Soil carbon sequestration and its role in reducing global carbon footprints: strategies, challenges and policy implications

Rattan Lal

doi:10.20517/cf.2025.123

Carbon Footprints ›› 2026, Vol. 5 ›› Issue (1) -10. DOI: 10.20517/cf.2025.123

Review

Soil carbon sequestration and its role in reducing global carbon footprints: strategies, challenges and policy implications

Rattan Lal

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Abstract

Food systems account for about 30% of anthropogenic emissions, of which agriculture contributes 12%-14%. Agro-ecosystems have large ecological footprints (EFP). Thus, the objective of the review is to examine land-use and management practices that can reduce EFP and sequester carbon (C) in soil. Decomposition of soil organic matter is accelerated by plow tillage and on-farm burning of crop residues. Livestock are also a source of CH₄ through enteric fermentation and manure management. Approaches to reducing the global EFP of agroecosystems are discussed with the objective of adaptation and mitigation of anthropogenic climate change. Sequestration of atmospheric carbon dioxide (CO₂) in soil, as soil organic carbon and soil inorganic carbon, can offset emissions. Examples of best management practices include conservation agriculture, judicious use of chemicals, drip fertigation, agroforestry, improved livestock grazing and manure management. The rate of C sequestration varies widely depending on soil, climate, and management. Soils of agroecosystems have the potential to sequester 4 to 10 Pg CO₂ equivalents (CO₂eq) per year (Pg = petagram = 10¹⁵g = 1 giga ton or Gt = 1 billion metric ton). However, the gross rate of C sequestration in soil varies among soils, eco-regions and management. The EFP of agro-ecosystems can be reduced by enhancing use efficiency of inputs, decreasing leakage of chemicals into the environment, conserving soil and water, and adopting regenerative agriculture. The importance of C farming and approaches to its adoption are discussed as payments for ecosystem services and the establishment of the Soil Health Act. Reducing EFP of agro-ecosystems is narrated in relation to Sustainable Development Goals of the United Nations.

Keywords

Farm operations / agro-ecosystems / best management practices / hidden C cost / use efficiency of inputs / carbon footprint / ecosystem footprint

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Rattan Lal. Soil carbon sequestration and its role in reducing global carbon footprints: strategies, challenges and policy implications. Carbon Footprints, 2026, 5(1): -10 DOI:10.20517/cf.2025.123

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