骤发干旱对农作物生长过程的影响机制与评估研究进展

doi:10.13292/j.1000-4890.202311.008

生态学杂志 ›› 2023, Vol. 42 ›› Issue (11): 2737-2746.doi: 10.13292/j.1000-4890.202311.008

骤发干旱对农作物生长过程的影响机制与评估研究进展

纪瑞鹏^1,2,3*,于文颖^1,2,3,冯锐^1,2,3,武晋雯^1,2,3,米娜^1,2,张玉书^1,2

(¹中国气象局沈阳大气环境研究所，沈阳 110166； ²辽宁省农业气象灾害重点实验室，沈阳 110166； ³辽宁省黑土地演化与生态效应重点实验室，沈阳 110034)

出版日期:2023-11-10 发布日期:2023-10-31

Research advances in the effect mechanism and evaluation of flash drought on crop growth process.

JI Ruipeng^1,2,3*, YU Wenying^1,2,3, FENG Rui^1,2,3, WU Jinwen^1,2,3, MI Na^1,2, ZHANG Yushu^1,2

(¹Institute of Atmospheric Environment, China Meteorological Administration, Shenyang 110166, China; ²Key Laboratory of Agrometeorological Disasters, Liaoning Province, Shenyang 110166, China; ³Key Laboratory of Block Soil Evolution and Ecological Effects, Liaoning Province, Shenyang 110034, China).

Online:2023-11-10 Published:2023-10-31

摘要/Abstract

摘要： 骤发干旱是一个迅速加剧的缺水过程，其主要特点为发生突然、发展迅速、强度大、破坏性强。干旱发生速度是区分传统干旱和骤发干旱的一个明显特征。骤发干旱作为一种“新常态”干旱类型，全球呈现普遍多发、影响严重态势。明晰骤发干旱对农业生产过程的影响，实现骤发干旱对农作物影响量化评估，有利于全面认知干旱灾害对作物的影响，对我国乃至世界粮食稳产高产有重要的科学和现实意义。本文总结了目前国内外关于骤发干旱特征、定义和驱动机制的研究进展，归纳了近10年来发展起来的骤发干旱识别的主要方法，重点阐述了骤发干旱对农作物生长过程的影响评估方法、农作物发育期遭受骤发干旱影响的敏感性、骤发干旱影响农作物生长发育的生理机制和骤发干旱对农作物产量的影响等方面进展。分析了骤发干旱对农作物的影响机制和损失评估技术方面存在的问题，包括传统农业干旱和骤发农业干旱事件分离技术尚未成熟、骤发干旱对农作物生长过程和产量的影响机制不明晰、骤发干旱对农作物生长过程的影响模拟和定量评估能力不足等方面的问题。未来的研究应重点关注：建立适合不同区域、不同作物甚至不同发育期的骤发农业干旱识别方法；阐明传统干旱和骤发干旱对农作物生长过程影响机制的差异性；实现作物生长发育过程对骤发干旱的响应行为数值模拟，全面揭示骤发干旱对农作物生长发育及产量的影响过程。

关键词: 骤发干旱, 极端事件, 农作物, 识别方法, 影响评估

Abstract: Flash drought is a rapidly intensifying process of water shortage characterized by unexpected occurrence, rapid development, severe intensity, and extreme destructiveness. The rate of drought onset is a crucial feature distinguishing traditional drought and flash drought. Flash drought, as a “new normal” type of drought, is increasing in frequency and severity under global warming. Clarification of the impacts of flash drought on agricultural production and quantification its impacts on crops are helpful for fully understanding the impacts of drought disaster on crops, which is of great significance for stable and high grain yields in China and even in the world. In this review, we summarize research progress on the characteristics, definition, drivers, and main identification methods of flash drought in the past decade. We elaborate the methods of assessing the impacts of flash drought on crop growth, the sensitivity of crops to flash drought, the physiological mechanism by which flash drought affects crop growth and development, and the impacts of flash drought on crop yields. Challenges remain in the study of the effect mechanism and assessment of crop loss attributable to flash drought. For example, discrimination of traditional drought and flash drought events remains unresolved, the mechanism by which flash drought affects crop growth and yield is unclear, the ability to simulate and evaluate the effects of flash drought on crops is inadequate. Future research should focus on the following aspects: establishing methods for identification of flash drought suitable for different regions, different crops, and different growth stages; clarifying the differences in the effect mechanism between traditional drought and flash drought on crops; quantitatively simulating the responses of crop growth to flash drought, and clarifying the effects of flash drought on crop growth and yields.

Key words: flash drought, extreme event, crop, identification method, effect evaluation.

纪瑞鹏, 于文颖, 冯锐, 武晋雯, 米娜, 张玉书. 骤发干旱对农作物生长过程的影响机制与评估研究进展[J]. 生态学杂志, 2023, 42(11): 2737-2746.

JI Ruipeng, YU Wenying, FENG Rui, WU Jinwen, MI Na, ZHANG Yushu. Research advances in the effect mechanism and evaluation of flash drought on crop growth process.[J]. Chinese Journal of Ecology, 2023, 42(11): 2737-2746.

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骤发干旱对农作物生长过程的影响机制与评估研究进展

Research advances in the effect mechanism and evaluation of flash drought on crop growth process.

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