Ziwei Lee, Jie Ann Lim, Jennifer Ann Harikrishna, Tofazzal Islam, Muhamad Hafiz Abd Rahim, Jamilah Syafawati Yaacob
{"title":"调节植物对温度胁迫的反应:粮食安全和减缓气候变化影响的关键因素","authors":"Ziwei Lee, Jie Ann Lim, Jennifer Ann Harikrishna, Tofazzal Islam, Muhamad Hafiz Abd Rahim, Jamilah Syafawati Yaacob","doi":"10.1007/s42106-024-00282-7","DOIUrl":null,"url":null,"abstract":"<p>Among the many threats to food security, extremes of temperature, and unpredictable changes in temperature such as unseasonal frost or snowfall resulting from climate change have significant impacts on crop productivity and yields. It has been projected that for each increase by 1 °C of the global temperature, agricultural outputs of some staple food crops will decline by up to 3–8%. Alarmingly, reports from the National Aeronautics and Space Administration (NASA) and National Oceanic and Atmospheric Administration (NOAA) have revealed that our earth experienced one of the warmest summers in 2022, indicating that temperature stress is not a threat that can be taken lightly. Global food prices have risen by more than 70% since the middle of 2020, however, the UN Food and Agriculture Organization (FAO) projects that by 2027, the combined effects of climate change, conflict and poverty may lead to an additional rise in food prices by 8.5%. Taken together, the impacts of extreme temperatures on staple food supply amplify the risks of child malnutrition and food insecurity, especially in less-developed countries. This review offers a novel perspective on the intricate interplay between plant responses to heat and cold stresses, aiming to pave the way for innovative and efficient crop improvement programs crucial for ensuring a resilient and sustainable food supply in the face of climate change. A thorough and comprehensive understanding on plant mechanisms can effectively help agricultural industry to produce stress-resilient and climate-tolerant crops. Also, with the assistance from robust breeding techniques and genetic tools, the goal to achieve sustainable food supply chain can be attained.</p>","PeriodicalId":54947,"journal":{"name":"International Journal of Plant Production","volume":"45 1","pages":""},"PeriodicalIF":2.1000,"publicationDate":"2024-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Regulation of Plant Responses to Temperature Stress: A Key Factor in Food Security and for Mitigating Effects of Climate Change\",\"authors\":\"Ziwei Lee, Jie Ann Lim, Jennifer Ann Harikrishna, Tofazzal Islam, Muhamad Hafiz Abd Rahim, Jamilah Syafawati Yaacob\",\"doi\":\"10.1007/s42106-024-00282-7\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Among the many threats to food security, extremes of temperature, and unpredictable changes in temperature such as unseasonal frost or snowfall resulting from climate change have significant impacts on crop productivity and yields. It has been projected that for each increase by 1 °C of the global temperature, agricultural outputs of some staple food crops will decline by up to 3–8%. Alarmingly, reports from the National Aeronautics and Space Administration (NASA) and National Oceanic and Atmospheric Administration (NOAA) have revealed that our earth experienced one of the warmest summers in 2022, indicating that temperature stress is not a threat that can be taken lightly. Global food prices have risen by more than 70% since the middle of 2020, however, the UN Food and Agriculture Organization (FAO) projects that by 2027, the combined effects of climate change, conflict and poverty may lead to an additional rise in food prices by 8.5%. Taken together, the impacts of extreme temperatures on staple food supply amplify the risks of child malnutrition and food insecurity, especially in less-developed countries. This review offers a novel perspective on the intricate interplay between plant responses to heat and cold stresses, aiming to pave the way for innovative and efficient crop improvement programs crucial for ensuring a resilient and sustainable food supply in the face of climate change. A thorough and comprehensive understanding on plant mechanisms can effectively help agricultural industry to produce stress-resilient and climate-tolerant crops. 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Regulation of Plant Responses to Temperature Stress: A Key Factor in Food Security and for Mitigating Effects of Climate Change
Among the many threats to food security, extremes of temperature, and unpredictable changes in temperature such as unseasonal frost or snowfall resulting from climate change have significant impacts on crop productivity and yields. It has been projected that for each increase by 1 °C of the global temperature, agricultural outputs of some staple food crops will decline by up to 3–8%. Alarmingly, reports from the National Aeronautics and Space Administration (NASA) and National Oceanic and Atmospheric Administration (NOAA) have revealed that our earth experienced one of the warmest summers in 2022, indicating that temperature stress is not a threat that can be taken lightly. Global food prices have risen by more than 70% since the middle of 2020, however, the UN Food and Agriculture Organization (FAO) projects that by 2027, the combined effects of climate change, conflict and poverty may lead to an additional rise in food prices by 8.5%. Taken together, the impacts of extreme temperatures on staple food supply amplify the risks of child malnutrition and food insecurity, especially in less-developed countries. This review offers a novel perspective on the intricate interplay between plant responses to heat and cold stresses, aiming to pave the way for innovative and efficient crop improvement programs crucial for ensuring a resilient and sustainable food supply in the face of climate change. A thorough and comprehensive understanding on plant mechanisms can effectively help agricultural industry to produce stress-resilient and climate-tolerant crops. Also, with the assistance from robust breeding techniques and genetic tools, the goal to achieve sustainable food supply chain can be attained.
期刊介绍:
IJPP publishes original research papers and review papers related to physiology, ecology and production of field crops and forages at field, farm and landscape level. Preferred topics are: (1) yield gap in cropping systems: estimation, causes and closing measures, (2) ecological intensification of plant production, (3) improvement of water and nutrients management in plant production systems, (4) environmental impact of plant production, (5) climate change and plant production, and (6) responses of plant communities to extreme weather conditions.
Please note that IJPP does not publish papers with a background in genetics and plant breeding, plant molecular biology, plant biotechnology, as well as soil science, meteorology, product process and post-harvest management unless they are strongly related to plant production under field conditions.
Papers based on limited data or of local importance, and results from routine experiments will not normally be considered for publication. Field experiments should include at least two years and/or two environments. Papers on plants other than field crops and forages, and papers based on controlled-environment experiments will not be considered.