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地面风对上海城市热岛影响的观测分析
徐伟1, 张蕾1, 漆梁波1, 刘冬韡1, 张仕鹏2, 曹丹萍1
(1.上海市气象局;2.南京大学)
Observation and Analysis of the Influence of Surface Wind on Urban Heat Island in Shanghai
XU Wei1, Zhang Lei1, Qi Liang Bo1, Liu Dong Wei1, Zhang Shi Peng2, Cao Dan Ping1
(1.Shanghai Meteorological. Bureau;2.Nanjing University)
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投稿时间:2019-02-02    修订日期:2019-07-09
中文摘要: 本文首先利用上海77个区域站2011-2014年逐时气温和风资料,研究了地面风对上海城市热岛(urban heat island,简称UHI)的影响及UHI季节性空间分布特征的成因,并从海陆热力差异初步揭示了向岸风对热岛强度(urban heat island intensity,简称IUHI)的影响。其次利用上海7个国家站1961-2014年逐月气温和风资料,研究了上海各季地面风速与IUHI的年际变化关系。结果表明:(1)UHI中心出现的位置与风向、风速有密切的关系,特别是夜间UHI中心有向城市下风方向漂移的特征,其平均漂移风速阈值为2 m?s-1,UHI区域随风速增大向城市下风方向延伸,IUHI随风速增大而减小。(2)上海各季夜间UHI特征明显,尤以秋冬季最为明显,春季次之,夏季最不明显。春夏季夜间UHI中心出现在城区西北侧,而秋冬季夜间UHI中心稳定在城区,表现为典型UHI。各季白天存在下风方大范围增暖现象。季节地面盛行风决定了UHI的季节性空间分布特征。(3)白天向岸风具有抑制升温作用(春夏季最为明显),受其影响气温大值区易出现在内陆地区,春夏季城市偏东区IUHI小于偏西区;夜间向岸风具有抑制降温作用(秋冬季最为明显),受其影响秋冬季东部沿海地区出现明显增暖且城市偏东区IUHI大于偏西区。海陆热力差随季节不同和盛行风风速大小决定了向岸风这种作用的大小及影响范围。(4)各季年平均地面风速与IUHI均呈显著负相关,1961-2014年上海各季风速均表现为递减趋势(春冬季最明显),为IUHI增大提供有利条件。21世纪以来各季IUHI均呈现减缓特征(夏秋季最明显),风速并不是导致IUHI减缓的主要因素。
Abstract:This paper mainly studied the influence of surface wind on urban heat island (UHI) and the cause of seasonal spatial distribution of UHI in Shanghai using the hourly air temperature and wind data of 77 regional meteorological stations from 2011 to 2014. The influence of surface wind on urban heat island (UHI) in Shanghai and the cause of seasonal spatial distribution of UHI were studied. The influence of onshore wind on urban heat island intensity (IUHI) was preliminarily revealed from sea-land thermal difference. At last, the interannual variation of surface wind speed and IUHI in different seasons in Shanghai was studied with the monthly air temperature and wind data of 7 national meteorological stations from 1961 to 2014. The main conclusions were as follows: (1) The location of UHI center was closely related to wind direction and wind speed. The UHI center at night began to move to the leeward side of urban when the average wind speed reached 2 m?s-1. With the increase of wind speed, the warming area extended to the leeward side of urban, but the IUHI decreased with the increase of wind speed. (2) UHI characteristics were obvious at night in Shanghai, especially in autumn and winter, followed by spring and the least obvious in summer. UHI center appeared in the northwest of urban areas at night in spring and summer, while UHI center stabilized in urban areas at night in autumn and winter, showing typical UHI. In the daytime in each season, there was a large-scale warming phenomenon in the downwind area. Seasonal surface prevailing wind determined the seasonal spatial distribution characteristics of UHI. (3) Onshore wind inhibited warming in the daytime, which was most obvious in spring and summer and caused the high temperature to appear in the inland area. The IUHI was larger in the western urban area than that in the eastern urban area in spring and summer. Onshore wind inhibited cooling at night, which was most obvious and caused obvious warming in the eastern coastal areas in autumn and winter. The IUHI was larger in the eastern urban area than that in the western urban area in autumn and winter. Both the land-sea thermal difference in different seasons and the prevailing wind speed determined the magnitude and influence scope of the effect of onshore wind. (4) The average annual surface wind speed in each season had a significant negative correlation with the corresponding IUHI. The seasonal wind speed showed a decreasing trend (the most obvious in spring and winter) from 1961 to 2014 in Shanghai, which was good for IUHI increasing. Since the 21st century, the increasing trend of IUHI in all seasons had slowed down (the most obvious in summer and autumn). Wind speed was not the main factor causing the increasing trend of IUHI to slow down.
文章编号:201902020058     中图分类号:    文献标志码:
基金项目:华东区域气象科技协同创新基金合作项目(QYHZ201607)
引用文本:
徐伟,张蕾,漆梁波,刘冬韡,张仕鹏,曹丹萍,0.[en_title][J].Meteor Mon,():-.
XU Wei,Zhang Lei,Qi Liang Bo,Liu Dong Wei,Zhang Shi Peng,Cao Dan Ping,0.Observation and Analysis of the Influence of Surface Wind on Urban Heat Island in Shanghai[J].Meteor Mon,():-.