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Belowground Dynamics Influence Nitrogen Cycling and Crop Productivity in Diversified Corn Systems

Tvisha Martin, Christine D. Sprunger

2021Frontiers in Sustainable Food Systems15 citationsDOIOpen Access PDF

Abstract

Ecological nutrient management is a strategy that can help create resilient cropping systems and reduce the negative impact that agricultural systems have on the environment. Ecological nutrient management enhances plant-soil-microbial interactions and optimizes crop production while providing key ecosystem services. Incorporating perennial legumes into crop rotations and implementing no-till to enhance organic nitrogen (N) soil pools could reduce the need for inorganic N fertilizer inputs and lead to improved soil health. Plant and soil N pools need to be further quantified to understand how to enhance soil health across a range of agroecosystems. This paper aims to quantify plant and soil N pools in systems contrasting in crop perenniality (corn–corn, corn–soy, and corn–forage–forage) and tillage intensity (chisel till vs. no-till). Key plant, soil, and organismal metrics of N cycling were measured including fine root production, N-Acetyl-B-Gulcosaminidase (NAG) enzyme activity, and soil protein, nematode enrichment opportunist (fungal and bacterial feeding nematodes) and the nematode Enrichment Index. Fine root production was determined using in-growth mesh cores. Findings reveal that monoculture cropping systems with reduced tillage intensity and rotations with perennial legumes had significantly greater fine root N (FRN), soil protein and NAG enzyme activity ( p < 0.05) relative to corn-soy. Additionally, nematode bacterivore enrichment opportunists ( b 1) were significantly reduced in corn-corn systems when compared to all other crop rotation systems. Correlation analyses indicated positive and significant relationships between FRN and soil protein ( p < 0.05). These results demonstrate that lengthening crop rotations with perennial legumes and incorporating no-till management can increase organic N inputs, N mineralization rates, and organic N storage. Such ecological approaches to management have the potential to reduce the need for inorganic N inputs, while increasing long-term soil health and crop productivity.

Topics & Concepts

AgronomyTillageAgroecosystemEnvironmental scienceCover cropMonocultureNutrient cycleNo-till farmingCropping systemCrop rotationSoil biologyPerennial plantBiologyNutrientSoil waterCropSoil fertilityAgricultureEcologySoil scienceNematode management and characterization studiesLegume Nitrogen Fixing SymbiosisSoil Carbon and Nitrogen Dynamics
Belowground Dynamics Influence Nitrogen Cycling and Crop Productivity in Diversified Corn Systems | Litcius