Abstract
Rapid and uncontrolled urbanization in tropical Africa is increasingly leading to unprecedented socio-economical and environmental challenges in cities, particularly urban heat and climate change. The latter calls for a better representation of tropical African cities’ properties relevant for urban climate studies. Here, we demonstrate the possibility of collecting urban canopy parameters during a field campaign in the boreal summer months of 2018 for deriving a Local Climate Zone (LCZ) map and for improving the physical representation of climate-relevant urban morphological, thermal and radiative characteristics. The comparison of the resulting field-derived LCZ map with an existing map obtained from the World Urban Data and Access Portal Tool framework shows large differences. In particular, our map results in more vegetated open low-rise classes. In addition, site-specific fieldwork-derived urban characteristics are compared against the LCZ universal parameters. The latter shows that our fieldwork adds important information to the universal parameters by more specifically considering the presence of corrugated metal in the city of Kampala. This material is a typical roofing material found in densely built environments and informal settlements. It leads to lower thermal emissivity but higher thermal conductivity and capacity of buildings. To illustrate the importance of site-specific urban parameters, the newly derived site-specific urban characteristics are used as input fields to an urban parametrization scheme embedded in the regional climate model COSMO-CLM. This implementations decreases the surface temperature bias from 5.34 to 3.97 K. Based on our results, we recommend future research on tropical African cities to focus on a detailed representation of cities, with particular attention to impervious surface fraction and building materials.
Highlights
The rapid urbanization trend in Sub-Saharan Africa as seen in recent decades is expected to continue in the coming years due to increasing disparities between rural and urban environments, as well as climate change induced hazards, that force rural to urban migration (Barrios et al 2006; Nawrotzki et al 2017)
21% of compact mid-rise (LCZ 2) pixels in control simulation (CTL) close to the city centre are classified in FW, while 35% has changed to compact lowrise (LCZ 3)
Over three quarter of the compact low-rise areas (LCZ 3) is reclassified as open low-rise (LCZ 6). Besides this reclassification of compact low-rise (LCZ 3), 14% of Local Climate Zone (LCZ) 2 in the central business district, 68% of the informal settlements (LCZ 7) and 59% of the large low-rise (LCZ 8) are changed to LCZ 6 in the FW map
Summary
The rapid urbanization trend in Sub-Saharan Africa as seen in recent decades is expected to continue in the coming years due to increasing disparities between rural and urban environments, as well as climate change induced hazards, that force rural to urban migration (Barrios et al 2006; Nawrotzki et al 2017). Such fast and uncontrolled urban growth can lead to a very heterogeneous urban landscape with wealthy districts characterized by modern houses, big green gardens and asphalted roads, and with informal.
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