加拿大种植大豆的近期、中期和远期气候条件

IF 1 4区 农林科学 Q3 AGRONOMY
B. Qian, Ward N. Smith, Q. Jing, Yong Min Kim, G. Jégo, B. Grant, S. Duguid, Ken Hester, A. Nelson
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引用次数: 1

摘要

摘要加拿大的大豆产业旨在广泛扩大大豆产量,以受益于早熟新品种和气候变暖。然而,自2017年以来,大豆行业的挫折表明了气候风险和全球市场不确定性的影响。因此,该行业的决策需要更好地了解将影响加拿大大豆生长的未来气候条件,例如优先考虑扩张地区,并通过农艺管理实践或培育新品种制定气候变化适应战略。基于一组全球气候模型的气候预测,我们分析了近期(2030年代)、中期(2050年代)和远期(2070年代)种植大豆的气候条件,包括生长季节开始、作物热量单位、降水、降水不足和极端气候。我们发现,在SSP3-7.0下,未来气候变暖,在生长季节(5月至9月),加拿大陆地地区近期、中期和远期的平均温度分别增加1.6、2.8和4.1°C,将有利于大豆生产进一步向北和向西扩张。然而,除非能够引入灌溉,否则中期半干旱的加拿大大草原降水量不足增加约200毫米将限制大豆生产。除了采用晚熟品种外,还应开发耐热和耐旱品种,使大豆生产适应不断变化的气候,晚熟品种将受益于延长的生长季节和增加的作物热量单位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Climate conditions in the near-term, mid-term and distant future for growing soybeans in Canada
Abstract The soybean industry in Canada aimed to extensively expand soybean production to benefit from new early-maturing varieties and the warming climate. However, setbacks in the soybean industry since 2017 demonstrated the impacts of climate risk and global market uncertainty. Therefore, a better understanding of future climate conditions that will impact soybean growth in Canada is needed for decision-making in the sector, such as prioritizing regions for expansion and developing climate change adaptation strategies through either agronomic management practices or breeding new cultivars. Based on climate projections from a set of global climate models, we analyzed climate conditions for growing soybeans, including growing season start, crop heat units, precipitation, precipitation deficits and climate extremes, in the near-term (2030s), the mid-term (2050s) and the distant future (2070s). We found that a future warmer climate with an increase of 1.6, 2.8 and 4.1 °C in the growing season (May–September) mean temperature averaged over Canada’s land area in the near-term, mid-term and distant future under SSP3-7.0 would favour the expansion of soybean production further north and west. However, an increase of approximately 200 mm in precipitation deficits on the semiarid Canadian Prairies in the mid-term would constrain soybean production unless irrigation could be introduced. Heat- and drought-tolerant cultivars should be developed to adapt soybean production to a changing climate, in addition to the adoption of late-maturing cultivars that would benefit from the lengthened growing season and increased crop heat units.
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来源期刊
CiteScore
1.90
自引率
8.30%
发文量
91
审稿时长
1 months
期刊介绍: Published since 1957, the Canadian Journal of Plant Science is a bimonthly journal that contains new research on all aspects of plant science relevant to continental climate agriculture, including plant production and management (grain, forage, industrial, and alternative crops), horticulture (fruit, vegetable, ornamental, greenhouse, and alternative crops), and pest management (entomology, plant pathology, and weed science). Cross-disciplinary research in the application of technology, plant breeding, genetics, physiology, biotechnology, microbiology, soil management, economics, meteorology, post-harvest biology, and plant production systems is also published. Research that makes a significant contribution to the advancement of knowledge of crop, horticulture, and weed sciences (e.g., drought or stress resistance), but not directly applicable to the environmental regions of Canadian agriculture, may also be considered. The Journal also publishes reviews, letters to the editor, the abstracts of technical papers presented at the meetings of the sponsoring societies, and occasionally conference proceedings.
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