Carbon sequestration potential, challenges, and strategies towards climate action in smallholder agricultural systems of South Asia
South Asia is a global hotspot for climate change with enormous pressure on land and water resources for feeding the burgeoning population. The agricultural production systems are highly vulnerable in the region and is primarily dominated by small and marginal farmers with intensive farming practices that had favored the loss of C from soil. This review discusses the potential of soil and crop management practices such as minimum/reduced/ no-tillage, use of organic manure, balanced and integrated plant nutrient application, precision land levelling, precision water and pest management, residue management and cropping system optimization to maintain the C-equilibrium between soil and atmosphere and to enhance the C-sequestration in the long run. Results of metaanalysis show a potential 36% increase in soil organic C stock in the top 0–15 cm layer in this region which amounts to ∼18 Mg C stocks ha−1. Improved management practices across crops and environment may reduce methane emission by 12% resulting in an 8% reduction in global warming potential (GWP), while nonsubmerged condition led to a 51% GWP reduction in rice. Conservation agriculture and precision fertilization also reduced GWP by 11 and 14%, respectively. Although several innovative climate resilient technologies having significant potential for C-sequestration have been developed, there is an urgent need for their scaling and accelerated adoption to increase soil C-sequestration. Policies and programs need to be devised for incentivizing farmers to adopt more C-neutral or C-positive agricultural practices. The national governments and other agencies should work towards carbon farming together with global initiatives such as the 4p1000 Initiative and Global Soil Partnership, in addition to research and policy changes. This will be vital for the success of soil C sequestration in South Asia.
Main Authors: | , , , , , , , , , , |
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Language: | English |
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CIMMYT Research Data & Software Repository Network
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Subjects: | Agricultural Sciences, |
Online Access: | https://hdl.handle.net/11529/10548733 |
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