| 上海及周边地区地闪活动特征及海陆差异 |
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| 引用本文: | 宋晓爽,郑栋,张义军,姚雯,戴建华,王强.上海及周边地区地闪活动特征及海陆差异[J].气象科技,2014,42(1):164-172. |
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| 作者姓名: | 宋晓爽 郑栋 张义军 姚雯 戴建华 王强 |
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| 作者单位: | 成都信息工程学院,成都 610225;中国气象科学研究院, 北京 100081;中国气象科学研究院, 北京 100081;中国气象科学研究院, 北京 100081;上海中心气象台,上海 200030;上海市防雷中心,上海 201601 |
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| 基金项目: | 中国气象科学研究院基本科研业务费专项资金(2010Z004)、国家自然科学基金(41005006)、国家科技支撑计划(2008BAC36B04)和气象关键技术集成与应用项目(CAMGJ2012M78) 资助 |
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| 摘 要: | 利用LS8000闪电定位系统2009—2011年的地闪观测资料对上海及周边地区(120~122.5°E,30~32°N)的地闪活动特征进行了研究。结果表明:分析区域内正地闪的比例约占8.5%,大电流地闪(电流绝对值大于50kA)的比例约为5.6%。地闪活动主要集中在6—9月,峰值出现在8月;日变化上,12:00—19:00闪电活动最为活跃,峰值出现在14:00,凌晨闪电活动最弱。从日变化上来说,正地闪和大电流地闪比例在地闪活动较强时段低于地闪活动较弱时段;在月分布上,在地闪活动最强的夏季,正地闪比例普遍在10%以下,在地闪活动较弱的春、秋、冬季,正地闪比例普遍在10%以上。以北纬31°为界,分析区域北部地闪密度基本在6~12次·km-2·a-1以上,南部基本在2.4~4.8次·km-2·a-1。同时陆地上的地闪密度要显著高于湖泊和海洋上的地闪密度,而海洋上的正地闪比例和大电流地闪比例要显著高于陆地。闪电空间分布的时间变化说明,下午地闪活动主要出现在陆地,而凌晨地闪主要出现在水体附近,其它时段则表现出过渡特征,这与下垫面的加热作用紧密相关。
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| 关 键 词: | 总地闪 地闪密度 正地闪 负地闪 大电流地闪 平均电流 |
| 收稿时间: | 2012/10/24 0:00:00 |
| 修稿时间: | 2013/4/10 0:00:00 |
Characteristics of Cloud to Ground Lightning in Shanghai and Its Circumjacent Regions and Land Sea Difference |
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| Song Xiaoshuang,Zheng Dong,Zhang Yijun,Yao Wen,Dai Jianhua and Wang Qiang.Characteristics of Cloud to Ground Lightning in Shanghai and Its Circumjacent Regions and Land Sea Difference[J].Meteorological Science and Technology,2014,42(1):164-172. |
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| Authors: | Song Xiaoshuang Zheng Dong Zhang Yijun Yao Wen Dai Jianhua and Wang Qiang |
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| Institution: | Chengdu University of Information Technology, Chengdu 610225;Chinese Academy of Meteorological Sciences, Beijing 100081;Chinese Academy of Meteorological Sciences, Beijing 100081;Chinese Academy of Meteorological Sciences, Beijing 100081;Shanghai Meteorological Center, Shanghai 200030;Shanghai Lightning Protection Center, Shanghai 201601 |
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| Abstract: | negative relationship to CG lightning. Setting 31~N as the boundary, the CG lightning density is generally 6 to 12 flushes/(kme.a) in the northern part of the analysis area and 2.4 to 4.8 flushes/(km2.a) in the southern part. At the same time, the CG lightning density on land is higher than those in lake and oceanic areas, while the percentage of PCG lightning and the large current CG lightning in the oceanic area is significantly higher than those on land. The time changes of spatial distribution of CG lightning show that CG lightning activities mainly appear on the land in afternoon and near the water in the morning, while in other periods presents the characters of transition, which is closely related to the heating effect of the underlying surface. |
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| Keywords: | CG (Cloud to Ground) lightning density PCG (positive cloud to ground) NCG (negative cloud to ground) large current CG lightning average current |
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