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Carbon sequestration potential of agroforestry systems in Indian agricultural landscape: A Meta-Analysis.

Authors :
T.M., Kiran Kumara
Pal, Suresh
Chand, Prem
Kandpal, Ankita
Source :
Ecosystem Services; Aug2023, Vol. 62, pN.PAG-N.PAG, 1p
Publication Year :
2023

Abstract

[Display omitted] • Agroforestry (AF) represents a win–win strategy for mitigating climate change impacts. • Carbon sequestration through agroforestry systems is technically feasible and economically profitable. • Agrihorticulture has higher soil carbon stocks than agrisilviculture, silvipasture, and agrihortisilviculture. • Transition from a forest to an AF system may lead to a reduction in carbon sequestration. • The C sequestration potential of the AF system is governed by previous land use, system type and age, and rainfall. Agroforestry (AF) systems offer numerous ecosystem services and environmental benefits to humanity. Compared to conventional agricultural practices, these systems have the potential to address the impacts of climate change through carbon (C) sequestration. We examined the impacts of four dominant AF systems, viz., agrisilviculture, silvipasture, agrihortisilviculture, and agrihorticulture, on soil C sequestration and the influencing factors as well as associated benefits. Results revealed that conversion to agroforestry systems resulted in a considerably higher C sequestration (+25.34%) compared to non-agroforestry systems. The highest mean soil C stock was found in agrihorticulture (38.11 Mg C ha<superscript>−1</superscript>), which is + 31.64% higher in comparison with conventional systems. The transformation from grasslands to agroforestry systems resulted in the highest carbon sequestration, with an increase of + 36.94%. In contrast, the transition from forest to agroforestry systems resulted in a decline in soil C sequestration (–23.42%), implying its sequestration potential outside the forest rather than the substitute of forests. AF in semi-arid subtropical regions showed higher sequestration potential compared to other regions. Further, higher C sequestration was observed in younger trees (+39.51%) and in the upper soil layers (upto30cm) of AF systems. Factors such as previous land use, system type, age, and rainfall were the major drivers of soil C sequestration in AF systems. Our findings also indicated that all the AF systems considered are technically feasible and economically profitable in the Indian agricultural landscape. Reorienting and extending incentives for agroforestry, improving certification standards for agroforestry products, and strengthening the AF extension system will be crucial in enhancing ecosystem services and supporting India's efforts toward achieving its net zero emission target. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
22120416
Volume :
62
Database :
Supplemental Index
Journal :
Ecosystem Services
Publication Type :
Academic Journal
Accession number :
164963865
Full Text :
https://doi.org/10.1016/j.ecoser.2023.101537