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Developing a tactical nitrogen fertilizer management strategy for sustainable wheat production.

Authors :
Fabbri, Carolina
Basso, Bruno
Napoli, Marco
Dalla Marta, Anna
Orlandini, Simone
Martinez-Feria, Rafael A.
Source :
European Journal of Agronomy. Mar2023, Vol. 144, pN.PAG-N.PAG. 1p.
Publication Year :
2023

Abstract

Syncronizing plant available water with soil nitrogen (N) remains a critical aspect of agronomic management to enhance crop yield, grain quality, farmers' profit, and environmental sustainability. Their interaction is essential expecially in landscapes characterized by a highly spatial and temporal range of pedoclimatic conditions. To support farmers in making more informed decisions, validate dynamic process based crop simulation models have been successfully used to optimize N fertlization. In this study, we aimed to develop a tactical N fertilizer management strategy to increase profitability, improve grain quality and reduce N losses. The SALUS model was tested against measured durum wheat grain yield and grain quality data collected across independent farmers' fields in Tuscany (Italy). The model was then used to optimize N fertilization under different potential plant extractable soil water (PESW) conditions at the second topdressing N fertilization timing. The model was tested against measurements of grain yield and protein concentration at harvest, as well as phenological stage, biomass, and plant N content during the growing season. Simulations were carried out for 30 years of available weather, using different N rates. The simulations allowed the identification of optimal N rates for each PESW condition and soil type concerning economic and environmental sustainability. Results showed higher yield and higher leaching for the silty clay soil (Quercia; QUE) than for the loamy soil (Arbia; ARB). No major differences were predicted for protein content across soils. Profitability and emissions increased as N rate increased. The N fertilization strategy locally adopted by farmers was also analyzed across different PESW conditions at 2nd topdressing fertilization in comparison to other adopted N management strategies (timing of application and fertilization rates). The model showed that the conventional fertilization strategy does not maximize socio-ecological benefits, but was also the lowest among all the strategies tested. The maximum economic benefit for farmers was reached by applying 90 kg N at 1st and 60 kg N at 2nd topdressing fertilization, both in dry (due to sufficient soil water storage in the soil) and wet years. These results provide valuable insights for developing strategies that balance sustainability, resilience, quality, and profitability in wheat crop production in central Italy. • Use of SALUS model to optimize nitrogen (N) fertilization. • Simulation of different potential plant extractable soil water (PESW) conditions. • Simulations were carried out for 30 years, using different N rates. • Identification of N fertilization strategy that maximizes economic returns. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
11610301
Volume :
144
Database :
Academic Search Index
Journal :
European Journal of Agronomy
Publication Type :
Academic Journal
Accession number :
161816813
Full Text :
https://doi.org/10.1016/j.eja.2023.126746