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Prediction of future urban surface temperatures using medium resolution satellite data in Harare metropolitan city, Zimbabwe

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Publication date: September 2017
Source:Building and Environment, Volume 122
Author(s): Terence Darlington Mushore, John Odindi, Timothy Dube, Onisimo Mutanga
The objective of the study was to determine the impact of urban growth on future micro-climate of Harare by predicting future distribution of land use and land cover, as well as land surface temperature using Cellular Automata Markov Chain analysis. Landsat series data was used to map Land Use and Land Cover (LULC) and land surface temperature distribution during the month of October for the year 1984, 1993, 2001 and 2015. The Cellular Automata Markov Chain analysis was used to determine long term landscape transformation at 10-year time steps from 2015 to 2045. We further tested the potential of a variety of vegetation and non-vegetation indices to predict land surface temperature. Results show that the Urban Index (UI), non-vegetation index was the best predictor of surface temperature, since it had the highest correlation with retrieved surface temperature (r = 0.9831). When tested against temperature derived from thermal band in October 2015, the mean absolute percentage error of the UI derived temperature was 5.27%. Based on changes which occurred between 1984 and 2015, the Cellular Automata Markov Chain analysis predicted that high density built-up areas will increase monotonically from 470.02 in 2015 to 490.36 km2 in 2045. Green spaces were predicted as decreasing from 57.42 to 27.85 km2, while croplands also decrease from 30.27 to 16.93 km2 between 2015 and 2040. Using UI as predictor of land surface temperature, we predicted that the 18–28 °C class will decrease in coverage between 2015 and 2040, while the 36–45 °C category will increase in proportion covered from 42.5 to 58% of city. We concluded that continued urban growth will increase warming and result in high future temperatures unless mitigation efforts are strengthened. The findings of this study are important in informing future development of cities to consider growth implications on future temperatures and thermal comfort of urban residents.


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