Response of Durum Wheat Cultivars to Climate Change in a Mediterranean Environment: Trends of Weather and Crop Variables at the Turn of 21st Century

IF 3.7 2区 农林科学 Q1 AGRONOMY
Angelo Rossini, Roberto Ruggeri, Andreina Belocchi, Francesco Rossini
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Abstract

A better comprehension and analysis of climate impacts on crop traits allows the implementation of more appropriate adaptation strategies and, therefore, a higher resilience of the future cropping systems. The aims of this study were: (i) to assess how the climate changed in the last 32 years in a Mediterranean-type climate, (ii) to understand how crop traits evolved over time in early and late durum wheat cultivars and (iii) to highlight which weather variables mostly affected the performances of diverse durum wheat varieties. To investigate this, a 32-year period (i.e., 1989–2020) was analysed, detecting possible significant trends of weather variables (e.g., air temperatures, precipitations, solar radiation) and crop traits (e.g., earliness, yield, yield components and test weight) over time in Viterbo, central Italy. Eight durum wheat varieties (4 early and 4 late cultivars) were chosen from the most used in that location. A clear upward trend of the monthly maximum air temperature during the entire growing season was revealed (0.12°C–0.21°C per year), while rainfall displayed a significant trend only for February and March. Days to heading and number of spikes per unit area showed a significant downward trend moving towards 2020. Anticipation of heading date was much more pronounced in the late cultivars than in the early ones, so that the difference between the two groups was reduced from about 10 days of 1989 to less than 6 days of 2020. Grain yield stagnated around 5 t ha−1 with late varieties that proved to be as good producers as the early ones. Test weight and thousand kernel weight showed a slight increase over time. Maximum temperatures of February and March exerted a considerable influence in reducing time to heading (0.7–3.4 days for each additional°C), while the maximum temperature of May was detrimental for grain yield (−180 to −270 kg ha−1 for each additional °C). Our study identified two weak points in the current durum wheat cultivation: (i) phenology is being more and more similar among modern cultivars; (ii) the number of spikes per unit area dramatically decreased in the last 30 years. Therefore, beside greater genetic diversity, a new agronomic approach, especially from seeding to the end of the tillering stage, will be required to cope with durum cultivation in the future climate scenario of the Mediterranean. The outputs of our analysis add precious information on the comprehension of climate change effects on Mediterranean cropping systems and can guide either the decision making for the management of durum wheat or its breeding activity for the future.

Abstract Image

地中海环境下硬粒小麦品种对气候变化的响应:21 世纪之交天气和作物变量的变化趋势
更好地理解和分析气候对作物性状的影响有助于实施更适当的适应战略,从而提高未来种植系统的抗灾能力。这项研究的目的是(i) 评估过去 32 年中地中海气候的变化情况;(ii) 了解早期和晚期硬粒小麦栽培品种的作物性状是如何随时间演变的;(iii) 强调哪些天气变量对不同硬粒小麦品种的表现影响最大。为此,我们分析了意大利中部维泰博地区长达 32 年(即 1989-2020 年)的气候情况,以发现天气变量(如气温、降水量、太阳辐射)和作物性状(如早熟性、产量、产量成分和测试重量)随时间变化的可能显著趋势。从该地区使用最多的小麦品种中选出了 8 个硬粒小麦品种(4 个早熟品种和 4 个晚熟品种)。整个生长期的月最高气温呈明显上升趋势(每年 0.12°C-0.21°C),而降雨量仅在 2 月和 3 月呈现显著趋势。到 2020 年,打顶天数和单位面积穗数呈显著下降趋势。晚熟栽培品种比早熟栽培品种对穗期的预期更为明显,因此两组之间的差异从 1989 年的约 10 天减少到 2020 年的不到 6 天。晚熟品种的谷物产量停滞在 5 吨/公顷左右,而早熟品种的产量与晚熟品种相当。测试重量和千粒重随着时间的推移略有增加。2 月和 3 月的最高气温对缩短打顶时间有相当大的影响(每升高摄氏度 0.7-3.4 天),而 5 月的最高气温对谷物产量不利(每升高摄氏度-180 至-270 千克/公顷)。我们的研究发现了目前硬粒小麦栽培的两个薄弱环节:(i) 现代栽培品种的物候越来越相似;(ii) 过去 30 年中单位面积穗数急剧下降。因此,除了提高遗传多样性外,还需要一种新的农艺学方法,尤其是从播种到分蘖末期的农艺学方法,以应对地中海地区未来气候条件下的硬质小麦种植。我们的分析结果为理解气候变化对地中海种植系统的影响提供了宝贵的信息,可以指导未来硬粒小麦管理决策或育种活动。
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来源期刊
Journal of Agronomy and Crop Science
Journal of Agronomy and Crop Science 农林科学-农艺学
CiteScore
8.20
自引率
5.70%
发文量
54
审稿时长
7.8 months
期刊介绍: The effects of stress on crop production of agricultural cultivated plants will grow to paramount importance in the 21st century, and the Journal of Agronomy and Crop Science aims to assist in understanding these challenges. In this context, stress refers to extreme conditions under which crops and forages grow. The journal publishes original papers and reviews on the general and special science of abiotic plant stress. Specific topics include: drought, including water-use efficiency, such as salinity, alkaline and acidic stress, extreme temperatures since heat, cold and chilling stress limit the cultivation of crops, flooding and oxidative stress, and means of restricting them. Special attention is on research which have the topic of narrowing the yield gap. The Journal will give preference to field research and studies on plant stress highlighting these subsections. Particular regard is given to application-oriented basic research and applied research. The application of the scientific principles of agricultural crop experimentation is an essential prerequisite for the publication. Studies based on field experiments must show that they have been repeated (at least three times) on the same organism or have been conducted on several different varieties.
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