Soil Carbon in Agroforestry Systems: An Unexplored Treasure?

  1. Kumar, B. Mohan
  2. Nair, Vimala
  3. Howlett, David
  4. Takimoto, Asako
  5. Gama-Rodrigues, Emanuela
  6. Saha, Subhrajit
  7. Haile, Solomon
  8. Nair, P. K. Ramachandran
  9. Tonucci, Rafael
  10. Garcia, Rasmo
  11. Mosquera-Losada, M.-Rosa
Revista:
Nature Precedings

ISSN: 1756-0357

Año de publicación: 2009

Tipo: Artículo

DOI: 10.1038/NPRE.2009.4061.1 GOOGLE SCHOLAR lock_openAcceso abierto editor

Otras publicaciones en: Nature Precedings

Objetivos de desarrollo sostenible

Resumen

AbstractSoil organic matter (SOM), which contains more reactive organic carbon (C) than any other single terrestrial pool, plays a major role in determining C storage in ecosystems and regulating atmospheric concentrations of carbon dioxide (CO2)^1^. Agroforestry, the practice of growing trees and crops in interacting combinations on the same unit of land^2^, primarily by resource-poor smallholder farmers in developing countries, is recognized as a strategy for soil carbon sequestration (SCS) under the Clean Development Mechanism (CDM) of the Kyoto Protocol^3^. The understanding about C storage and dynamics under agroforestry systems (AFS), however, is minimal. Our studies under various AFS in diverse ecological conditions in five countries showed that tree-based agricultural systems, compared to treeless systems, stored more C in deeper soil layers up to 1 m depth under comparable conditions. More C is stored in soil near the tree than away from the tree; higher SOC content is associated with higher species richness and tree density; and C3 plants (trees) contribute to more C in the silt- + clay-sized (<53 &x00B5;m) fractions that constitute more stable C, than C4 plants, in deeper soil profiles4 - 8. These results provide clear indications of the possibilities for climate change mitigation through SCS in AFS, and opportunities for economic benefit - through carbon trading - to millions of smallholder farmers in developing countries.