences between treatments and control with more emission from soil after adding organic matter. A comparison of the treated soils showed that biochar had the lowest emissions of CO2 and N2 O besides experiencing increased immobilisation of CH4 by the soil for eighteen months.


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Abstract

One of the problems of the modern world is global warming. Agriculture after industry is a source of production of greenhouse gases (GHGs). However suitable agricultural management practices will enable the reduction in emission of GHGs from fields. The objective of this research was to determine the effect of organic matter such as filter mud bagasse manure poultry and biochar on the production of GHGs in a wheat-corn-wheat rotation semi-arid area of south-western Iran from December 2011 to May 2013. The results from this study show there is a fluctuation in production of CH4 CO2 and N2 O with the change in seasons with this behaviour being related to temperature and moisture changes of the season. There were significant differences between treatments and control with more emission from soil after adding organic matter. A comparison of the treated soils showed that biochar had the lowest emissions of CO2 and N2 O besides experiencing increased immobilisation of CH4 by the soil for eighteen months.

Additional Metadata

[error in script]
Item Type: Article
AGROVOC Term: Greenhouse gases
AGROVOC Term: emission
AGROVOC Term: Organic matter
AGROVOC Term: Soil
AGROVOC Term: Arid climate
AGROVOC Term: Bagasse
AGROVOC Term: Maize
AGROVOC Term: Wheats
AGROVOC Term: Crop rotation
AGROVOC Term: Animal manures
Depositing User: Mr. AFANDI ABDUL MALEK
Last Modified: 24 Apr 2025 00:53
URI: http://webagris.upm.edu.my/id/eprint/7762

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