Assessing village-level carbon balance due to greenhouse gas mitigation interventions using EX-ACT model
Under National Initiative on Climate Resilient Agriculture (NICRA) project, a range of climate smart agricultural practices were evaluated with on-farm demonstrations during 2011-2013 in eight climatically vulnerable villages of Andhra Pradesh, India. Proven climate smart practices viz residue recyc...
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Veröffentlicht in: | International journal of environmental science and technology (Tehran) 2016-01, Vol.13 (1), p.97-112 |
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Zusammenfassung: | Under National Initiative on Climate Resilient Agriculture (NICRA)
project, a range of climate smart agricultural practices were evaluated
with on-farm demonstrations during 2011-2013 in eight
climatically vulnerable villages of Andhra Pradesh, India. Proven
climate smart practices viz residue recycling, soil, water and nutrient
management, afforestation and feeding + breeding practices in livestock
were implemented in annual and perennial crops, irrigated rice,
horticulture, fodder, forestry and livestock. An EX-ante carbon-balance
tool (EX-ACT) developed by the FAO was used with a combination of
various climate smart interventions to know the mitigation potentials
in eight climatically vulnerable villages of Andhra Pradesh, India.
Based on our observations, EXACT model had shown that these practices
were effective to mitigate CO2 emissions apart from enhancing soil
productivity. In Nacharam, Yagantipalli, Sirusuwada and Matsyapuri
villages, climate smart practices implemented in annual crops along
with crop residue recycling, crop and water management practices
resulted in negative carbon (C) balance by -16,410, -8851, -7271 and
-6125 t CO2 e, respectively. The EX-ACT model predicted positive carbon
balance with irrigated module in the rice-growing villages of
Sirusuwada and Matsyapuri villages. The negative values suggest a sink,
and positive values a source for CO2 emissions. In Chamaluru village,
although there were CO2 emissions (source) due to livestock and
nonforest and land use changes, there was a carbon sink due to other
activities as predicted by the model. The results suggested that
various climatic smart practices at the village level were successful
in creating net sink of CO2 emissions (t CO2 e). |
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ISSN: | 1735-1472 1735-2630 |
DOI: | 10.1007/s13762-015-0788-z |