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Legumes and nutrient management improve phosphorus and potassium balances in long‐term crop rotations

Kathryn E. White, Michel A. Cavigelli, Gwendolyn Bagley

2021Agronomy Journal14 citationsDOI

Abstract

Abstract Balancing P and K inputs with crop needs is challenging in cropping systems applying poultry litter (PL) for N. We compared P and K balances of PL‐amended organic and mineral‐fertilized conventional systems over 13 yr. In organic systems, lower legume cover crop biomass (3,462 ± 421 vs. 4,691 ± 436 kg ha −1 ) and N contributions in a corn ( Zea mays L.)–soybean [ Glycine max (L.) Merr.] rotation (Org2) led to 58% greater PL applications to corn than in a corn–soybean–wheat ( Triticum aestivum L.) rotation (Org3); as did alfalfa ( Medicago sativa L.) in a corn–soybean–wheat–alfalfa rotation (Org6). Greater Org2 and Org3 P inputs reduced harvest exports by 106 and 102 kg ha −1 , respectively, increased mean P balances by 209 kg ha −1 , and mean Mehlich 3 P concentrations by 9.6 mg kg −1 compared to Org6. Alfalfa exported 62% of P and 56% of K applied throughout the Org6 rotation. Due to alfalfa export, the annual P surplus was small (9 kg ha −1 ) and soil P was “optimum” in Org6. Soil test‐based fertilizer application in tilled and no‐till conventional systems with initially high soil P led to a –124 kg ha −1 P balance and optimum soil P. Fertilizer and PL K applications exceeding crop uptake led to positive K balances in all systems but greater retention of PL than fertilizer K. Legume cover crops or forages and increasing crop rotation length/complexity improved organic system P and K balances. Soil test‐based fertilizer application in conventional systems reduced high soil test P while maintaining yields.

Topics & Concepts

AgronomyCrop rotationFertilizerRotation systemCover cropCropping systemLegumeNutrientPhosphorusCropEnvironmental scienceChemistryNitrogenBiologyOrganic chemistrySoil and Water Nutrient DynamicsSoil Carbon and Nitrogen DynamicsPhosphorus and nutrient management
Legumes and nutrient management improve phosphorus and potassium balances in long‐term crop rotations | Litcius