{"title":"Urban climate studies in Johannesburg, A sub-tropical city located on a ridge—A review","authors":"Yair Goldreich","doi":"10.1016/0957-1272(92)90016-L","DOIUrl":null,"url":null,"abstract":"<div><p>This paper summarizes three decades of urban climate studies in Johannesburg, South Africa, which is situated on a series of ridges, at an altitude of 1700 m. The first research phase, Near-ground data collection, started with an intensive mobile unit survey measuring wet- and dry-bulb temperatures at midday and near dawn. The results showed that during strong-inversion winter (dry season) nights, the strong heat island and humidity island situated in the city center is more than 11°C warmer than northern suburban valleys. With multiple regression methods the heat island magnitude was estimated to be about 5 K and the relative humidity was 43% lower than the rural areas (but the humidity mixing ratio island was 0.33 g kg<sup>−1</sup> higher than the rural areas).</p><p>The second phase, Upper air studies, included helicopter, pibal and tethered balloons. Near-ground observations (temperature and wind) were constricted to valleys where anomalies were previously found. The main findings at this stage relate to the interaction between mountain/valley winds with country breezes their connection with cold and warm plumes over the ridges which are dominated by the vertical nocturnal wind shear.</p><p>In the third phase, Remote sensing, <em>in situ</em> and mobile acoustic soundings were combined with the other upper air measurement. In addition, ground temperature variations in Johannesburg were estimated from airborne infrared scanner images. The spatial structure of the ground heat-island core shows a steep thermal gradient of about 600–700 m from the city center, comparable to the screen level temperature distribution obtained previously using a meteorological mobile unit.</p></div>","PeriodicalId":100140,"journal":{"name":"Atmospheric Environment. Part B. Urban Atmosphere","volume":"26 3","pages":"Pages 407-420"},"PeriodicalIF":0.0000,"publicationDate":"1992-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1016/0957-1272(92)90016-L","citationCount":"33","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Atmospheric Environment. Part B. Urban Atmosphere","FirstCategoryId":"1085","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/095712729290016L","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 33
Abstract
This paper summarizes three decades of urban climate studies in Johannesburg, South Africa, which is situated on a series of ridges, at an altitude of 1700 m. The first research phase, Near-ground data collection, started with an intensive mobile unit survey measuring wet- and dry-bulb temperatures at midday and near dawn. The results showed that during strong-inversion winter (dry season) nights, the strong heat island and humidity island situated in the city center is more than 11°C warmer than northern suburban valleys. With multiple regression methods the heat island magnitude was estimated to be about 5 K and the relative humidity was 43% lower than the rural areas (but the humidity mixing ratio island was 0.33 g kg−1 higher than the rural areas).
The second phase, Upper air studies, included helicopter, pibal and tethered balloons. Near-ground observations (temperature and wind) were constricted to valleys where anomalies were previously found. The main findings at this stage relate to the interaction between mountain/valley winds with country breezes their connection with cold and warm plumes over the ridges which are dominated by the vertical nocturnal wind shear.
In the third phase, Remote sensing, in situ and mobile acoustic soundings were combined with the other upper air measurement. In addition, ground temperature variations in Johannesburg were estimated from airborne infrared scanner images. The spatial structure of the ground heat-island core shows a steep thermal gradient of about 600–700 m from the city center, comparable to the screen level temperature distribution obtained previously using a meteorological mobile unit.
本文总结了南非约翰内斯堡三十年来的城市气候研究,该城市位于海拔1700米的一系列山脊上。第一个研究阶段,近地数据收集,开始于密集的移动设备调查,测量中午和黎明前后的湿球温度和干球温度。结果表明:在强逆温冬季(干季)夜间,位于市中心的强热岛和强湿岛比北部郊区山谷温度高11℃以上;利用多元回归方法估计热岛大小约为5 K,相对湿度比农村低43%(但湿度混合比岛比农村高0.33 g kg−1)。第二阶段,高空研究,包括直升机,热气球和系留气球。近地观测(温度和风)仅限于先前发现异常的山谷。这一阶段的主要发现与山风/山谷风与乡村风之间的相互作用有关,它们与山脊上由夜间垂直风切变主导的冷暖羽流之间的联系。在第三阶段,将遥感、原位和移动声学探测与其他高空测量相结合。此外,根据机载红外扫描仪图像估计了约翰内斯堡的地温变化。地面热岛核的空间结构显示出距离城市中心约600-700 m的陡峭热梯度,与以前使用气象移动装置获得的屏幕水平温度分布相当。
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