Soil carbon sequestration: an innovative strategy for reducing atmospheric carbon dioxide concentration

La presente revisión tuvo como objetivo analizar críticamente el secuestro de carbono del suelo como opción de mitigación de carbono y su papel en la productividad agrícola, la recuperación de tierras degradadas, el incremento en la diversidad biológica y sus perspectivas de futuro. Un incremento en los niveles de materia orgánica del suelo es necesario para garantizar la protección del suelo y su conservación, tanto del punto de vista agronómico como ambiental. Un manejo adecuado de la materia orgánica del suelo es un prerquisito para una agricultura sustentable, capaz de enfrentar una demanda creciente de alimentos y no modificar el ambiente, además de garantizar la calidad del recurso para las generaciones futuras.

Pankaj Srivastava • Amrit Kumar • Soumit K. Behera • Yogesh K. Sharma • Nandita Singh

Biodivers Conserv, 21: 1343–1358 (2012)

 

Global warming due to increasing greenhouse gases emission and the subsequent climatic changes are the most serious environmental challenges faced by environmental scientists, academicians, regulatory agencies and policy makers worldwide. Among the various greenhouse gases, CO2 constitutes a major share and its concentration is increasing rapidly. Therefore, there is perhaps an urgent need to formulate suitable policies and programs that can firmly reduce and sequester CO2 emissions in a sustainable way. In order to combat the predicted disaster due to rising CO2 level, several CO2 capture and storage technologies and medium are being widely pursued and deliberated. Among them soil carbon sequestration (SCS) is gaining global attention because of its stability and role in long-term surface reservoir, natural low cost and eco-friendly means to combat climate change. Apart from the carbon capturing, the process of soil carbon stabilization also provides other tangible benefits that includes achieving food security, by improving soil quality, wasteland reclamation and preventing soil erosion. The present article aimed to address all these concerns and provide strategies and critical research needs to implement SCS as a mitigation option for increasing atmospheric CO2 level and its future directions.