Abstract

Population growth and population inflow from other regions has caused urbanization which altered land use land cover (LULC) in the lower Himalayan regions of Pakistan. This LULC change increased the land surface temperature (LST) in the region. LULC and LST changes were assessed for the period of 1990–2017 using Landsat data and the support vector machine (SVM) method. A combined cellular automata and artificial neural network (CA-ANN) prediction model was used for simulation of LULC changes for the period of 2032 and 2047 using transition potential matrix obtained from the data years of 2002 and 2017. The accuracy of the CA-ANN model was validated using simulated and classified images of 2017 with correctness value of 70% using validation modules in QGIS. The thermal bands of Landsat images from the years 1990, 2002 and 2017 were used for LST derivation. LST acquired for this period was then modeled for 2032 and 2047 using urban indices (UI) and linear regression analysis. The SVM land cover classification results showed a 5.75% and 4.22% increase in built-up area and bare soil respectively, while vegetation declined by 9.88% during 1990–2017. The results of LST for LULC classes showed that the built-up area had the highest mean LST as compared to other classes. The future projection of LULC and LST showed that the built-up area may increase by 12.48% and 14.65% in 2032 and 2047, respectively, of the total LULC area which was ~11% in 2017. Similarly, the area with temperature above 30 °C could be 44.01% and 58.02% in 2032 and 2047, respectively, of the total study area which was 18.64% in 2017. This study identified major challenges for urban planners to mitigate the urban heat island (UHI) phenomenon. In order to address the UHI in the study area, an urban planner might focus on urban plantation and decentralization of urban areas.

Highlights

  • The land use land cover (LULC) changes have become a source of concern because of its role in reducing biodiversity and altering regional climate and creating an urban heat island (UHI) in cities [1]

  • The past trends of LULC and land surface temperature (LST) were employed in cellular automata and artificial neural network (CA-ANN) and regression models to predict the future trends of these two variables

  • The results indicated significant changes in the LULC, in particular the built-up and bare soil area were amplified by 5.75% and 4.22% respectively, while vegetation declined by 9.88% during the past data period of 1990-2017

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Summary

Introduction

The land use land cover (LULC) changes have become a source of concern because of its role in reducing biodiversity and altering regional climate and creating an urban heat island (UHI) in cities [1]. Rapid urbanization caused LULC changes which increased land surface temperature (LST) [2]. Human migration to cities causes urbanization which brings rapid changes in the ecosystem, biodiversity and the environment [4]. Rapid urbanization has both positive and negative impacts. The increase in built up areas in the urban center could cause an increase in LST which could be a concern for geographers, climatologists and urban planners [5,6]

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