甘肃一次副高内部极端强降水可预报性思考

doi:10.12118/j.issn.1000-6060.2019.05.08

干旱区地理 ›› 2019, Vol. 42 ›› Issue (5): 1029-1037.doi: 10.12118/j.issn.1000-6060.2019.05.08

甘肃一次副高内部极端强降水可预报性思考

狄潇泓¹，王小勇²，肖玮¹

1兰州中心气象台，甘肃兰州730020；2甘肃省公共气象服务中心，甘肃兰州730020

收稿日期:2019-03-12 修回日期:2019-07-27 出版日期:2019-09-25 发布日期:2019-09-19
作者简介:狄潇泓（1975-），女，高工，本科，研究方向为天气预报. E-mail：xhdi@sohu.com
基金资助:
公益性行业专项（GYHY201506006）

Predictability of an extreme heavy rainfall inside the subtropical high pressure in Gansu

DI Xiao-hong¹,WANG Xiao-yong²,XIAO Wei¹

1 Lanzhou Centre Meteorological Observation,Lanzhou 730020,Gansu,China; 2 Gansu Provincial Meteorological Service Center,Lanzhou 730020,Gansu,China

Received:2019-03-12 Revised:2019-07-27 Online:2019-09-25 Published:2019-09-19

摘要/Abstract

摘要： 传统认为副高内部下沉运动，抑制对流运动的发生，但是甘肃河东隔几年就会出现一次副高内部的强降水过程，而全球业务模式对此类强降水预报能力较弱，导致副高内部的强降水天气预报难度很大。利用多种常规和非常规观测资料，对2016年8月22日甘肃副高内部的一次极端强降水过程进行分析，以期发现一些可用预报指标，结果表明：青藏高压东北部辐散区和近地面层的中尺度辐合线的叠置，有利于形成强烈的上升运动，是强降水发生的天气背景条件。环境场极高的水汽含量，异常厚的暖云层，和小的垂直风切变有利于形成极大的降水效率，是强降水的增强条件。通过对各种中尺度观测资料的分析，发现一些对强降水预报预警有指示作用的因子：（1）对流云团冷云盖中心区域运动前方逐时云顶亮温（TBB）梯度最大处对应地面降水最强降水。（2）闪电总次数峰值后1~2 h，且闪电带变的很有组织时，对应地面最强降水时段。（3）造成强降水的对流单体的雷达回波表现出低质心暖云降水的特征。（4）在组合反射率（CR）、垂直液态水含量（VIL）最大值出现后30~40 min，最强雨强出现。

关键词: 极端强降水, 副高, 可预报性, 降水效率

Abstract: Traditionally,the subtropical highs are considered to be dominated by downward motion,not conducive to precipitation in these areas.But there have been a heavy precipitation within the subtropical high every few years in Gansu Province,China.It is very difficult to forecast heavy rainfall inside the subtropical high.An extreme heavy precipitation process under the control of the subtropical high occurred in Gansu are analyzed by a variety of conventional and unconventional observations to study its forming mechanism.From the prediction results of models,it is found that the large scale model behaved poorly in predicting this kind of heavy rainfall.Through the observation data,the overlay of the area of divergence in northeastern Qinghai-Tibetan Plateau with high pressure and the mesoscale convergence line near surface layer contributed to form a strong upward movement,which constituted the weather condition of the heavy precipitation.Against this background,abundant water vapor,extremely thick warm clouds,and weak vertical wind shear created a high probability of strong precipitation.By analyzing various meso-scale observation data,some factors that have indicative effect in predicting such heavy rainfall have been found as follows: (1) The maximum gradient of TBB (Temperature of Black-Body) in front of the movement direction of the cold desk center in the convective cloud cluster was the place with the strongest precipitation. (2) The strongest precipitation occurred about 1-2 hours after the total number of lightning reached its peak and with the lightning places were well positioned. (3) Radar echoes of the convective bodies which caused heavy rainfall have echo characteristics of warm cloud precipitation with low mass center. (4) The strongest rain intensity appeared about 30-40 minutes after the maximums of CR and VIL were reached.

Key words: extreme heavy rainfall, subtropical high, predictability, precipitation efficiency

狄潇泓, 王小勇, 肖玮. 甘肃一次副高内部极端强降水可预报性思考[J]. 干旱区地理, 2019, 42(5): 1029-1037.

DI Xiao-hong, WANG Xiao-yong, XIAO Wei.

Predictability of an extreme heavy rainfall inside the subtropical high pressure in Gansu [J]. Arid Land Geography, 2019, 42(5): 1029-1037.

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甘肃一次副高内部极端强降水可预报性思考

Predictability of an extreme heavy rainfall inside the subtropical high pressure in Gansu

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甘肃一次副高内部极端强降水可预报性思考

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