Future Impact of Climate Change on Durum Wheat Growth and Productivity in Northern Tunisia

Agronomy Pub Date : 2024-09-05 DOI:10.3390/agronomy14092022
Mohamed Nejib El Melki, Imen Soussi, Jameel Mohammed Al-Khayri, Othman M. Al-Dossary, Bader Alsubaie, Slaheddine Khlifi
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Abstract

This study evaluates the projected impact of climate change on wheat production in Northwest Tunisia, specifically at Medjez El Beb (36.67 m, 9.74°) and Slougia (36.66 m, 9.6°), for the period 2041–2070. Using the CNRM-CM5.1 and GFDL-ESM2M climate models under RCP4.5 and RCP8.5 scenarios, coupled with the AquaCrop and SIMPLE crop growth models, we compared model outputs with observed data from 2016 to 2020 to assess model performance. The objective was to determine how different climate models and scenarios affect wheat yields, biomass, and growth duration. Under RCP4.5, projected average yields are 7.709 q/ha with AquaCrop and 7.703 q/ha with GFDL-ESM2M. Under RCP8.5, yields are 7.765 tons/ha with AquaCrop and 7.198 q/ha with SIMPLE Crop, indicating that reduced emissions could improve wheat growth conditions. Biomass predictions showed significant variation: in Medjez El Beb, average biomass is 17.99 tons/ha with AquaCrop and 18.73 tons/ha with SIMPLE Crop under RCP8.5. In Slougia, average biomass is 18.90 tons/ha with AquaCrop and 19.04 tons/ha with SIMPLE Crop under the same scenario. Growth duration varied, with AquaCrop predicting 175 days in Medjez El Beb and 178 days in Slougia, while SIMPLE Crop predicted 180 days in Medjez El Beb and 182 days in Slougia, with a standard deviation of ±12 days for both models. SIMPLE Crop demonstrated higher accuracy in predicting growth cycle duration and yield, particularly in Slougia, with mean bias errors of −3.6 days and 2.26 q/ha. Conversely, AquaCrop excelled in biomass prediction with an agreement index of 0.97 at Slougia. Statistical analysis revealed significant yield differences based on climate models and emission scenarios, with GFDL-ESM2M under RCP4.5 showing more favorable conditions. These findings emphasize the importance of model selection and calibration for accurately projecting the agricultural impacts of climate change, and they provide insights for enhancing prediction accuracy and informing adaptation strategies for sustainable wheat production in Northwest Tunisia.
气候变化对突尼斯北部杜伦麦生长和生产力的未来影响
本研究评估了 2041-2070 年期间气候变化对突尼斯西北部小麦生产的预测影响,特别是对 Medjez El Beb(36.67 米,9.74°)和 Slougia(36.66 米,9.6°)的影响。利用 RCP4.5 和 RCP8.5 情景下的 CNRM-CM5.1 和 GFDL-ESM2M 气候模型,结合 AquaCrop 和 SIMPLE 作物生长模型,我们将模型输出与 2016 年至 2020 年的观测数据进行了比较,以评估模型性能。目的是确定不同的气候模型和情景如何影响小麦产量、生物量和生长期。在 RCP4.5 条件下,AquaCrop 的预测平均产量为 7.709 q/ha,GFDL-ESM2M 的预测平均产量为 7.703 q/ha。在 RCP8.5 条件下,AquaCrop 的产量为 7.765 吨/公顷,SIMPLE Crop 的产量为 7.198 q/公顷,这表明减排可以改善小麦的生长条件。生物量预测显示出显著差异:在 Medjez El Beb,在 RCP8.5 条件下,使用 AquaCrop 的平均生物量为 17.99 吨/公顷,使用 SIMPLE Crop 的平均生物量为 18.73 吨/公顷。在 Slougia,相同情景下,AquaCrop 的平均生物量为 18.90 吨/公顷,SIMPLE Crop 的平均生物量为 19.04 吨/公顷。生长期各不相同,AquaCrop 预测 Medjez El Beb 为 175 天,Slougia 为 178 天,而 SIMPLE Crop 预测 Medjez El Beb 为 180 天,Slougia 为 182 天,两个模型的标准偏差均为±12 天。SIMPLE Crop 在预测生长周期持续时间和产量方面表现出更高的准确性,尤其是在 Slougia,平均偏差误差为 -3.6 天和 2.26 q/ha。相反,AquaCrop 在生物量预测方面表现出色,在 Slougia 的一致指数为 0.97。统计分析显示,不同气候模式和排放情景下的产量差异显著,RCP4.5 条件下的 GFDL-ESM2M 显示出更有利的条件。这些发现强调了模型选择和校准对于准确预测气候变化对农业影响的重要性,并为提高预测准确性和为突尼斯西北部小麦可持续生产的适应战略提供了启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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