Integrated crop-livestock system as a strategy to store and stabilize soil carbon in Brazilian agriculture

Abstract

Intensifying agricultural systems by the inclusion of forage species with vigorous root growth in crop rotation can be a powerful strategy to increase soil organic carbon (SOC) storage for climate change mitigation. Our hypothesis is that the inclusion of brachiaria grass (Brachiaria brizantha) increases the physical and chemical stability of SOC, and provides greater and diversified root exudates that can be a prospective regulator to increase the accumulation of SOC. The main objective of this research proposal is to evaluate the quantitative and qualitative changes in SOC storage pools driven by the crop succession, integrated crop-livestock (ICL) system and pasture. In addition, it will be investigated whether root exudates increase or decrease the storage of stable SOC. The project will be organized in two complementary experiments. The experiment 1 will quantify the storage and stabilization of SOC in areas under cultivation of crop succession, ICL system and continuous pasture using SOC physical fractionation and chemical composition methods and, assess the microbial groups linked to SOC storage by molecular methods. The experimental areas are conducted for 10 years, and located at the experimental farm of Embrapa Agrossilvipastoril, Sinop/MT - Brazil under a Typic Hapludox soil with clay texture. The experiment 2 will quantify the effect of different quantities and types of synthetic root exudates on storage SOC in ICL system under controlled conditions. For that, three different quantities of carbon will be applied as a cocktail of synthetic exudates containing glucose, glutamine and citric acid to undisturbed soils aiming to mimic the exudation of soybean, corn and brachiaria, and then, the SOC storage and stabilization will be measured. Additionally, extra treatments will evaluate the effect of each of the three exudate compounds separately on SOC changes. The results will provide a fundamental scientific basis for a comprehensive understanding of SOC storage and stabilization processes, and the effect of root exudates on stable SOC storage for enhancing carbon sequestration in integrated agricultural soils.