The variation of air and surface temperatures in London within a 1km grid using vehicle-transect and ASTER data

Urbanisation can modify the local climate, increasing the temperature of cities compared to rural areas. This phenomenon is known as the Urban Heat Island (UHI), and this paper introduces a methodology to investigate the spatial variability of air and surface temperatures across London. In particular, this study aims to investigate if a widely used spatial resolution (1 km) is appropriate for heat-related health risk studies. Data from vehicle-transect and ASTER thermal images were overlaid on a reference grid of 1 km, used by UHI simulation models. The results showed higher variability of air temperature within some specific modelled grid cells in the city centre, while surface temperatures presented higher variability in the London borders. This investigation suggests that LST has larger variation levels and more grid cells with sub-grid variation above 1°C compared to air temperature measurements.

[1]  José A. Sobrino,et al.  Impact of spatial resolution and satellite overpass time on evaluation of the surface urban heat island effects , 2012 .

[2]  Sotiris Vardoulakis,et al.  Climate change effects on human health: projections of temperature-related mortality for the UK during the 2020s, 2050s and 2080s , 2014, Journal of Epidemiology & Community Health.

[3]  S. Hajat,et al.  Association of mortality with high temperatures in a temperate climate: England and Wales , 2010, Journal of Epidemiology & Community Health.

[4]  Jim W Hall,et al.  An evaluation of thermal Earth observation for characterizing urban heatwave event dynamics using the urban heat island intensity metric , 2013 .

[5]  A. Zeghnoun,et al.  August 2003 heat wave in France: risk factors for death of elderly people living at home. , 2006, European journal of public health.

[6]  Maria Kolokotroni,et al.  The balance of the annual heating and cooling demand within the London urban heat island , 2002 .

[7]  C. Grimmond,et al.  How is urbanization altering local and regional climate , 2015 .

[8]  S. Belcher,et al.  Simulations of the London urban heat island , 2011 .

[9]  Geoff Levermore,et al.  Fine-scale spatial temperature patterns across a UK conurbation , 2011 .

[10]  T. Oke The Heat Island of the Urban Boundary Layer: Characteristics, Causes and Effects , 1995 .

[11]  L. Chapman,et al.  Including the urban heat island in spatial heat health risk assessment strategies: a case study for Birmingham, UK , 2011, International journal of health geographics.

[12]  Alan R. Gillespie,et al.  Temperature / Emissivity Separation Algorithm Theoretical Basis Document , Version 2 . 4 , 1999 .

[13]  M. Davies,et al.  Modelling and monitoring tools to evaluate the Urban Heat Island's contribution to the risk of indoor overheating , 2017 .

[14]  Michael V. Saha,et al.  Fine-scale spatial variability of heat-related mortality in Philadelphia County, USA, from 1983-2008: a case-series analysis , 2012, Environmental Health.

[15]  Juliana Antunes Azevedo,et al.  Urban heat & critical infrastructure networks: A viewpoint , 2013 .

[16]  G. McGregor,et al.  The development of a heat wave vulnerability index for London, United Kingdom , 2013 .

[17]  Zaid Chalabi,et al.  Mapping the effects of urban heat island, housing, and age on excess heat-related mortality in London , 2015 .