Carbon Footprint of Crop Cultivation Process Under Semiarid Conditions

Agriculture is one of the major sectors that get affected as well as cause climate change. Arid and semiarid regions of the world are expected to become more vulnerable to climate change. Thus, in order to develop appropriate mitigation or adaptive strategies, carbon footprint analysis of agricultur...

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Veröffentlicht in:	Agricultural research (India : Online) 2018-06, Vol.7 (2), p.167-175
Hauptverfasser:	Devakumar, A. S., Pardis, R., Manjunath, V.
Format:	Artikel
Sprache:	eng
Schlagworte:	Agricultural land Agricultural practices Agriculture Arid regions Biodiversity Biomedical and Life Sciences Carbon Carbon dioxide Carbon equivalent Carbon footprint Cell Biology Cereal crops Cereals Climate change Crop rotation Cropping systems Crops Cultivation Emissions control Energy consumption Environmental conditions Environmental impact Footprint analysis Full-Length Research Article Life Sciences Methane Mixed cropping Nitrogen dioxide Plant Biochemistry Plant Ecology Plant Genetics and Genomics Plant Sciences Rainfed farming Rice Seasons Semi arid areas Semiarid zones System effectiveness Tropical environments
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creator	Devakumar, A. S. Pardis, R. Manjunath, V.
description	Agriculture is one of the major sectors that get affected as well as cause climate change. Arid and semiarid regions of the world are expected to become more vulnerable to climate change. Thus, in order to develop appropriate mitigation or adaptive strategies, carbon footprint analysis of agriculture sector becomes crucial. Emissions resulting from the cultivation process depend on the inputs used and the environmental conditions. The present study is an effort to analyze the carbon footprint of agriculture crops cultivated in the state of Karnataka with 80% land under rainfed agriculture under semiarid tropical conditions. About 5.37 terra grams of carbon equivalent (TgCE) was found to occur annually. Cereals contributed 5.04 TgCE/year of which 78% comes from rice, as it emits methane in addition to CO 2 and NO 2 . Possible approaches to reduce methane emission are discussed including the possibility of replacing the area under rice with other crops without affecting the dietary as well as peoples preferences. Inorganic nitrogen fertilizer use in the cultivation process accounts for 72% of the total emissions. Combining pulse crops effectively in conventional practices of crop rotation and mixed cropping systems can help in reducing emissions. Manual agriculture followed due to small land holdings facilitates low energy use (8%) under rainfed agriculture, resulting in low carbon input. Irrigated agriculture recorded 4.19 TgCE/year which is almost 3.5 times more than the rainfed agriculture practice. Among the two cropping seasons, Kharif season which is the major cropping season recorded 3.85 TgCE/year against 1.52 TgCE/year during Rabi season. Most tropical regions with fragmented land, low carbon emission as well as with the low productivity need to be treated differently.
doi_str_mv	10.1007/s40003-018-0315-9
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Possible approaches to reduce methane emission are discussed including the possibility of replacing the area under rice with other crops without affecting the dietary as well as peoples preferences. Inorganic nitrogen fertilizer use in the cultivation process accounts for 72% of the total emissions. Combining pulse crops effectively in conventional practices of crop rotation and mixed cropping systems can help in reducing emissions. Manual agriculture followed due to small land holdings facilitates low energy use (8%) under rainfed agriculture, resulting in low carbon input. Irrigated agriculture recorded 4.19 TgCE/year which is almost 3.5 times more than the rainfed agriculture practice. Among the two cropping seasons, Kharif season which is the major cropping season recorded 3.85 TgCE/year against 1.52 TgCE/year during Rabi season. 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S.</creatorcontrib><creatorcontrib>Pardis, R.</creatorcontrib><creatorcontrib>Manjunath, V.</creatorcontrib><title>Carbon Footprint of Crop Cultivation Process Under Semiarid Conditions</title><title>Agricultural research (India : Online)</title><addtitle>Agric Res</addtitle><description>Agriculture is one of the major sectors that get affected as well as cause climate change. Arid and semiarid regions of the world are expected to become more vulnerable to climate change. Thus, in order to develop appropriate mitigation or adaptive strategies, carbon footprint analysis of agriculture sector becomes crucial. Emissions resulting from the cultivation process depend on the inputs used and the environmental conditions. The present study is an effort to analyze the carbon footprint of agriculture crops cultivated in the state of Karnataka with 80% land under rainfed agriculture under semiarid tropical conditions. About 5.37 terra grams of carbon equivalent (TgCE) was found to occur annually. Cereals contributed 5.04 TgCE/year of which 78% comes from rice, as it emits methane in addition to CO 2 and NO 2 . Possible approaches to reduce methane emission are discussed including the possibility of replacing the area under rice with other crops without affecting the dietary as well as peoples preferences. Inorganic nitrogen fertilizer use in the cultivation process accounts for 72% of the total emissions. Combining pulse crops effectively in conventional practices of crop rotation and mixed cropping systems can help in reducing emissions. Manual agriculture followed due to small land holdings facilitates low energy use (8%) under rainfed agriculture, resulting in low carbon input. Irrigated agriculture recorded 4.19 TgCE/year which is almost 3.5 times more than the rainfed agriculture practice. Among the two cropping seasons, Kharif season which is the major cropping season recorded 3.85 TgCE/year against 1.52 TgCE/year during Rabi season. Most tropical regions with fragmented land, low carbon emission as well as with the low productivity need to be treated differently.</description><subject>Agricultural land</subject><subject>Agricultural practices</subject><subject>Agriculture</subject><subject>Arid regions</subject><subject>Biodiversity</subject><subject>Biomedical and Life Sciences</subject><subject>Carbon</subject><subject>Carbon dioxide</subject><subject>Carbon equivalent</subject><subject>Carbon footprint</subject><subject>Cell Biology</subject><subject>Cereal crops</subject><subject>Cereals</subject><subject>Climate change</subject><subject>Crop rotation</subject><subject>Cropping systems</subject><subject>Crops</subject><subject>Cultivation</subject><subject>Emissions control</subject><subject>Energy consumption</subject><subject>Environmental conditions</subject><subject>Environmental impact</subject><subject>Footprint analysis</subject><subject>Full-Length Research Article</subject><subject>Life Sciences</subject><subject>Methane</subject><subject>Mixed cropping</subject><subject>Nitrogen dioxide</subject><subject>Plant Biochemistry</subject><subject>Plant Ecology</subject><subject>Plant Genetics and Genomics</subject><subject>Plant Sciences</subject><subject>Rainfed farming</subject><subject>Rice</subject><subject>Seasons</subject><subject>Semi arid areas</subject><subject>Semiarid zones</subject><subject>System effectiveness</subject><subject>Tropical environments</subject><issn>2249-720X</issn><issn>2249-7218</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2018</creationdate><recordtype>article</recordtype><recordid>eNp1kE9LxDAQxYMouKz7AbwFPEcnf9qkRymuCgsKuuAtJE0qXXabNWkFv70pFT15mmHmvTfMD6FLCtcUQN4kAQCcAFUEOC1IdYIWjImKSEbV6W8Pb-doldIui_OcKsEWaF2baEOP1yEMx9j1Aw4trmM44nrcD92nGbq8fY6h8Snhbe98xC_-0JnYOVyH3nWTIF2gs9bsk1_91CXaru9e6weyebp_rG83pOG0HIiTVlilGse4sVC2xpbCUOEL4XxRAVBblVbwliplqHPeutKXUlLVqkZKz_kSXc25xxg-Rp8GvQtj7PNJzYBXleAFK7KKzqomhpSib3V-7WDil6agJ2J6JqYzMT0R01X2sNmTJgzvPv4l_2_6Bg5Vbb8</recordid><startdate>20180601</startdate><enddate>20180601</enddate><creator>Devakumar, A. 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S. ; Pardis, R. ; Manjunath, V.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c316t-d7b4b88cd23ab06fab64a14e54de59001b96b43f188a1ddebd6e67718f8c77e33</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2018</creationdate><topic>Agricultural land</topic><topic>Agricultural practices</topic><topic>Agriculture</topic><topic>Arid regions</topic><topic>Biodiversity</topic><topic>Biomedical and Life Sciences</topic><topic>Carbon</topic><topic>Carbon dioxide</topic><topic>Carbon equivalent</topic><topic>Carbon footprint</topic><topic>Cell Biology</topic><topic>Cereal crops</topic><topic>Cereals</topic><topic>Climate change</topic><topic>Crop rotation</topic><topic>Cropping systems</topic><topic>Crops</topic><topic>Cultivation</topic><topic>Emissions control</topic><topic>Energy consumption</topic><topic>Environmental conditions</topic><topic>Environmental impact</topic><topic>Footprint analysis</topic><topic>Full-Length Research Article</topic><topic>Life Sciences</topic><topic>Methane</topic><topic>Mixed cropping</topic><topic>Nitrogen dioxide</topic><topic>Plant Biochemistry</topic><topic>Plant Ecology</topic><topic>Plant Genetics and Genomics</topic><topic>Plant Sciences</topic><topic>Rainfed farming</topic><topic>Rice</topic><topic>Seasons</topic><topic>Semi arid areas</topic><topic>Semiarid zones</topic><topic>System effectiveness</topic><topic>Tropical environments</topic><toplevel>online_resources</toplevel><creatorcontrib>Devakumar, A. S.</creatorcontrib><creatorcontrib>Pardis, R.</creatorcontrib><creatorcontrib>Manjunath, V.</creatorcontrib><collection>CrossRef</collection><jtitle>Agricultural research (India : Online)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Devakumar, A. S.</au><au>Pardis, R.</au><au>Manjunath, V.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Carbon Footprint of Crop Cultivation Process Under Semiarid Conditions</atitle><jtitle>Agricultural research (India : Online)</jtitle><stitle>Agric Res</stitle><date>2018-06-01</date><risdate>2018</risdate><volume>7</volume><issue>2</issue><spage>167</spage><epage>175</epage><pages>167-175</pages><issn>2249-720X</issn><eissn>2249-7218</eissn><abstract>Agriculture is one of the major sectors that get affected as well as cause climate change. Arid and semiarid regions of the world are expected to become more vulnerable to climate change. Thus, in order to develop appropriate mitigation or adaptive strategies, carbon footprint analysis of agriculture sector becomes crucial. Emissions resulting from the cultivation process depend on the inputs used and the environmental conditions. The present study is an effort to analyze the carbon footprint of agriculture crops cultivated in the state of Karnataka with 80% land under rainfed agriculture under semiarid tropical conditions. About 5.37 terra grams of carbon equivalent (TgCE) was found to occur annually. Cereals contributed 5.04 TgCE/year of which 78% comes from rice, as it emits methane in addition to CO 2 and NO 2 . Possible approaches to reduce methane emission are discussed including the possibility of replacing the area under rice with other crops without affecting the dietary as well as peoples preferences. Inorganic nitrogen fertilizer use in the cultivation process accounts for 72% of the total emissions. 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subjects	Agricultural land Agricultural practices Agriculture Arid regions Biodiversity Biomedical and Life Sciences Carbon Carbon dioxide Carbon equivalent Carbon footprint Cell Biology Cereal crops Cereals Climate change Crop rotation Cropping systems Crops Cultivation Emissions control Energy consumption Environmental conditions Environmental impact Footprint analysis Full-Length Research Article Life Sciences Methane Mixed cropping Nitrogen dioxide Plant Biochemistry Plant Ecology Plant Genetics and Genomics Plant Sciences Rainfed farming Rice Seasons Semi arid areas Semiarid zones System effectiveness Tropical environments
title	Carbon Footprint of Crop Cultivation Process Under Semiarid Conditions
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