Article Dans Une Revue International Journal of Environment and Climate Change Année : 2025

Optimizing Carbon Sequestration: The Role of Coconut Palm in Agroforestry

Résumé

Terrestrial carbon sequestration is an essential tactic for mitigating climate change, because atmospheric carbon dioxide (CO2) has increased significantly since pre-industrial times. The potential of the perennial coconut palm (Cocos nucifera) as a carbon sink and the mutually beneficial effects of incorporating it into intercropping systems are examined in this review. Different techniques such as destructive, non-destructive, remote sensing and GIS methods can be used for estimating the plant biomass and carbon stock. Among all allometric equations are mostly used for estimating the carbon sequestration. Because of their long lifespan, coconut palms can store a lot of carbon; older, taller varieties are better at sequestering carbon. Intercropping systems significantly increase carbon sequestration, storing much more carbon than monocultures. This is supported by a 23% rise in root biomass and a 4% increase in soil organic carbon within these mixed systems. This agroforestry approach provides a comprehensive solution, improving ecosystem services, helping to achieve global climate goals and giving farmers economic resilience through diversified income.

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Dates et versions

hal-05244004 , version 1 (08-09-2025)

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  • HAL Id : hal-05244004 , version 1

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Sriyansu Nayak, P. Lincy Davis, Balakrishnan Ajithkumar, Arjun Vysakh., Riya K. R. Optimizing Carbon Sequestration: The Role of Coconut Palm in Agroforestry. International Journal of Environment and Climate Change, 2025, 15 (9), pp.242-255. ⟨hal-05244004⟩
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