中国农业气象 ›› 2024, Vol. 45 ›› Issue (01): 33-44.doi: 10.3969/j.issn.1000-6362.2024.01.004

• 农业生物气象栏目 • 上一篇    下一篇

不同气候变化情景下中国北方苹果花期霜冻风险研究

邱星霖,林泽全,李璨,俞海洋,王瑛   

  1. 1.北京师范大学环境演变与自然灾害教育部重点实验室,北京 100875;2.应急管理部−教育部减灾与应急管理研究院,北京 100875;3.河北雄安新区气象局,河北 071700;4.中国气象局雄安大气边界层重点开放实验室,河北 071700
  • 收稿日期:2023-05-09 出版日期:2024-01-20 发布日期:2024-01-15
  • 作者简介:邱星霖,E-mail:qiu.xingl@foxmail.com
  • 基金资助:
    河北雄安新区气象局“雄安新区重大气象灾害风险评估及对策研究”项目(20230327)

Study on Frost Risk during Apple Blossom in Northern China under Different Climate Change Scenarios

QIU Xing-lin, LIN Ze-quan, LI Can, YU Hai-yang, WANG Ying   

  1. 1.Key Laboratory of Environmental Change and Natural Disaster of Ministry of Education, Beijing Normal University, Beijing 100875, China; 2.Academy of Disaster Reduction and Emergency Management, Ministry of Emergency Management and Ministry of Education, Beijing 100875; 3.Hebei Xiong'an New Area Meteorological Bureau, Hebei 071100; 4.China Meteorological Administration Xiong'an Atmospheric Boundary Layer Key Laboratory, Hebei 071100
  • Received:2023-05-09 Online:2024-01-20 Published:2024-01-15

摘要: 中国北方苹果主产区位于华北平原和黄土高原,苹果花期霜冻灾害事件对果农收入和产区经济造成严重影响。未来气候变化会加剧极端天气气候事件的发生频率和强度。本研究基于NEX-GDDP共享的气候模式数据,利用泰勒图选取对苹果花期最低气温拟合能力最优的7个模式,计算未来苹果花期最低气温年遇值,采用极值分布传递函数校正方法对其订正,预估气候变化下中国北方苹果霜冻灾害及减产风险。以研究区各地遭遇30a一遇的苹果花期霜冻灾害强度为例,RCP4.5情景下未来近期和远期,河南、山西、陕西北部、宁夏北部区域为主要受灾区域,以最低气温−3~−2℃为主,减产率最高的为河南、宁夏、山西、陕西省北部地区,中国北方苹果总减产率在2.47%~5.22%。RCP8.5情景下,最低气温−3℃以下霜冻灾害区扩大至河南全境、山东中部等地,中国北方苹果总减产率在4.57%~12.39%。未来这些地区苹果种植需加强对霜冻灾害风险的防范。

关键词: 霜冻灾害, 风险评估, 减产, 气候模式, 苹果

Abstract: The main apple-producing areas in northern China are located in the North China plain and the loess Plateau, and the apple blossom frost hazard events have had a severe impact on the income of fruit growers and the economy of the production areas. Future climate change will exacerbate the frequency and intensity of extreme weather and climate events. In this study, based on the climate model data shared by NEX-GDDP, the seven models with the best fitting ability for the minimum temperature during apple blossom were selected using Taylor diagrams, and the annual encounter values of the minimum temperature during apple blossom were calculated and revised using the transfer function correction method of the extreme value distribution, so as to predict the risk of frost disaster and yield reduction of apples in northern China under climate change. Taking the intensity of the apple blossom frost disaster with a 30-year occurring period event across the study area as an example, in the near and distant future under the RCP4.5 scenario, the regions of Henan, Shanxi, northern Shaanxi and, northern Ningxia were the main affected areas, dominated by the minimum temperature of −3 to −2°C, and the highest yield reduction rates were in the northern regions of Henan, Ningxia, Shanxi, and northern Shaanxi provinces, with the yield reduction rate of apples in northern China ranging from 2.47% to 5.22%. Under the RCP8.5 scenario, the frost disaster area with a minimum temperature of −3°C or less expands to the whole of Henan, central Shandong and other places, and the yield reduction rate of apples in northern China is 4.57%−12.39%. In the future, apple cultivation in these areas needs to strengthen the prevention of frost disaster risk.

Key words: Frost, Risk assessment, Yield decrease, Climate model, Apple