冰雹数据库扩容前后对比分析——以安徽省为例
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摘要
以安徽省为例,通过信息化气象记录报表和查阅相关资料等方式,对全省冰雹数据库进行扩容,并对扩容前后冰雹资料的样本信息及其时空分布特征的差异进行分析,旨在为相关冰雹灾害研究提供借鉴与参考。结果表明,安徽省冰雹数据库扩容后,冰雹记录从793条增至2079条。扩容前后的冰雹数据分析均显示安徽省冰雹年发生次数存在年代际变化,M-K检验表明分别在1974年和1972年前呈显著增加趋势(P<0.01),其后呈微弱下降趋势;冰雹多发于春夏两季,而少发于秋、冬季;冰雹高发时段集中在15:00-17:00。扩容后安徽冰雹发生次数增加和下降两个阶段的变化速率均大于扩容前,年内冰雹发生次数最大值扩容前出现在3月,扩容后在6月。冰雹数据扩容后的冰雹空间分布覆盖了全省冰雹主要影响路径,减少了研究结果的不确定性,更符合实际情况,对进一步提高冰雹灾害评估与应对能力具有重要意义。
In order to provide references to hail disaster research,a new hail database in Anhui province was expended by using of information meteorological records and meteorological dictionaries literature,the spatial-temporal distribution differences between new database and previous database was analyzed.The results showed that the hail records increased from 793 to 2079 after expansion.The annual occurrence frequency of hail presented decadal variation in both two databases,and increased significantly before the year of 1974 and 1972 by using of the Mann-Kendall trend test(P<0.01).The hail occurred frequently in spring and summer,rarely in autumn and winter.The hail occurred typically from 15:00 to 17:00.However,the variation rate of hail occurrence from previous database was smaller than from the new database.The peak number of monthly hail occurrence appeared in March in old database,and in June after expansion.In general,the hail spatial distribution of expansion database included the main paths,which reduced research uncertainties.
In order to provide references to hail disaster research,a new hail database in Anhui province was expended by using of information meteorological records and meteorological dictionaries literature,the spatial-temporal distribution differences between new database and previous database was analyzed.The results showed that the hail records increased from 793 to 2079 after expansion.The annual occurrence frequency of hail presented decadal variation in both two databases,and increased significantly before the year of 1974 and 1972 by using of the Mann-Kendall trend test(P<0.01).The hail occurred frequently in spring and summer,rarely in autumn and winter.The hail occurred typically from 15:00 to 17:00.However,the variation rate of hail occurrence from previous database was smaller than from the new database.The peak number of monthly hail occurrence appeared in March in old database,and in June after expansion.In general,the hail spatial distribution of expansion database included the main paths,which reduced research uncertainties.
引文
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[2]董鹏捷,吴正华.北京2008年奥运期间冰雹灾害风险评估模型研究[J].暴雨灾害,2008,27(2):104-108.
[3]李英.春季滇南冰雹大风天气的螺旋度分析[J].南京气象学院学报,1999,22(2):164-169.
[4]李红斌,麻服伟.黑龙江省冰雹天气气候特征及近年变化[J].气象,2001,27(8):49-51.
[5]陶云,段旭,杨明珠.云南冰雹的时空分布特征及其气候成因初探[J].南京气象学院学报,2002,25(6):837-842.
[6]纪晓玲,马筛艳,丁永红,等.宁夏40年灾害性冰雹天气分析[J].自然灾害学报,2007,16(3):24-28.
[7]顾欣,张艳梅.黔东南冰雹集中度与集中期的时空变化特征[J].中国农业气象,2010,31(4):627-632.
[8]陶云,段旭,段长春,等.云南冰雹的变化特征[J].高原气象,2011,30(4):1108-1118.
[9]刘黎平,张鸿发,王致君,等.利用双线偏振雷达识别冰雹区方法初探[J].高原气象,1993,12(3):395-401.
[10]张腾飞,段旭,鲁亚斌,等.云南一次强对流冰雹过程的环流及雷达回波特征分析[J].高原气象,2006,25(3):531-538.
[11]尹丽云,王惠.“2003.8.2”滇中石林县冰雹过程多普勒雷达回波特征分析[J].云南地理环境研究,2004,16(增):82-86.
[12]罗培.GIS支持下的气象灾害风险评估模型:以重庆地区冰雹灾害为例[J].自然灾害学报,2007,16(1):38-44.
[13]杨益,陈贞宏,王潇宇,等.基于GIS和AHP的潍坊市冰雹灾害风险区划[J].中国农业气象,2011,32(增1):203-207.
[14]李蒙,朱勇,吉文娟.基于GIS的云南烟区冰雹灾害风险评价[J].中国农业气象,2012,33(1):129-133.
[15]中国气象局.地面气象观测规范[M].北京:气象出版社,2003:21-26.
[16]翟武全.中国气象灾害大典(安徽卷)[M].北京:气象出版社,2007:220.
[17]安徽省气象局.安徽省气象灾害年鉴[M].北京:气象出版社,2009.
[18]魏凤英.现代气候统计诊断与预测技术[M].北京:气象出版社,2007:63-66.
[19]王晓明,倪惠,周淑香.吉林省冰雹时空分布规律及特征分析[J].灾害学,1999,14(3):50-54.
[20]许新田,宁志谦,唐伯波,等.陕西冰雹气候特点及环流特征分析[J].陕西气象,2002,(5):4-5.
[21]张芳华,高辉.中国冰雹日数的时空分布特征[J].南京气象学院学报,2008,31(5):687-693.
[22]龙余良,刘建文.江西冰雹与雷雨大风气候变化特征的对比分析[J].气象,2010,36(12):62-67.
[23]叶彩华,姜会飞,李楠,等.北京地区冰雹发生的时空分布特征[J].中国农业大学学报,2007,12(5):34-40.
[24]刘晓梅,李晶,戴萍,等.1951-2008年辽宁冰雹的时空分布特征[J].气象与环境学报,2009,25(5):24-26.
目录
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