Revista Colombiana de Ciencias Pecuarias (Jun 2014)

Contribution of intensive silvopastoral systems to animal performance and to adaptation and mitigation of climate change

  • César A Cuartas Cardona,
  • Juan F Naranjo Ramírez,
  • Ariel M Tarazona Morales,
  • Enrique Murgueitio Restrepo,
  • Julián D Chará Orozco,
  • Juan Ku Vera,
  • Francisco J Solorio Sánchez,
  • Martha X Flores Estrada,
  • Baldomero Solorio Sánchez,
  • Rolando Barahona Rosales

Journal volume & issue
Vol. 27, no. 2
pp. 76 – 94

Abstract

Read online

According to FAO, world demand for animal products will double in the first half of this century as a result of increasing population and economic growth. During the same period, major changes are expected in world climate. Food security remains one of the highest priority issues in developing Latin American countries, a region where livestock production plays a fundamental role. Agricultural activities seriously threaten natural resources; therefore, it is necessary to ensure that livestock production contributes to satisfy the demand for animal products in a sustainable manner. Intensive silvopastoral systems (ISS) are becoming the technology of choice for Colombian and regional livestock sectors because it can help reduce the seasonality of plants and animal production, and therefore contribute to mitigate and adapt to the effects of climate change. We have recently gained knowledge on the nutritional and productive attributes of these systems. However, in recent years, the low carbon approach acquired importance in animal agriculture, which seeks to primarily promote the adoption of programs running parallel activities aimed at adapting to and mitigating climate change. This review outlines projections on the effects of climate change on the livestock industry, presents concepts on Greenhouse Gas flow and highlights evidence in support of the conclusion that ISS is an interesting option to allow the livestock sector in the region to adapt to climate change and to mitigate some of its effects. The adoption of ISS may help to remove up to 26.6 tons of CO2 eq/Ha/yr from the atmosphere.

Keywords