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Similar distribution of 15N labeled cattle slurry and mineral fertilizer in soil after one year

Hanna Frick, Astrid Oberson, Michael Cormann, H.‐R. Wettstein, Emmanuel Frossard, Else K. Bünemann

2022Nutrient Cycling in Agroecosystems17 citationsDOIOpen Access PDF

Abstract

Abstract Targeted use of animal manures as a nitrogen (N) fertilizer is challenging because of their poorly predictable N fertilizer value. An enhanced understanding of their N transformation processes in soil under field conditions is necessary to better synchronize N availability and crop N demand. 15 N labeled cattle slurry, produced by feeding a heifer with 15 N labeled ryegrass hay, was used in an on-farm trial on two neighboring fields, cropped with maize or grass-clover, in order to assess crop N uptake and N dynamics in the topsoil. Recovery of applied total N in plant biomass was higher for mineral fertilizer (Min) (45–48%) than for slurry (Slu) (17–22%) when applied at the same rate of mineral N. Also, N derived from fertilizer in plant biomass was higher for Min than for Slu, due to both greater NH 3 emissions and greater initial immobilization of slurry N. Despite initial differences between the two in the relative distribution of residual fertilizer N in soil N pools, already in the following spring the majority (77–89%) of residual N from both fertilizers was found in the non-microbial organic N pool. Of the applied total N, 18–26% remained in the topsoil after the first winter for Min, compared to 32–52% for Slu. Thus, the proportion of fertilizer N not taken up by the first crop after application, enters the soil organic N pool and must be re-mineralized to become plant available.

Topics & Concepts

AgronomyTopsoilFertilizerEnvironmental scienceBiomass (ecology)StrawSlurryCropNitrogenOrganic fertilizerChemistrySoil waterBiologySoil scienceEnvironmental engineeringOrganic chemistrySoil Carbon and Nitrogen DynamicsSoil and Water Nutrient DynamicsAgriculture, Soil, Plant Science