重庆市农业生产干旱风险预测OA
Drought risk prediction for agricultural production in Chongqing City
在全球气候变暖的背景下,极端干旱事件对农业生产构成严重威胁,研究干旱对农业的影响对于保障区域粮食安全和水资源管理具有重要意义.以重庆市为研究区,基于气象部门预测数据,建立水量平衡供需关系指标,对全市农业缺水量、重点作物需水量等进行干旱评估与预测.结果表明:① 预计在 8 月下旬至 9 月上旬,部分区县的红薯和蔬菜种植将出现阶段性干旱缺水,持续时长约 7 d;11~12 月降雨偏少,主城都市区和渝东北部分区域可能出现较大范围的油菜缺水现象,但缺水量总体较小,对油菜生长影响有限.② 结合降雨趋势与蓄水工程调度情况分析,预测2024 年不会发生与2022 年同等强度的干旱事件,经验证该预测结果与2024 年实际旱情基本吻合.研究成果可为重庆市农业生产布局、干旱应对策略制定及水资源统筹管理提供科学依据.
Under the context of global climate warming,extreme drought events pose serious threats to agricultural production,making research on the impact of droughts on agriculture highly significant for ensuring regional food security and water resource management.Taking Chongqing City as the study area,this research utilized meteorological department forecast data to establish water balance supply-demand relationship indicators,conducting drought assessment and prediction for the entire municipality's agricultural water shortage and key crop water requirements.The results indicate that from late August to early September,some districts and counties are expected to experience periodic drought-related water shortages for sweet potatoes and vegetable culti-vation,lasting approximately seven days.From November to December,with reducing rainfalls,the main urban areas and parts of northeastern Chongqing City may face relatively widespread water shortages for rapeseed cultivation,though the overall water short-age is expected to be limited,with minimal impact on rapeseed growth.Combined analysis of rainfall trends and water storage pro-ject operations suggests that a drought event of intensity comparable to that of 2022 is unlikely to occur in 2024.Verification shows that this prediction aligns with the actual drought conditions in 2024.The study provides scientific support for optimizing agricul-tural production layout,formulating drought response strategies,and coordinating water resource management in Chongqing City.
杨洪波;李文浩;熊玉江
河海大学 农业科学与工程学院,江苏 南京 211100||长江科学院 农业水利研究所,湖北 武汉 430010三峡大学 水利与环境学院,湖北 宜昌 443002长江科学院 农业水利研究所,湖北 武汉 430010
农业科技
干旱预测农业生产水量平衡供需关系水资源管理重庆市
drought predictionagricultural productionwater balancesupply-demand relationshipwater resource manage-mentChongqing City
《人民长江》 2026 (2)
74-79,6
重庆市技术创新与应用发展专项重点项目(CSTB2022TIAD-KPX0198)
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