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Review
. 2023 Sep 25;55(5):320.
doi: 10.1007/s11250-023-03748-4.

Life cycle assessment of greenhouse gas emission from the dairy production system - review

Arunasalam Singaravadivelan  1 Patil B Sachin  2 S Harikumar  2 Periyasamy Vijayakumar  3 M V Vindhya  2 F M Beegum Farhana  2 K K Rameesa  2 Joseph Mathew  2
Affiliations
Review

Life cycle assessment of greenhouse gas emission from the dairy production system - review

Arunasalam Singaravadivelan et al. Trop Anim Health Prod. .

Abstract

Climate change is altering ecological systems and poses a serious threat to human life. Climate change also seriously influences on livestock production by interfering with growth, reproduction, and production. Livestock, on the other hand, is blamed for being a significant contributor to climate change, emitting 8.1 gigatonnes of CO2-eq per year and accounting for two-thirds of global ammonia emissions. Methane (CH4), nitrous oxide (N2O), and carbon dioxide (CO2) are three major greenhouse gases (GHG) that are primarily produced by enteric fermentation, feed production, diet management, and total product output. Ruminants account for three-quarters of total CO2-equivalent (CO2-eq) emissions from the livestock sector. The global dairy sector alone emits 4.0% of global anthropogenic GHG emissions. Hence, dairy farming needs to engage in environmental impact assessment. Public concern for a sustainable and environmentally friendly farming system is growing, resulting in the significant importance of food-based life cycle assessment (LCA). Over the last decade, LCA has been used in agriculture to assess total GHG emissions associated with products such as milk and manure. It includes the production of farm inputs, farm emissions, milk processing, transportation, consumer use, and waste. LCA studies on milk production would assist us in identifying the specific production processes/areas that contribute to excessive greenhouse gas emissions when producing milk and recommending appropriate mitigation strategies to be implemented for a clean, green, and resilient environment.

Keywords: Climate change; Environmental impact; Greenhouse gas emission; LCA studies; Milk production.

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