Agricultural greenhouse gas emissions of an Indian village - Who's to blame: Crops or livestock?
Hemingway C., Vigne M., Aubron C.. 2023. Science of the Total Environment, 856 (2) : 10 p..
A carbon footprint assessment, combining various scales of analysis and including a territorial assessment, is proposed to estimate the greenhouse gas (GHG) emissions from crops and livestock in an Indian village impacted by both Green (for crops) and White (for milk) revolutions. It is based on the GHG assessment of 10 cropping systems, 8 livestock farming systems and 9 production systems using the comparative agriculture and Life Cycle Assessment (LCA) approaches. Results show that mineral fertilisation, irrigation and methane from paddy fields are the main drivers of emissions at plot level. Livestock farming systems emit from 4.7 tCO2eq/female to 8.6 tCO2eq/female, enteric fermentation being the first source of emission. Disparities at farm level are huge, ranging from 9 to 733 tCO2eq. At village level, emissions yield 37 tCO2eq/ha and livestock contributes to 60 % of GHG emissions. The high GHG emissions are a legacy of the Green and White Revolutions: the livestock population is high, fed on highly emissive fodder and concentrates and produces little milk. The results enhance our understanding of the share of carbon emissions from crops and livestock at farm and territorial level. They pinpoint the environmental and socio-economic downsides of livestock farming intensification.
Mots-clés : émissions de gaz à effet de serre; agriculture; système de culture; élevage; atténuation des effets du changement climatique; village; analyse du cycle de vie; structure agraire; lait; riz; empreinte carbone; méthane entérique; inde
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Agents Cirad, auteurs de cette publication :
- Vigne Mathieu — Es / UMR SELMET