Spatiotemporal Variation of Urban Heat Islands for Implementing Nature-Based Solutions: A Case Study of Kurunegala, Sri Lanka

Spatiotemporal Variation of Urban Heat Islands for Implementing Nature-Based Solutions: A Case Study of Kurunegala, Sri Lanka

Changes in the urban landscape resulting from rapid urbanisation and climate change have the potential to increase land surface temperature (LST) and the incidence of the urban heat island (UHI). An increase in urban heat directly affects urban livelihoods and systems. This study investigated the sp...

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Main Authors: Manjula Ranagalage, Sujith S. Ratnayake, DMSLB Dissanayake, Lalit Kumar, Hasula Wickremasinghe, Jagathdeva Vidanagama, Hanna Cho, Susantha Udagedara, Keshav Kumar Jha, Matamyo Simwanda, Darius Phiri, ENC Perera, Priyantha Muthunayake
Format: Article
Language:English
Published: MDPI AG 2020-07-01
Series:ISPRS International Journal of Geo-Information
Subjects:
LST
UHI
impervious surface
green surface
climate change
NBS
Online Access:https://www.mdpi.com/2220-9964/9/7/461
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spelling doaj-a183a24290ef4e358155f2f0cd9c8d212020-11-25T03:26:23ZengMDPI AGISPRS International Journal of Geo-Information2220-99642020-07-01946146110.3390/ijgi9070461Spatiotemporal Variation of Urban Heat Islands for Implementing Nature-Based Solutions: A Case Study of Kurunegala, Sri LankaManjula Ranagalage0Sujith S. Ratnayake1DMSLB Dissanayake2Lalit Kumar3Hasula Wickremasinghe4Jagathdeva Vidanagama5Hanna Cho6Susantha Udagedara7Keshav Kumar Jha8Matamyo Simwanda9Darius Phiri10ENC Perera11Priyantha Muthunayake12Department of Environmental Management, Faculty of Social Sciences and Humanities, Rajarata University of Sri Lanka, Mihintale 50300, Sri LankaClimate Change Secretariat, Ministry of Environment and Wildlife Resources, Battaramulla 10120, Sri LankaDepartment of Environmental Management, Faculty of Social Sciences and Humanities, Rajarata University of Sri Lanka, Mihintale 50300, Sri LankaEcosystem Management Division, School of Environmental and Rural Science, University of New England, Armidale, NSW 2350, AustraliaClimate Change Secretariat, Ministry of Environment and Wildlife Resources, Battaramulla 10120, Sri LankaDepartment of Zoology and Environment Sciences, Faculty of Science, University of Colombo, Colombo 10120, Sri LankaKorea Environment Institute, 5F, Bldg B, 232, Gareum-ro, Sejong 30121, KoreaBlue Resources Trust, 86, Barnce Place, Colombo 00700, Sri LankaICLEI-Local Governments for Sustainability, South Asia, vC-3, Lower Ground Floor, Green Park Extension, New Delhi 110016, IndiaDepartment of Plant and Environmental Sciences, School of Natural Resources, Copperbelt University, P.O. Box 21692, Kitwe 10101, ZambiaDepartment of Plant and Environmental Sciences, School of Natural Resources, Copperbelt University, P.O. Box 21692, Kitwe 10101, ZambiaDepartment of Regional Science and Planning, SANASA Campus, Kegalle 71000, Sri LankaMunicipal Council, Kurunegala 60000, Sri LankaChanges in the urban landscape resulting from rapid urbanisation and climate change have the potential to increase land surface temperature (LST) and the incidence of the urban heat island (UHI). An increase in urban heat directly affects urban livelihoods and systems. This study investigated the spatiotemporal variation of the UHI in the Kurunegala urban area (KUA) of North-Western Province, Sri Lanka. The KUA is one of the most intensively developing economic and administrative capitals in Sri Lanka with an urban system that is facing climate vulnerabilities and challenges of extreme heat conditions. We examined the UHI formation for the period 1996–2019 and its impact on the urban-systems by exploring nature-based solutions (NBS). This study used annual median temperatures based on Landsat data from 1996 to 2019 using the Google Earth Engine (GEE). Various geospatial approaches, including spectral index-based land use/cover mapping (1996, 2009 and 2019), urban-rural gradient zones, UHI profile, statistics and grid-based analysis, were used to analyse the data. The results revealed that the mean LST increased by 5.5 °C between 1996 and 2019 mainly associated with the expansion pattern of impervious surfaces. The mean LST had a positive correlation with impervious surfaces and a negative correlation with the green spaces in all the three time-points. Impacts due to climate change, including positive temperature and negative rainfall anomalies, contributed to the increase in LST. The study recommends interactively applying NBS to addressing the UHI impacts with effective mitigation and adaptation measures for urban sustainability.https://www.mdpi.com/2220-9964/9/7/461LSTUHIimpervious surfacegreen surfaceclimate changeNBS
collection DOAJ
language English
format Article
sources DOAJ
author Manjula Ranagalage
Sujith S. Ratnayake
DMSLB Dissanayake
Lalit Kumar
Hasula Wickremasinghe
Jagathdeva Vidanagama
Hanna Cho
Susantha Udagedara
Keshav Kumar Jha
Matamyo Simwanda
Darius Phiri
ENC Perera
Priyantha Muthunayake
spellingShingle Manjula Ranagalage
Sujith S. Ratnayake
DMSLB Dissanayake
Lalit Kumar
Hasula Wickremasinghe
Jagathdeva Vidanagama
Hanna Cho
Susantha Udagedara
Keshav Kumar Jha
Matamyo Simwanda
Darius Phiri
ENC Perera
Priyantha Muthunayake
Spatiotemporal Variation of Urban Heat Islands for Implementing Nature-Based Solutions: A Case Study of Kurunegala, Sri Lanka
ISPRS International Journal of Geo-Information
LST
UHI
impervious surface
green surface
climate change
NBS
author_facet Manjula Ranagalage
Sujith S. Ratnayake
DMSLB Dissanayake
Lalit Kumar
Hasula Wickremasinghe
Jagathdeva Vidanagama
Hanna Cho
Susantha Udagedara
Keshav Kumar Jha
Matamyo Simwanda
Darius Phiri
ENC Perera
Priyantha Muthunayake
author_sort Manjula Ranagalage
title Spatiotemporal Variation of Urban Heat Islands for Implementing Nature-Based Solutions: A Case Study of Kurunegala, Sri Lanka
title_short Spatiotemporal Variation of Urban Heat Islands for Implementing Nature-Based Solutions: A Case Study of Kurunegala, Sri Lanka
title_full Spatiotemporal Variation of Urban Heat Islands for Implementing Nature-Based Solutions: A Case Study of Kurunegala, Sri Lanka
title_fullStr Spatiotemporal Variation of Urban Heat Islands for Implementing Nature-Based Solutions: A Case Study of Kurunegala, Sri Lanka
title_full_unstemmed Spatiotemporal Variation of Urban Heat Islands for Implementing Nature-Based Solutions: A Case Study of Kurunegala, Sri Lanka
title_sort spatiotemporal variation of urban heat islands for implementing nature-based solutions: a case study of kurunegala, sri lanka
publisher MDPI AG
series ISPRS International Journal of Geo-Information
issn 2220-9964
publishDate 2020-07-01
description Changes in the urban landscape resulting from rapid urbanisation and climate change have the potential to increase land surface temperature (LST) and the incidence of the urban heat island (UHI). An increase in urban heat directly affects urban livelihoods and systems. This study investigated the spatiotemporal variation of the UHI in the Kurunegala urban area (KUA) of North-Western Province, Sri Lanka. The KUA is one of the most intensively developing economic and administrative capitals in Sri Lanka with an urban system that is facing climate vulnerabilities and challenges of extreme heat conditions. We examined the UHI formation for the period 1996–2019 and its impact on the urban-systems by exploring nature-based solutions (NBS). This study used annual median temperatures based on Landsat data from 1996 to 2019 using the Google Earth Engine (GEE). Various geospatial approaches, including spectral index-based land use/cover mapping (1996, 2009 and 2019), urban-rural gradient zones, UHI profile, statistics and grid-based analysis, were used to analyse the data. The results revealed that the mean LST increased by 5.5 °C between 1996 and 2019 mainly associated with the expansion pattern of impervious surfaces. The mean LST had a positive correlation with impervious surfaces and a negative correlation with the green spaces in all the three time-points. Impacts due to climate change, including positive temperature and negative rainfall anomalies, contributed to the increase in LST. The study recommends interactively applying NBS to addressing the UHI impacts with effective mitigation and adaptation measures for urban sustainability.
topic LST
UHI
impervious surface
green surface
climate change
NBS
url https://www.mdpi.com/2220-9964/9/7/461
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