Page Banner

United States Department of Agriculture

Agricultural Research Service

Research Project: SOIL CARBON CYCLING, TRACE GAS EMISSION, TILLAGE AND CROP RESIDUE MANAGEMENT

Location: Soil Management Research

Title: Carbon sequestration and environmental benefits from no-till systems

Author
item Reicosky, Donald

Submitted to: Book Chapter
Publication Type: Book / Chapter
Publication Acceptance Date: August 20, 2007
Publication Date: January 1, 2008
Repository URL: http://hdl.handle.net/10113/39383
Citation: Reicosky, D.C. 2008. Carbon sequestration and environmental benefits from no-till systems. In: Goddard, T. et al., editors. No-till Farming Systems. Special Publication No. 3. Bangkok, Thailand: World Association of Soil and Water Conservation. p. 43-58.

Technical Abstract: Agricultural carbon (C) sequestration may be one of the most cost-effective ways to slow processes of global warming. Information is needed on the mechanism and magnitude of gas generation and emission from agricultural soils with specific emphasis on tillage mechanisms. This work reviews the scientific foundation and basic research on tillage-induced C losses and environmental benefits of soil C. With no tillage, crop residues are left more naturally on the surface to protect the soil and control the conversion of plant C to soil organic matter (SOM) and humus through C cycling. Numerous environmental benefits may result from agricultural activities that sequester soil C and contribute to environmental security. As part of no-regret strategies, practices that sequester soil C help reduce soil erosion and improve water quality and are consistent with more sustainable and less chemically-dependent agriculture. While we learn more about soil C storage and its central role in direct environmental benefits, we must understand the secondary environmental benefits and what they mean to production agriculture. Increasing soil C storage can increase infiltration, increase fertility and nutrient cycling, decrease wind and water erosion, minimize compaction, enhance water quality, decrease C emissions, impede pesticide movement and generally enhance environmental quality. The sum of each individual benefit adds to a total package with major significance on a global scale. Incorporating C storage and cycling in conservation planning demonstrates concern for our global resources and presents a positive role for soil C that will have a major impact on our future quality of life.

Last Modified: 9/2/2014
Footer Content Back to Top of Page