Litcius/Paper detail

Ecological intensification of cropping systems enhances soil functions, mitigates soil erosion, and promotes crop resilience to dry spells in the Brazilian Cerrado

Lucas de Castro Moreira da Silva, Junior César Avanzi, Devison Souza Peixoto, Marina Neves Merlo, Émerson Borghi, Á. V. de Resende, Salvador Francisco Acuña-Guzman, Bruno Montoani Silva

2021International Soil and Water Conservation Research33 citationsDOIOpen Access PDF

Abstract

Water scarcity threatens global food security and agricultural systems are challenged to achieve high yields while optimizing water usage. Water deficit can be accentuated by soil physical degradation, which also triggers water losses through runoff and consequently soil erosion . Although soil health in cropping systems within the Brazilian Cerrado biome have been surveyed throughout the years, information about soil erosion impacts and its mitigation are still not well understood; especially concerning the role of cropping system diversification and its effects on crop yield. Thus, the aim of this study was to assess whether ecological intensification of cropping systems –inclusion of a consorted perennial grass and crop rotation– could promote soil coverage and consequently decrease water erosion and soil, water, and nutrient losses. This work studied the effects of crop rotation and consorted Brachiaria , along with different levels of investment in fertilization on soil physical quality and on soil, water, and nutrient losses, and crop yields. Results proved that soybean monoculture (SS) is a system of low sustainability even under no-till in the Brazilian Cerrado conditions. It exhibited high susceptibility to soil, water, and nutrient losses, causing low crop yields. Our results showed that water losses in SS cropping system were approximately 10% of the total annual rainfall, and total K losses would require an additional 35% of K application. Conversely, ecological intensification of cropping systems resulted in enhanced soil environmental and agronomic functions, increased grain yield, and promoted soil and water conservation: high soil cover rate, and low soil, water and nutrient losses. Ecological intensification proved to be an adequate practice to boost crop resilience to water deficit in the Brazilian Cerrado.

Topics & Concepts

Environmental scienceAgronomySoil biodiversitySoil retrogression and degradationSoil healthCover cropCropping systemCrop rotationNo-till farmingMonocultureSurface runoffSoil fertilityAgroforestrySoil conservationSoil organic matterSoil waterAgricultureCropSoil scienceEcologyBiologySoil Management and Crop YieldSoil erosion and sediment transportSoil Carbon and Nitrogen Dynamics