Nitrogen fertilization and sowing date as wheat climate change adaptation tools under Mediterranean conditions

In the current situation, climate change has substantially disturbed precipitation occurrence in the Mediterranean region, by increasing its variability and decreasing the total annual amount, which both negatively affect rainfed crop productivity. We hypothesize that a simple cost-effective method...

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Bibliographic Details
Published in:European journal of agronomy 2024-11, Vol.161, p.127346, Article 127346
Main Authors: Allende-Montalban, Raúl, Gabriel, José Luis, de Andrés, Eusebio Francisco, Porcel, Miguel Ángel, Santín-Montanya, Maria Inés, Gandía, Maria Luisa, Martín-Lammerding, Diana, Nieto, Maria Teresa, Delgado, María del Mar, San-Juan-Heras, Raúl, Tenorio, José Luis
Format: Article
Language:English
Subjects:
Cropping system re-adaptation
Drought
Grain quality
Grain yield
Semi-arid
Sustainable agricultural systems
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Summary:In the current situation, climate change has substantially disturbed precipitation occurrence in the Mediterranean region, by increasing its variability and decreasing the total annual amount, which both negatively affect rainfed crop productivity. We hypothesize that a simple cost-effective method for enhancing crop adaptation to new climate conditions would consist of modifying the crop sowing date. Traditional nitrogen (N) fertilization rates could also be adjusted to the current situation given the interdependent water/N relation in plant nutrition. Based on this hypothesis, during a 4-year field experiment with bread wheat (Triticum aestivum L., var. Pistolo), the effects of three sowing dates (October, November, February) and three N fertilization rates (54 kg N ha−1, 27 kg N ha−1, 0 kg N ha−1) on crop development, yield, grain quality, soil N content and N use efficiency were analyzed. The results showed that water scarcity was the predominant limiting factor, because it outweighed N deficiency with half-fertilized crops being as productive as fully fertilized treatments. Nevertheless, sowing date was the most influential factor, with up to a 30 % yield increase noted for the November-sown wheat compared to that sown in October, while delaying wheat sowing to February decreased crop yields. Grain protein content remained the same between the November- and October-sown crops, but increased in the February one crops. Optical sensor measurements showed that an optimal assessment of the current water/N nutritional status of crops can be achieved with these tools. [Display omitted] •Climate change has altered rainfall and temperature patterns in Mediterranean region•These changes highlights the necessity of improving crop management to adapt.•Shifting the sowing date enhances crop yields under changing climate conditions.•Reducing N fertilizer rates enhances water and N co-limitation and yield increase.
ISSN:1161-0301
DOI:10.1016/j.eja.2024.127346