Brousse O, Simpson C, Walker N, Fenner D, Meier F, Taylor J, Heaviside C
UCL Institute for Environmental Design and Engineering, The Bartlett Faculty of Environment, University College London, London, United Kingdom.
Bioengineering Sciences Research Group, Department of Mechanical Engineering, School of Engineering, Faculty of Engineering and Physical Sciences, University of Southampton, Southampton, United Kingdom.
Environ Res Lett. 2022 Apr 1;17(4):044041. doi: 10.1088/1748-9326/ac5c0f. Epub 2022 Mar 24.
Recent advances in citizen weather station (CWS) networks, with data accessible via crowd-sourcing, provide relevant climatic information to urban scientists and decision makers. In particular, CWS can provide long-term measurements of urban heat and valuable information on spatio-temporal heterogeneity related to horizontal heat advection. In this study, we make the first compilation of a quasi-climatologic dataset covering six years (2015-2020) of hourly near-surface air temperature measurements obtained via 1560 suitable CWS in a domain covering south-east England and Greater London. We investigated the spatio-temporal distribution of urban heat and the influences of local environments on climate, captured by CWS through the scope of Local Climate Zones (LCZ)-a land-use land-cover classification specifically designed for urban climate studies. We further calculate, for the first time, the amount of advected heat captured by CWS located in Greater London and the wider south east England region. We find that London is on average warmer by about 1.0 C-1.5 C than the rest of south-east England. Characteristics of the southern coastal climate are also captured in the analysis. We find that on average, urban heat advection (UHA) contributes to 0.22 ± 0.96 C of the total urban heat in Greater London. Certain areas, mostly in the centre of London are deprived of urban heat through advection since heat is transferred more to downwind suburban areas. UHA can positively contribute to urban heat by up to 1.57 C, on average and negatively by down to -1.21 C. Our results also show an important degree of inter- and intra-LCZ variability in UHA, calling for more research in the future. Nevertheless, we already find that UHA can impact green areas and reduce their cooling benefit. Such outcomes show the added value of CWS when considering future urban design.
公民气象站(CWS)网络最近取得了进展,其数据可通过众包获取,为城市科学家和决策者提供了相关气候信息。特别是,公民气象站可以提供城市热量的长期测量数据,以及与水平热平流相关的时空异质性的宝贵信息。在本研究中,我们首次汇编了一个准气候数据集,该数据集涵盖了通过1560个合适的公民气象站在英格兰东南部和大伦敦地区获得的六年(2015 - 2020年)每小时近地面气温测量数据。我们研究了城市热量的时空分布,以及当地环境对气候的影响,这些是通过局部气候区(LCZ)的范围由公民气象站捕捉到的,局部气候区是一种专门为城市气候研究设计的土地利用土地覆盖分类。我们还首次计算了位于大伦敦和更广泛的英格兰东南部地区的公民气象站捕捉到的平流热量。我们发现,伦敦平均比英格兰东南部其他地区温暖约1.0摄氏度至1.5摄氏度。分析中还捕捉到了南部沿海气候的特征。我们发现,平均而言,城市热平流(UHA)对大伦敦地区城市总热量的贡献为0.22±0.96摄氏度。某些地区,主要是伦敦市中心,由于热量更多地转移到下风方向的郊区,通过平流失去了城市热量。城市热平流平均可对城市热量产生高达1.57摄氏度的正向贡献,负向贡献可达 -1.21摄氏度。我们的结果还表明,城市热平流在局部气候区内和区际之间存在重要程度的变异性,这需要未来进行更多研究。然而,我们已经发现城市热平流会影响绿地并降低其降温效益。这些结果表明了在考虑未来城市设计时公民气象站的附加价值。
