Litcius/Paper detail

Cover Crop Species Affect N2O Emissions at Hotspot Moments of Summer Crops

Sebastián Vangeli, Silvina Beatriz Restovich, Gabriela Posse

2022Frontiers in Soil Science15 citationsDOIOpen Access PDF

Abstract

The use of cover crops, combined with low N fertilization and no-tillage, reduces the environmental impacts of agriculture. Legume cover crops provide N to the agroecosystem and allow N fertilization to be reduced without losing productivity, but may also increase nitrous oxide (N 2 O) emissions. Our main objective was to evaluate the impact of using oats, vetch, and oats+vetch mixture as cover crops on N 2 O emissions and summer crop yields in a maize–soybean rotation with low N fertilization to maize (32 kg N ha −1 ) under no-tillage. We also studied how the different cover crops affected soil variables related to N 2 O emissions. For the treatments that included vetch (vetch and oats+vetch), plots without N fertilization were included to evaluate if N 2 O emissions and crop yield were increased by low-rate N fertilization after a legume cover crop. We measured N 2 O emissions using static chambers in a long-term experiment located in the Argentine Pampas. We selected measurement periods in which high N 2 O fluxes were expected to evaluate the effect of the different cover crops during these hotspots. In the early stages of maize and soybean, the use of vetch as a cover crop increased N 2 O emissions compared with oats and a control without a cover crop. In those early stages, conditions for high N 2 O flux occurrence were promoted by the use of cover crops, as they increased soil moisture and, when vetch was the cover crop, nitrate content. Although the oats+vetch mixture reduced soil nitrate availability compared with vetch, this was not reflected lower N 2 O emissions. The use of oats as a cover crop did reduce N 2 O emissions compared with vetch and also decreased maize yields by 30.6%. The low-rate N fertilization in treatments that included vetch as a cover crop did not increase N 2 O emissions or yield significantly. Our study demonstrates that in low-input cropping systems under no-tillage, the use of legume cover crops can favor yields and also increase N 2 O emissions during the early stages of the following cash crop. Consequently, future work should explore mitigation strategies during this period.

Topics & Concepts

Cover cropAgronomyTillageEnvironmental scienceVicia villosaLegumeCrop rotationCropMonocultureCrop yieldBiologySoil Carbon and Nitrogen DynamicsSoil and Water Nutrient DynamicsAgronomic Practices and Intercropping Systems