Your search keyword '"uhi"' showing total 456 results

1. Spatio-temporal analysis of Karachi metropolitan as an urban heat island

Author

Ejaz, Fizza, Kausar, Anila, Maqsoom, Asad, Khan, Owais Iqbal, and Lahori, Altaf Hussain

Published

2025

2. The role of passive, active, and operational parameters in the relationship between urban heat island effect (UHI) and building energy consumption

Author

Sharston, Ryan and Singh, Manan

Published

2024

3. Providing support for urban planning through investigating the cooling influence of park in Northern China: A case study of Xi'an

Author

Xin, Kai, Zhao, Jingyuan, Li, ZhaoXin, Yang, Yujin, Wang, Tianhui, and Gao, Weijun

Published

2024

4. Sporicidal efficiency of an ultra-high irradiance (UHI) near UV/visible light treatment: An example of application to infected mandarins

Author

Thery, Thibaut, Beney, Laurent, Grangeteau, Cédric, and Dupont, Sébastien

Published

2023

5. Assessment of Land Surface Temperature and Land Use Land Cover Changes In and Around Mangalore, Karnataka—A Study Based on Geoinformatics Approach

Author

Abhishek, R., Bhat, H. Gangadhara, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Lu, Xinzheng, Series Editor, Pandey, Manish, editor, Jayakumar, K. V., editor, Pal, Manali, editor, and Singh, Vijay P., editor

Published

2025

6. Identification and quantification of localized urban heat island intensity and footprint for Chennai Metropolitan Area during 1988–2023.

Author

Mathivanan, Mathan and Duraisekaran, Elanchezhiyan

Subjects

CITIES & towns, URBAN heat islands, LAND cover, URBAN planning, METROPOLITAN areas

Abstract

Rapid urbanization has altered land use and land cover to accommodate the growing population. This shift towards urbanization has resulted in the UHI effect, where the inner urban core is notably warmer than its surroundings. Existing research on UHI has primarily focused on major cities at the regional scale, leaving a gap in addressing the effect of extreme UHI zones within a city. This study bridges the gap by developing a methodology to quantify the impact of LULC change on the localized UHI zones within the urban areas, which will assist policymakers in mitigating urban heat. LULC change matrix analysis and LST retrieval were done from the Landsat 5 and 8 images acquired between 1988 and 2023. Representative study sites that intersected with the LULC conversion from water bodies and vegetation to other LULC and which showed maximum UHI were selected. Mean LST was calculated for the proximity of 1000 m around the selected areas. The developed methodology was applied to the Chennai Metropolitan Area in Tamil Nadu, India. The conversion of Pallikaranai marshland to the Perungudi dumping ground (PDG), and the green cover to the Kodungaiyur dumping ground (KDG) has led to an average increase in UHI intensity of 0.21 °C/year and 0.15 °C/year, respectively. The UHI effect is felt at the distance of 450 m from PDG and 550 m from KDG, which have shown that the life within the proximity are expected to experience the UHI effect. Therefore, it is imperative to alleviate the rising UHI around the selected areas. This developed methodology can be applied globally to select the targeted UHI zones for sustainable urban planning to mitigate urban heat. [ABSTRACT FROM AUTHOR]

Published

2025

7. Cooling of Air in Outdoor Areas of Human Habitation.

Author

Barnat, Ewelina, Sekret, Robert, and Babiarz, Bożena

Subjects

*THERMAL comfort, *SOLAR radiation, *PHOTOVOLTAIC power systems, *URBAN climatology, *SOLAR energy, *EVAPORATIVE cooling

Abstract

This paper deals with the issue of air cooling in outdoor areas of human habitation. An analysis of air parameters during the summer season was carried out to determine the thermal comfort zone for a part of the northern platform of the local station in Rzeszow (Poland). The cooling capacity required for thermal comfort was calculated using outdoor air parameters and heat gains in the vicinity of the research object. Ten potential air-cooling systems were proposed for the outdoor zones. The systems differed in terms of cooling equipment, primary energy source, cooling medium, and recipients. They were divided into three categories: compressor, adsorption, and evaporative cooling. The electricity yield of the existing photovoltaic installation at the research facility was evaluated to identify potential synergies between the cooling demand and solar energy. An analysis assessed the energy, economic, and environmental impact of each proposed option. The best option for cooling the outdoor areas was found to be an evaporative cooling system with a PV system. Solar radiation can be effectively used for cooling outdoor zones in Poland in the summer. The optimal solution for the research facility is an evaporative cooling system based on direct evaporation combined with a photovoltaic system. The subject matter covered can be used as an effective tool for the optimal selection of outdoor air-cooling systems to ensure the thermal comfort of the occupants. [ABSTRACT FROM AUTHOR]

Published

2024

8. The impacts of landscape structure changes on urban surface temperature and heat islands formation of a growing city in southern Sri Lanka.

Author

Chanuwan Wijesinghe, Dilnu, Withanage, Neel Chaminda, Mishra, Prabuddh Kumar, Frenando, Wasana Surandi, Abdelrahman, Kamal, and Fnais, Mohammed S.

Subjects

NORMALIZED difference vegetation index, IMAGE recognition (Computer vision), LAND surface temperature, URBAN heat islands, METROPOLITAN areas

Abstract

Undoubtedly, urbanization has improved human living conditions. However, it has also altered the natural landscape, leading to negative consequences such as increased Land Surface Temperature (LST) and Urban Heat Island (UHI) due to the expansion of Impervious Surface (IS). Much research has been conducted in other countries on the effects of changing urban landscape structures on LST and UHI formation. However, in Sri Lanka, only a few studies have been available on this topic, primarily concentrating on major cities like Colombo. Impervious Surface is absorbing high amounts of solar energy as well, which accelerates the magnitude of UHI in urbanized areas. Remote Sensing indices such as the Normalized Difference Vegetation Index (NDVI), Normalized Difference Buildup Index (NDBI), UHI, and Environmental Criticality Index (ECI) can effectively be used to quantify the intensity of the UHI phenomenon. This study aimed to investigate the effect of spatiotemporal variations in IS and Green Surface (GS) on UHI, LST, and the environmental criticality in Galle Municipal Council (MC), Sri Lanka employing multi-temporal Landsat-5 and 8 data from four different periods: 1996, 2005, 2014, and 2022. Different geospatial techniques including supervised image classification, Urban-Rural Gradient Zone (URGZ) analysis, grid-based analysis, UHI profiles, and regression analysis were used in the study. The findings revealed that Impervious Surface increased by 42.3% (7.34 km2) while Green Surface had a decline of 22.5% (3.91 km2) during the concerned period. This landscape transition led to a 2.74 C increase in mean surface temperature in the study area, along with a 9.5 C increase in the UHI index during 26 years. The results further revealed that Impervious Surface rapidly developed within 4 km (URGZ1-19) from city center, while Green Surface decreased. Newly built-up areas within the 1.5 km gradient (URGZ1-URGZ8) were more affected by increased LST. A positive correlation was identified between NDBI and LST, especially in the year 2022, with an R2 of 0.457, while NDVI and LST reported a negative R 2 of 0.257. The grid-based analysis demonstrated an increasingly positive relationship between mean LST and the fraction of Impervious Surface, highlighting the role of built-up areas in raising LST and UHI in the MC. As a result, very high environmental critical areas have been concentrated in and around high-density Impervious Surface. Thus, it can be predicted that the UHI effect and Environmental Criticality (EC) may increase further in the future. In this context, planning agencies should prioritize green urban planning strategies, such as implementing green belts and urban agriculture in the study area, particularly in and around areas with high LST and high environmental criticality. This approach may help protect the natural environment and sustainably ensure the health of the urban community. [ABSTRACT FROM AUTHOR]

Published

2024

9. Towards UHI mitigation adopting park cooling effect: Two- decade literature review for a theoretical framework.

Author

Haldar, Sudeshna and Dey, Priyanka

Abstract

The unexpected population increase in megacities has caused the urban heat island (UHI) effect. The Park Cooling Intensity (PCI) effect offers natural cooling from urban parks that can balance UHI. Doubling the urban population in the next two decades is expected to cause a rise in high-rise buildings. This research thoroughly evaluates the knowledge accumulated by adopting a Systematic Literature Review (SLR) since 2000 regarding the relationship between UHIs and PCI. To identify experimental trends, methodological trends, geographical interdependence, and research gaps in UHI mitigation, results obtained from 9 nations and 11 Köppen-Geiger climate zones are examined and compared from 55 selected research papers. Five significant topics are used to guide a thorough content analysis. The first section of the manuscript enlists identified factors of UHI mitigation affecting urban heat. The second section presents an observation table about how the different researchers have amalgamated the above-discussed factors to infer the comparison among the discussed literature. The study has identified three prominent research gaps explaining limitations in research: 1) current research trends, 2) governing factors of socio-economic and environmental aspects, and 3) exploration of evapotranspiration rates in terms of Bowen ratio. This review will aid researchers in selecting coping mechanisms for urban climates of extreme heat. [ABSTRACT FROM AUTHOR]

Published

2024

10. Diurnal Variation Reveals the Characteristics and Influencing Factors of Cool Island Effects in Urban Blue-Green Spaces.

Author

Kong, Ruixue, Chu, Yaqi, Hu, Yuanman, Zhang, Huanxue, Wang, Qiuyue, and Li, Chunlin

Subjects

BODIES of water, THERMAL comfort, PUBLIC spaces, REGRESSION trees, TREE height

Abstract

Urban blue-green space cooling island effect (BGCI) is effective in improving the thermal comfort of residents. However, there is little knowledge regarding the diurnal variation of BGCIs and the influencing factors. Therefore, we selected Beijing as the study area and used ECOSTRESS LST data and the inflection–maximum perspective method to explore the diurnal variation of BGCIs. Additionally, we investigated diurnal variations in the relative influence of the characteristics of the blue-green space itself, as well as the surrounding 2D and 3D landscape metrics using boosted regression tree model. The results indicated that BGCIs displayed distinct diurnal patterns. BGCIs progressively increased from sunrise to midday, decreased thereafter to sunset, reached its peak around midday, and diminished to a relatively low level and constant intensity at night. BGCIs of water bodies exhibited a significantly higher intensity compared to vegetation during the day, particularly around midday, with a difference in mean cooling intensity (CI) of 1.06 °C and mean cooling distance (CD) of 63.27 m, while the differences were minimal at night with a difference in mean CI of 0.02 °C and mean CD of 9.64 m. The features of vegetation had a more significant impact on BGCIs during the day, particularly around midday (CI: 32.30% around midday and 13.86% at night), while the 3D metrics influenced BGCIs more at night (CI: 26.40% around midday and 35.81% at night). The features of water bodies had a greater impact during the midday (52.87% around midday and 10.46% at night), with the landscape metrics of surrounding water bodies playing a more important role at night (15.56% around midday and 38.28% at night). The effect of tree height, shape index of vegetation, and surrounding building coverage ratio of water bodies on BGCIs exhibited opposite trends around midday and at night. Optimizing the landscape surrounding blue-green spaces is more cost-effective than the blue-green spaces themselves for nighttime thermal comfort, especially in 3D urban landscapes. These findings emphasize the imperative and essentiality of exploring diurnal variations in BGCIs, providing valuable information for mitigating UHI effects. [ABSTRACT FROM AUTHOR]

Published

2024

11. A comparative analysis of temperature trends at Modena Geophysical Observatory and Mount Cimone Observatory, Italy.

Author

Costanzini, Sofia, Boccolari, Mauro, Vega Parra, Stephanie, Despini, Francesca, Lombroso, Luca, and Teggi, Sergio

Subjects

*CLIMATE extremes, *EXTREME weather, *GEOPHYSICAL observatories, *URBAN heat islands, *CLIMATE change

Abstract

Global warming has become a critical environmental, social, and economic threat, with increasing frequency and intensity of extreme weather events. This study aims to analyse temperature trends and climate indices in the Po Valley, a significant economic and agricultural region in Italy, by examining data from two historical stations: the urban Modena Observatory and the rural Mount Cimone Observatory. The analysis extends previous studies to 2018, assessing the magnitude of climate changes since the 1950s and isolating the Urban Heat Island (UHI) effect in Modena. Significant warming trends were confirmed at both sites, with in maximum (TX) and minimum (TN) temperatures trends nearly doubling from 1981 to 2018 compared to 1951–2018. For example, TX trends reached 0.84°C·decade−1 in Modena and 0.62°C·decade−1 at Mount Cimone, while TN trends were 0.77 and 0.80°C·decade−1, respectively. Extreme climate indices showed a substantial increase in warm days and nights (TX90p and TN90p, respectively). Particularly we found TX90p of 27.5 days·decade−1 in Modena and 15 days·decade−1 at Mount Cimone while TN90p of 29.5 days·decade−1 in Modena, 22 days·decade−1 at Mount Cimone. The UHI effect significantly impacts Modena's temperature trends. Urbanization contributes up to 65% of the rise in warm nights. Specifically, frost days decreased by 1.88 days·decade−1 (37% of Urban Contribute, UC), tropical nights increased by 5.16 days·decade−1 (57% UC), warm nights increased by 12.7 days·decade−1 (65% UC), and cool nights decreased by 3.19 days·decade−1 (39% UC). Overall, the study underscores the importance of considering both global and local factors in regional climate trend analysis. [ABSTRACT FROM AUTHOR]

Published

2024

12. Analysis of the urban heat island in Łódź, Poland

Author

Monika Bobrowska-Korzeniowska, Joanna Jerzyńska, Małgorzata Paciorek, and Włodzimierz Stelmach

Subjects

health effects, urban heat island, uhi, łódź, uhi index, uhi contrast, Medicine

Abstract

Objectives The phenomenon of urban heat island (UHI) is based on the occurrence of elevated air temperature in urban areas, in relation to the surrounding urban, rural and forest areas. The aim of the study was the assessment of the UHI in Łódź in 2014–2019. Łódź is a large city with an area of 293.3 km 2 , located in the center of Poland. Material and Methods The UHI was defined as the difference of at least 1.5°C in daily minimum temperature at the point representing the commutative conditions (lower temperature) and daily minimum temperature at the point located in the city center (higher temperature). Based on data from the Weather Research and Forecasting (WRF)/CALMET models and the above criterium, the occurrence of UHI cases was analyzed. Results In summary the phenomenon of urban heat island in 2014–2019 was observed in every studied year, most often in 2018 with the highest UHI index almost 5°C, and increased over the years. The results proved that the highest UHI contrast was seen at night between 11 p.m. and 3 a.m. Conclusions The study confirms that the UHI phenomenon in Łódź is persistent and has expanded in spatial extent over the years due to urban growth. Int J Occup Med Environ Health. 2024;37(6):581–90

Published

2024

13. A pathway to urban resilience: investigating green open space priority areas to mitigate the urban heat island phenomenon in Samarinda City, Indonesia

Author

Pratomo, Rahmat Aris, Islamiah, Zumrotul, and Bhaskara, Bimario Eka

Published

2024

14. JAKARTA AND GREATER KUALA LUMPUR URBAN HEAT ISLAND DURING THE PANDEMIC OF COVID-19.

Author

SAPUTRA, Aditya, bin IBRAHIM, Mohd Hairy, Sharif ALI, Sharif Shofirun, GOMEZ, Christopher, PRIYANA, Yuli, JUMADI, Taufiqurrahman SUNARIYA, M. Iqbal, DANARDONO, WIBOWO, Afif Ari, SIGIT, Agus Anggoro, AMIN, Choirul, HADIBASYIR, Hamim Zaky, PRIYONO, Kuswaji Dwi, FLUORIDA, Khusna, SYAIFUDIN, Aditya, and HAFIDZIN, Ridwan

Subjects

*COVID-19 pandemic, *NORMALIZED difference vegetation index, *LAND surface temperature, *URBAN heat islands, *COVID-19

Abstract

The Covid-19 outbreak rapidly became a global pandemic in December 2019, spreading through droplets, direct contact, and possibly airborne transmission. Southeast Asian nations like Malaysia and Indonesia experienced delayed outbreaks but saw a surge in cases. Analysing Covid-19 spatial patterns, especially concerning temperature and humidity, provides valuable insights. Utilizing remote sensing, allows studying the correlation between temperature conditions and Covid-19 outbreak patterns. This study focuses on investigating the impact of urban heat islands (UHIs) on Covid-19 outbreaks in Jakarta and Greater Kuala Lumpur, given their significant caseloads in Indonesia and Malaysia, respectively. The research integrates remote sensing, secondary data, and statistical analysis methods. Remote sensing was used to acquire land surface temperature (LST) and Normalized Difference Vegetation Index (NDVI). The analysis revealed that industrial and commercial areas were hotter than others during normal times, but during the pandemic, LST and UHI shifted from industrial to settlement areas due to large-scale social restrictions. This shift corresponded with the cessation of office, tourism, and industrial activities during lockdowns in March and July 2020 in Jakarta and Greater Kuala Lumpur, respectively. The concentration of people shifted from central business and industrial areas to residential areas during lockdowns, resulting in changes in UHI patterns. [ABSTRACT FROM AUTHOR]

Published

2024

15. Innovative Pavement Solutions: A Comprehensive Review from Conventional Asphalt to Sustainable Colored Alternatives.

Author

Riaz, Anisa, Yasir, Nof, Badin, Gul, and Mahmood, Yasir

Subjects

URBAN heat islands, HEAT radiation & absorption, GREEN infrastructure, INFRASTRUCTURE (Economics), URBAN growth

Abstract

Climate change significantly impacts transportation infrastructure, particularly asphalt pavements. Similarly, the heat absorption of paved surfaces, especially conventional black pavements, significantly intensifies the urban microclimate. Paved surfaces, including asphalt pavements, account for over 30% of the covered surfaces and are vulnerable to rising temperatures, which cause not only pavement distress, such as rutting and cracking, but also urban heat islands (UHI). Sustainable pavement solutions, specifically colored pavements, have been investigated for their potential to mitigate these effects. This review presents an extensive overview of current pavement technologies, emphasizing conventional asphalt's economic, environmental, and functional characteristics. A discussion of the benefits and challenges of colored pavements is also provided, including their ability to reduce UHI, enhance safety, and contribute to sustainable urban growth. This paper discusses advancements in pavement material science, the use of recycled materials, and the application of reflective coatings, providing insights into sustainable infrastructure development. Transitioning from conventional black pavements to sustainable colored alternatives is not merely a matter of material choice but a strategic transition toward resilient urban planning. Increasing demand for environmentally friendly infrastructure could prompt the construction industry to adopt colored pavements as a tool to promote environmental stewardship. [ABSTRACT FROM AUTHOR]

Published

2024

16. Thermal Behaviour of Different Land Uses and Covers in the Urban Environment of the Spanish Mediterranean Based on Landsat Land Surface Temperature.

Author

Montón Chiva, Enrique and Quereda Sala, José

Subjects

URBAN land use, LAND surface temperature, LAND cover, URBAN heat islands, SEA breeze

Abstract

Previous research has found higher temperature trends at urban observatories. This study examines in depth the features of the urban environment, the thermal behaviour of land use and land cover, and the changes that have taken place in five urban areas of the Spanish Mediterranean. The CORINE Land Cover database was used to delimit the primary land use land cover (LULC) and its changes between 1990 and 2018. Once this had been established, land surface temperatures (LSTs) between 1985 and 2023 were retrieved from the Landsat database available on the Climate Engine website. There has been a significant advance in artificial land uses, which have become the main uses in the urban areas in Valencia and Alicante. An analysis of the primary land cover showed the greatest thermal increase in artificial surfaces, especially in the industrial, commercial, and transport units that are common on their outskirts, without exception in any urban area. The results are less clear for urban fabrics and agricultural areas due to their diversity and complexity. The density of vegetation is a key factor in the magnitude of the UHI, which is higher in the urban areas with more vegetated agriculture areas, therefore showing lower LST than both industrial units and urban fabrics. Another important conclusion is the role of breezes in limiting or eliminating the strength of the UHI. Sea breezes help to explain the monthly variation of UHIs. Both bodies of water and areas of dense tree vegetation provided the lowest LST, a fact of special interest for mitigating the effects of heat waves in increasingly large urban areas. This study also concludes the different effect of each LULC on the temperatures recorded by urban observatories and enables better decision-making when setting up weather stations for a more detailed time study of the urban heat island (UHI). [ABSTRACT FROM AUTHOR]

Published

2024

17. Assessing Urban Ventilation in Common Street Morphologies for Climate-Responsive Design toward Effective Outdoor Space Regeneration.

Author

Ruda Sarria, Francisco, Guerrero Delgado, MCarmen, Sánchez Ramos, José, Palomo Amores, Teresa, Molina Félix, José Luis, and Álvarez Domínguez, Servando

Abstract

Urban heat islands are an environmental hazard which degrade people's lives worldwide, reducing social life and increasing health problems, forcing scientists to design innovative acclimatization methods in public places, such as sheltering. This paper focuses on providing quantitative indicators about airflow rates and qualitative information about airflow patterns in street canyons for typical street canyon morphologies, which is essential when designing outdoor acclimatization strategies to mitigate urban overheating. This is based on CFD simulations using an enhanced numerical domain model, which can reduce computational cost and simulation time. The study is performed for different ARs, from wide (AR = 0.75) to narrow (AR = 4), and wind speed to characterize their effect on street ventilation The results show that air renewal decreases while the AR increases. The reduction is faster for a low AR and then comes to a standstill for a high AR. In addition, the study shows that inside narrow streets, the pattern of airflow is affected by the wind velocity magnitude. These findings provide numerical values of air ventilation for a wide range of typical street canyon configurations, which represent essential data for designing effective climate control strategies, mitigating urban heat islands and conducting outdoor thermal comfort studies. This work contributes valuable knowledge to the multidisciplinary efforts aimed at enhancing urban living environments. [ABSTRACT FROM AUTHOR]

Published

2024

18. A New GIS-Based Framework to Detect Urban Heat Islands and Its Application on the City of Naples (Italy).

Author

Cafaro, Rosa, Cardone, Barbara, D'Ambrosio, Valeria, Di Martino, Ferdinando, and Miraglia, Vittorio

Subjects

URBAN heat islands, MAXIMUM likelihood detection, LAND surface temperature, HEAT waves (Meteorology), CLASSIFICATION algorithms, GEOGRAPHIC information systems

Abstract

This research presents a GIS-based framework used to detect urban heat islands and determine which urban settlement elements are most critical when heatwave risks exist. The proposed method uses the Iterative Self-Organizing Data Analysis (ISODATA) clustering algorithm applied to the satellite land surface temperature distribution recorded during heatwaves for the detection of urban heat islands. A pixel classification confidence level maximization approach, obtained by running a maximum likelihood classification algorithm, is performed to determine the optimal number of clusters. The areas labeled as hotspots constitute the detected urban heat islands (UHIs). This method was tested on an urban settlement set up by the municipality of Naples (Italy). Comparison tests were performed with other urban heat island detection methods such as standard deviation thresholding and Getis-Ord Gi* hotspot detection; indices measuring the density of buildings, the percentage of permeable open spaces, and vegetation cover are taken into consideration to evaluate the accuracy of the urban heat islands detected. These tests highlight that the proposed method provides the most accurate results. It could be an effective tool to support the decision maker in evaluating which urban areas are the most critical during heatwave scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

19. Evaluating the impacts of land use/land cover changes and climate variations on urban heat islands using the WRF-UCM model in Hefei, China.

Author

Zhou, Keqi, Zhong, Lei, Wang, Zixin, Liu, Jie, and Wu, Zhenhao

Abstract

The urban heat island (UHI) phenomenon is concurrently influenced by urban expansion and climate change. However, the individual impacts of land use/land cover (LULC) changes and climate change remain unclear. In the present study, a high-resolution numerical Weather Research and Forecasting (WRF) model coupled with a single-layer urban canopy model (UCM) is implemented for Hefei to assess the influences of LULC and climate change simultaneously. The comprehensive increase in UHI intensity (UHII) was 0.76 K from 2003 to 2019 in the study area. The overall influence of LULC changes on the UHI effect was a 0.33 K increase in intensity and a 190 km² expansion in coverage. The results also show that the emergence of new high-intensity urban areas developed from farmlands had the strongest impact on UHI development compared to other types of LULC changes. The overall contribution of climate change to the UHII increased by 0.27 K from 2003 to 2019. The change in the storage heat flux was found to be responsible for the nocturnal UHII variation and long-term increase in the UHII, while the sensible heat flux was responsible for the diurnal UHII. [ABSTRACT FROM AUTHOR]

Published

2024

20. Drivers of surface urban heat island of Gondar City, Ethiopia: a comparative study

Author

Gashaw Telay Mekonnen, Arega Bazezew Berlie, Mesfin Anteneh Wubie, and Solomon Addisu Legesse

Subjects

UHI, SUHI, drivers, Gondar city, land surface temperature, urbanization, Social Sciences

Abstract

The surface urban heat island (SUHI) is caused by a combination of variables, broadly classified as climate change, land use change, and urbanization. They have varying degrees of influence depending on their level of intensity. As a result, recognizing the primary cause is critical to resolving the issue and developing suitable policies to reduce resource waste. This study attempted to identify the underlying cause of SUHI by primarily evaluating the intensity of the surface urban heat island using primary and secondary data. Zonal Statistics, the Mann-Kendall trend test, Oke’s UHI model, multiple linear regression, and Likert Scale were used in the analysis. The average SUHII value, Beta coefficient, and mean value of the Likert scale for urbanization are the highest, followed by Land use and climate change. The average temperature induced by population density is 3.85 °C and its Beta value is 0.449 which is significant at p

Published

2024

21. The impacts of landscape structure changes on urban surface temperature and heat islands formation of a growing city in southern Sri Lanka

Author

Dilnu Chanuwan Wijesinghe, Neel Chaminda Withanage, Prabuddh Kumar Mishra, Wasana Surandi Frenando, Kamal Abdelrahman, and Mohammed S. Fnais

Subjects

ECI, Galle, green surface, UHI, urbanization, impervious surface, Environmental sciences, GE1-350

Abstract

Undoubtedly, urbanization has improved human living conditions. However, it has also altered the natural landscape, leading to negative consequences such as increased Land Surface Temperature (LST) and Urban Heat Island (UHI) due to the expansion of Impervious Surface (IS). Much research has been conducted in other countries on the effects of changing urban landscape structures on LST and UHI formation. However, in Sri Lanka, only a few studies have been available on this topic, primarily concentrating on major cities like Colombo. Impervious Surface is absorbing high amounts of solar energy as well, which accelerates the magnitude of UHI in urbanized areas. Remote Sensing indices such as the Normalized Difference Vegetation Index (NDVI), Normalized Difference Buildup Index (NDBI), UHI, and Environmental Criticality Index (ECI) can effectively be used to quantify the intensity of the UHI phenomenon. This study aimed to investigate the effect of spatiotemporal variations in IS and Green Surface (GS) on UHI, LST, and the environmental criticality in Galle Municipal Council (MC), Sri Lanka employing multi-temporal Landsat-5 and 8 data from four different periods: 1996, 2005, 2014, and 2022. Different geospatial techniques including supervised image classification, Urban-Rural Gradient Zone (URGZ) analysis, grid-based analysis, UHI profiles, and regression analysis were used in the study. The findings revealed that Impervious Surface increased by 42.3% (7.34 km2) while Green Surface had a decline of 22.5% (3.91 km2) during the concerned period. This landscape transition led to a 2.74 C increase in mean surface temperature in the study area, along with a 9.5 C increase in the UHI index during 26 years. The results further revealed that Impervious Surface rapidly developed within 4 km (URGZ1-19) from city center, while Green Surface decreased. Newly built-up areas within the 1.5 km gradient (URGZ1-URGZ8) were more affected by increased LST. A positive correlation was identified between NDBI and LST, especially in the year 2022, with an R2 of 0.457, while NDVI and LST reported a negative R2 of 0.257. The grid-based analysis demonstrated an increasingly positive relationship between mean LST and the fraction of Impervious Surface, highlighting the role of built-up areas in raising LST and UHI in the MC. As a result, very high environmental critical areas have been concentrated in and around high-density Impervious Surface. Thus, it can be predicted that the UHI effect and Environmental Criticality (EC) may increase further in the future. In this context, planning agencies should prioritize green urban planning strategies, such as implementing green belts and urban agriculture in the study area, particularly in and around areas with high LST and high environmental criticality. This approach may help protect the natural environment and sustainably ensure the health of the urban community.

Published

2024

22. Assessment of seasonal and spatial patterns of AOD, urban heat island and urban aerosol pollution island during change in agriculture cycles over a city region along Indo-Gangetic Plain

Author

Singh, Rohit Kumar and Satyanarayana, A. N. V.

Published

2024

23. Urban land use, land cover change and urban microclimate dynamics in Addis Ababa, Ethiopia

Author

Mulugeta Demisse Negesse, Solomon Hishe, and Kefelegn Getahun

Subjects

Cooling efficiency, LST, LULC, Microclimate, NDVI, UHI, Environmental sciences, GE1-350

Abstract

Abstract Land surface temperature (LST) increases and urban heat island (UHI) variability are the major urban climatology problems arising in urban development. This study attempts to assess the effects of urban land use and land cover change on microclimate dynamics in Addis Ababa city. Three different sets of remotely sensed data from Landsat 5 TM (1990), Landsat 7 ETM+ (2005) and Landsat 8 OLI/TIRS (2021) were used for the study. LSTs were retrieved from Landsat5 TM and Landsat7 ETM+ using a mono window,and the thermal infrared band (TR-10) of Landsat–8 was used to retrieve LST. Regression and correlation analyses of the LST, normalized difference vegetation index (NDVI) and normalized difference built-up index (NDBI) were performed in SPSS V23. The study also examined the different residential urban morphology types (UMTs) of the LST and NDVI. The selected built-up blocks of UMTs included apartments, villas and mud houses. These UMTs are extracted by digitizing them from the Google Earth explorer. The results from this study showed that the proportion of urban green space (UGS) to other LULC types decreased from 120.4 km2 in 1990 to 76.26 km2 in 2021. However, the built-up area increased at a rate of 216.5 km2 (39.03%) from 1990 to 2021. The rapid expansion of built-up land in the study area was the main factor influencing the increase in LST. The residential UMTs exhibited significant differences in mean LSTs and NDVIs. The results indicate that UMT inhibited by Villia had the highest mean NDVI value and that the highest mean LST was observed in Apartment. The results of multiple linear regression analysis clearly indicate that built-up and green vegetation contributed 92.2% of the LST variations with R2 = 0.92 and VIF ≤ 10 in Addis Ababa city. The results of the study indicate that strengthening public participation in urban greening and optimizing the NDVI and NDBI are important strategies for mitigating the effects of microclimate change and that sustaining urban development and providing better quality of life for the urban population are important.

Published

2024

24. Strategies to Reduce Urban Heat Island Effect in Compact Dense Low Rise Residential Areas of Delhi, India.

Author

Jain, Richa, Brar, Tejwant Singh, and Kamal, Mohammad Arif

Subjects

URBAN heat islands, URBAN climatology, PHYSICAL sciences, CITIES & towns, GREEN roofs

Abstract

Cities frequently experience urban heat islands (UHIs), defined as regions where the urban environment is warmer than the rural surroundings. These characteristics are a direct result of urbanization, which eliminates natural vegetation and water sources and replaces them with impermeable surfaces with low albedo. Due to the urban heat island effect (UHI), cities are especially vulnerable to excessive heat events. The relationship between UHI and urban thermodynamics is explained by recent studies in the physical sciences, and these studies lay the groundwork for understanding how changes in the physical environment affect microclimates. The purpose of the study is to analyses the development of urban climate change as well as the technology used to mitigate it. Significant effort has been made in this particular time frame to comprehend and monitor urban climate change as well as to design and test alternative mitigation methods in high density residential areas of Delhi. The research The case of Delhi, India, using the microclimate modeling system ENVI-met, which models the temperature effects of various construction situations, has been analyzed in this paper. As a result, after applying all possible intervention, we conclude that in all other strategy temperature is increasing as comparison to base case so applying high emissivity paint on facade and green roof is the best strategy to mitigate high temperature in urban area. [ABSTRACT FROM AUTHOR]

Published

2024

25. Urban land use, land cover change and urban microclimate dynamics in Addis Ababa, Ethiopia.

Author

Negesse, Mulugeta Demisse, Hishe, Solomon, and Getahun, Kefelegn

Subjects

URBAN land use, LAND cover, LAND surface temperature, URBAN heat islands, URBAN climatology, APARTMENT buildings

Abstract

Land surface temperature (LST) increases and urban heat island (UHI) variability are the major urban climatology problems arising in urban development. This study attempts to assess the effects of urban land use and land cover change on microclimate dynamics in Addis Ababa city. Three different sets of remotely sensed data from Landsat 5 TM (1990), Landsat 7 ETM+ (2005) and Landsat 8 OLI/TIRS (2021) were used for the study. LSTs were retrieved from Landsat5 TM and Landsat7 ETM+ using a mono window,and the thermal infrared band (TR-10) of Landsat–8 was used to retrieve LST. Regression and correlation analyses of the LST, normalized difference vegetation index (NDVI) and normalized difference built-up index (NDBI) were performed in SPSS V23. The study also examined the different residential urban morphology types (UMTs) of the LST and NDVI. The selected built-up blocks of UMTs included apartments, villas and mud houses. These UMTs are extracted by digitizing them from the Google Earth explorer. The results from this study showed that the proportion of urban green space (UGS) to other LULC types decreased from 120.4 km2 in 1990 to 76.26 km2 in 2021. However, the built-up area increased at a rate of 216.5 km2 (39.03%) from 1990 to 2021. The rapid expansion of built-up land in the study area was the main factor influencing the increase in LST. The residential UMTs exhibited significant differences in mean LSTs and NDVIs. The results indicate that UMT inhibited by Villia had the highest mean NDVI value and that the highest mean LST was observed in Apartment. The results of multiple linear regression analysis clearly indicate that built-up and green vegetation contributed 92.2% of the LST variations with R2 = 0.92 and VIF ≤ 10 in Addis Ababa city. The results of the study indicate that strengthening public participation in urban greening and optimizing the NDVI and NDBI are important strategies for mitigating the effects of microclimate change and that sustaining urban development and providing better quality of life for the urban population are important. [ABSTRACT FROM AUTHOR]

Published

2024

26. Green infrastructure modelling for UHI control to urban thermal comfort: a case study of Temanggung urban area.

Author

Sumaryana, Hendra, Buchori, Imam, and Sejati, Anang Wahyu

Abstract

The Temanggung urban area in Central Java (Indonesia) already has considerable urban Green Infrastructure (GI), but the phenomenon of Urban Heat Island (UHI) has expanded to 268% in the last seven years. This study explores the theoretical gaps related to urban thermal comfort by combining tree management modelling as the independent variable and existing urban morphology as the dependent variable to identify the right place for the right tree using ENVI-met v5 simulations. We use the Universal Thermal Climate Index (UTCI) to determine urban thermal comfort, and our results showed a temperature decrease from 37°C (strong heat stress) to 32.5°C–35.5°C (moderate heat stress) and an average decrease of 1°C–3.5°C. These results were obtained by simulating the placement pattern of substations, land use zoning, tree size composition, paying attention to the type of road surface material, wind direction and speed and direction of road orientation, average air temperature, and location of building masses. This study provides a basis for consideration to assist local governments and researchers in managing GI in Temanggung Urban Area to create comfortable urban thermal comfort for their residents. [ABSTRACT FROM AUTHOR]

Published

2024

27. Spatio-temporal evolution of surface urban heat island over Bhubaneswar-Cuttack twin city: a rapidly growing tropical urban complex in Eastern India.

Author

Sethi, Soumya Satyakanta, Vinoj, V., Gogoi, Partha Pratim, Landu, Kiranmayi, Swain, Debadatta, and Mohanty, U. C.

Subjects

URBAN heat islands, SPATIOTEMPORAL processes, CITIES & towns, SMALL cities, DISASTER resilience

Abstract

India is one of the rapidly urbanizing major economies in the developing world. As it embarks on its urban transition, many small tier-2 cities are already experiencing a large-scale transformation. This study examines the effects of surface urban heat island intensity (SUHI) effect from 2001 to 2020 on a tropical coastal urban complex, Bhubaneswar and Cuttack, a rapidly expanding tier-2 twin city in the Eastern Indian region. Our study reveals a clear discernible annual nighttime SUHI for both Bhubaneswar and Cuttack (0.75 ± 0.08 and 1.22 ± 0.07 °C) with a growth rate of 0.18 ± 0.07 and 0.13 ± 0.07 °C/decade, respectively. Surprisingly, the annual daytime SUHI is weakening for Bhubaneswar. Both night and daytime SUHI showed substantial seasonality with a clear asymmetry during the day and night. Daytime urban cool island effect was observed for Cuttack with Bhubaneswar reporting weak SUHI for daytime during dry seasons. Around the periphery of the cities, the diurnal temperature range (DTR) was found to be the highest. Furthermore, A decrease of 2 °C in the DTR has been reported over the past two decades. The urbanization effect on the local thermal climate of both cities is seen beyond the physical urban limits. Such changes, even in tier-2 cities, have significant potential to modulate local climate and underscore the need for detailed studies in the rapidly urbanizing cities of India and the world to enable disaster resilience, climate-proofing, and sustainability. [ABSTRACT FROM AUTHOR]

Published

2024

28. Facing Climate Change in a Temperate European City: Urban-Scale Diagnosis of Indoor Overheating and Adaptation Strategies for Residential Buildings.

Author

Arriazu-Ramos, Ainhoa, Pons Izquierdo, Juan José, Ramos Ruiz, Germán, Sánchez-Ostiz, Ana, and Monge-Barrio, Aurora

Subjects

CITIES & towns, CLIMATE change, DWELLINGS, GREEN roofs, HEAT waves (Meteorology)

Abstract

The rise in outdoor temperatures and heatwaves highlights the limitations of buildings in adapting to warming conditions, even in temperate climates. This paper analyses the indoor overheating of residential dwellings in Pamplona (a city in northern Spain, with a Cfb climate) using an urban-scale diagnostic methodology and presents different envelopes' retrofitting scenarios as a strategy to reduce it. The results come from energy simulations conducted during an extremely warm summer in 2022, considering the microclimate effects. The residential typologies most vulnerable to overheating are those with only one orientation, built before the EPBD 2002, and located on top floors. These dwellings show a 23.7% mean of indoor overheating hours (IOH), representing approximately 870 h above the EN 16798-1:2019 adaptive threshold from May to September. Renovating building envelopes to meet current energy standards reduces the IOH by an average of 8.6% and up to 15.35% in the most vulnerable typologies. In the retrofitting scenario with green roof systems, indoor temperatures are up to 0.5 °C lower than when roofs are renovated with traditional systems. This study assists policy-makers in preventing the risk of overheating within cities and encourages them to promote nature-based solutions in order to adapt urban residential buildings and cities to warming conditions. [ABSTRACT FROM AUTHOR]

Published

2024

29. Using Remote Sensing Technologies for Monitoring Urban Heat Islands

Author

Sakhniuk, Stanislav, Zatserkovnyi, Vitaliy, De Donatis, Mauro, Tsiupa, Iryna, Mienasova, Anzhelina, Urbach, H. Paul, editor, Li, Deren, editor, and Yu, Dengyun, editor

Published

2024

30. Exploring the Interplay Between Urban Landscape and Land Surface Temperature: Case Study of South Twenty Four Parganas

Author

Sinha, Sudarshana, Banerjee, Ankhi, Patnaik, Archana, Pisello, Anna Laura, Editorial Board Member, Bibri, Simon Elias, Editorial Board Member, Ahmed Salih, Gasim Hayder, Editorial Board Member, Battisti, Alessandra, Editorial Board Member, Piselli, Cristina, Editorial Board Member, Strauss, Eric J., Editorial Board Member, Matamanda, Abraham, Editorial Board Member, Gallo, Paola, Editorial Board Member, Marçal Dias Castanho, Rui Alexandre, Editorial Board Member, Chica Olmo, Jorge, Editorial Board Member, Bruno, Silvana, Editorial Board Member, He, Baojie, Editorial Board Member, Niglio, Olimpia, Editorial Board Member, Pivac, Tatjana, Editorial Board Member, Olanrewaju, AbdulLateef, Editorial Board Member, Pigliautile, Ilaria, Editorial Board Member, Karunathilake, Hirushie, Editorial Board Member, Fabiani, Claudia, Editorial Board Member, Vujičić, Miroslav, Editorial Board Member, Stankov, Uglješa, Editorial Board Member, Sánchez, Angeles, Editorial Board Member, Jupesta, Joni, Editorial Board Member, Pignatta, Gloria, Editorial Board Member, Shtylla, Saimir, Editorial Board Member, Alberti, Francesco, Editorial Board Member, Buckley, Ayşe Özcan, Editorial Board Member, Mandic, Ante, Editorial Board Member, Ahmed Ibrahim, Sherif, Editorial Board Member, Teba, Tarek, Editorial Board Member, Al-Kassimi, Khaled, Editorial Board Member, Rosso, Federica, Editorial Board Member, Abdalla, Hassan, Editorial Board Member, Trapani, Ferdinando, Editorial Board Member, Magnaye, Dina Cartagena, Editorial Board Member, Chehimi, Mohamed Mehdi, Editorial Board Member, van Hullebusch, Eric, Editorial Board Member, Chaminé, Helder, Editorial Board Member, Della Spina, Lucia, Editorial Board Member, Aelenei, Laura, Editorial Board Member, Parra-López, Eduardo, Editorial Board Member, Ašonja, Aleksandar N., Editorial Board Member, Amer, Mourad, Series Editor, and Cirella, Giuseppe T., editor

Published

2024

31. Development of a New Built-Up Index: Studying the Impact of Tree and Building Height Variation on Urban Thermal Field Variance Index

Author

Bhattacharjee, Rajarshi, Gaur, Shishir, Das, Nilendu, Ohri, Anurag, Srinivasan, Sruthi, Shanmugam, Hema Malini, Himiyama, Yukio, Series Editor, Anand, Subhash, Series Editor, Mishra, Arun Pratap, editor, Kaushik, Atul, editor, and Pande, Chaitanya B., editor

Published

2024

32. Spatial–Temporal Analysis of Urban Heat Island (UHI) in Bandung Raya Using Remote Sensing Data

Author

Febrian, Ade, Darmawan, Yahya, Lestari, Sopia, editor, Santoso, Heru, editor, Hendrizan, Marfasran, editor, Trismidianto, editor, Nugroho, Ginaldi Ari, editor, Budiyono, Afif, editor, and Ekawati, Sri, editor

Published

2024

33. Urban heat island effect in India: a review of current status, impact and mitigation strategies

Author

Islam, Sahidul, Karipot, Anandakumar, Bhawar, Rohini, Sinha, Palash, Kedia, Sumita, and Khare, Manoj

Published

2024

34. Impact of Land Conversion on Land Surface Temperature Over the Coastal Area: A Spatiotemporal Study of Cox’s Bazar District, Bangladesh

Author

Mazumder, Arnab, Sarkar, Animesh, Sikder, Md. Bahuddin, Tabassum, Annyca, Islam, Sk Taufiqul, and Barua, Emon

Published

2024

35. From Oasis to Desert: The Struggle of Urban Green Spaces Amid Heatwaves and Water Scarcity.

Author

Scharfstädt, Lennart, Schöneberger, Peer, Simon, Helge, Sinsel, Tim, Nahtz, Tim, and Bruse, Michael

Abstract

In the summer of 2022, an intense heatwave swept through Northern Europe, with London bearing a significant impact. While nature-based solutions are often considered to be ideal responses to such heatwaves, experiences from the 2022 heatwave and others revealed potential drawbacks, particularly for urban green spaces. Prolonged dry spells, frequently accompanying heatwaves, result in excessively dry soil and the subsequent decline of vegetation in large parks. In the present study, microclimate simulations were conducted for Hyde Park in London, a location that experienced such drought during the 2022 heatwave, to examine its microclimatic performance in terms of thermal comfort and tree health. In alignment with the observations, ENVI-met could replicate the lack of noticeable cooling effects during the daytime and only marginal cooling during the nighttime. To address these challenges, mitigation scenarios were explored, incorporating heat mitigation measures such as part-time irrigation, temporary sun sails, and façade greenery. The findings demonstrated that implementing these measures could reduce heat stress by up to 13 K PET (physiologically equivalent temperature). These practical solutions emerged as effective remedies for mitigating the impact of heatwaves on urban green spaces and, hence, improving future urban development overall. [ABSTRACT FROM AUTHOR]

Published

2024

36. Climatological analysis of urban heat island effects in Swiss cities.

Author

Canton, Jacopo and Dipankar, Anurag

Subjects

*URBAN heat islands, *CITIES & towns, *URBAN climatology, *WEATHER

Abstract

This work presents a high‐resolution spatiotemporal analysis of the urban heat island (UHI) effect in Swiss cities during the last 6 years. The entire alpine country is simulated at once using the COSMO model at 1.1 km resolution, validated against a dense national measurement network. Additionally, the bulk parametrisation TERRA URB is used to model the dynamical and thermal effects of urban areas. The resulting data allows us to perform the first comprehensive analysis over the entire Switzerland, with a focus on the UHI effect with intra‐urban and across cities comparisons, and to report on the current state of urban warming. Despite the medium‐small size of the cities, the UHI is of considerable magnitude especially when considering peak values in ideal weather conditions. The present results confirm previous analyses performed for individual cities, and shed new light on the country‐wide picture by highlighting features such as the marked seasonality of the UHI intensity as well as the influence of local climate and topographical features on the urban climate. A thorough discussion is also presented highlighting the absence of simple relationships between UHI intensity and bulk city parameters and weather patterns. [ABSTRACT FROM AUTHOR]

Published

2024

37. The Fitting of the OJ Phase of Chlorophyll Fluorescence Induction Based on an Analytical Solution and Its Application in Urban Heat Island Research.

Author

Shi, Tongxin, Fan, Dayong, Xu, Chengyang, Zheng, Guoming, Zhong, Chuanfei, Feng, Fei, and Chow, Wah Soon

Subjects

URBAN heat islands, ANALYTICAL solutions, ENERGY dissipation, CHARGE exchange, PHOTOSYSTEMS

Abstract

Chlorophyll (Chl) fluorescence induction (FI) upon a dark–light transition has been widely analyzed to derive information on initial events of energy conversion and electron transfer in photosystem II (PSII). However, currently, there is no analytical solution to the differential equation of QA reduction kinetics, raising a doubt about the fitting of FI by numerical iteration solution. We derived an analytical solution to fit the OJ phase of FI, thereby yielding estimates of three parameters: the functional absorption cross-section of PSII (σPSII), a probability parameter that describes the connectivity among PSII complexes (p), and the rate coefficient for QA− oxidation (kox). We found that σPSII, p, and kox exhibited dynamic changes during the transition from O to J. We postulated that in high excitation light, some other energy dissipation pathways may vastly outcompete against excitation energy transfer from a closed PSII trap to an open PSII, thereby giving the impression that connectivity seemingly does not exist. We also conducted a case study on the urban heat island effect on the heat stability of PSII using our method and showed that higher-temperature-acclimated leaves had a greater σPSII, lower kox, and a tendency of lower p towards more shade-type characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

38. InSAR and GNSS data fusion for improved urban heat island estimation using local climate zone classification

Author

Melika Tasan, Behzad Voosoghi, Saeid Haji-Aghajany, Mohammad Amin Khalili, and Diego Di Martire

Subjects

UHI, GNSS, InSAR, LCZ, Temperature, Physical geography, GB3-5030, Environmental sciences, GE1-350

Abstract

The phenomenon of the Urban Heat Island (UHI) is a common feature in city climates, impacting habitat quality and public health. The UHI refers to the temperature difference between metropolitan and countryside areas. This article introduces a new methodology for determining UHI using a high-resolution temperature map created by fusing Interferometric Synthetic Aperture Radar (InSAR) and Global Navigation Satellite Systems (GNSS) measurements. The validity of this method has been assessed by comparing the UHI results with the outputs of the Weather Research and Forecasting (WRF) model. Using the new approach, temperature determination focuses on the moist segment of the tropospheric delay. The wet tropospheric delay is divided into turbulent and non-turbulent components, with the first segment calculated using InSAR and the second using GNSS observations. After generating high-resolution temperature maps to compute the temperature difference between urban and non-urban regions and defining the UHI index, the research area was categorized into various classes based on land cover using the Local Climate Zone Classification (LCZ) approach. Finally, after calculating the UHI in different regions, the results were evaluated against the WRF model outputs. According to the statistical evaluations, the Root Mean Square Error (RMSE) of the UHI index obtained from the novel method and the WRF model outputs ranges from 0.7 to 0.4 Kelvin. The determination coefficient (R2) also varies from 0.85 to 0.9 in different months. These statistical markers illustrate the significant effectiveness of the suggested technique in computing the UHI phenomenon.

Published

2024

39. UHI ANALYZES FOR AREAS SUSCEPTIBLE TO LANDSLIDES IN THE CITY OF IAȘI.

Author

Gherasim, Paul, Mihai, Dima, Ion, Pascariu Alexandru, and Silvia, Popa Andreea

Subjects

*LANDSLIDE hazard analysis, *CITIES & towns, *CLIMATE change adaptation, *URBAN heat islands, *SUBURBS, *URBAN planning

Abstract

This study explores the intricate relationship between Urban Heat Islands (UHIs) and landslide vulnerability within the context of Iasi City, Romania. UHIs are characterized by elevated temperatures in urban areas compared to their surrounding rural areas, primarily resulting from human activities and urbanization. The combination of these two factors, UHI and landslide vulnerability, poses critical challenges for urban planning, environmental sustainability, and public safety. The research employs a multi-disciplinary approach, integrating remote sensing and geospatial analysis to assess the spatial distribution of UHI zones and their correlation with landslide susceptibility in Iasi City. Satellite imagery and meteorological data from recent years provide insights into the temporal dynamics of UHIs. Landslide susceptibility mapping is conducted through the analysis of geological, topographical, and hydrological factors, in adherence to HG 447/2003 guidelines. Results indicate that UHI zones in Iasi City exhibit distinct spatial patterns, with the urban core experiencing significantly higher temperatures compared to suburban areas. Furthermore, UHI zones are found to overlap with areas characterized by increased landslide vulnerability, especially in regions with steep slopes and poor drainage. This research contributes to a better understanding of the interplay between UHIs and landslides, providing valuable insights for policymakers, urban planners, and local authorities in implementing sustainable land use practices and climate adaptation measures in accordance with HG 447/2003 regulations to safeguard the future of Iasi City and similar urban areas facing similar challenges. [ABSTRACT FROM AUTHOR]

Published

2023

40. Innovative Pavement Solutions: A Comprehensive Review from Conventional Asphalt to Sustainable Colored Alternatives

Author

Anisa Riaz, Nof Yasir, Gul Badin, and Yasir Mahmood

Subjects

UHI, colored pavements, rutting, reflective coatings, sustainable pavements, Technology

Abstract

Climate change significantly impacts transportation infrastructure, particularly asphalt pavements. Similarly, the heat absorption of paved surfaces, especially conventional black pavements, significantly intensifies the urban microclimate. Paved surfaces, including asphalt pavements, account for over 30% of the covered surfaces and are vulnerable to rising temperatures, which cause not only pavement distress, such as rutting and cracking, but also urban heat islands (UHI). Sustainable pavement solutions, specifically colored pavements, have been investigated for their potential to mitigate these effects. This review presents an extensive overview of current pavement technologies, emphasizing conventional asphalt’s economic, environmental, and functional characteristics. A discussion of the benefits and challenges of colored pavements is also provided, including their ability to reduce UHI, enhance safety, and contribute to sustainable urban growth. This paper discusses advancements in pavement material science, the use of recycled materials, and the application of reflective coatings, providing insights into sustainable infrastructure development. Transitioning from conventional black pavements to sustainable colored alternatives is not merely a matter of material choice but a strategic transition toward resilient urban planning. Increasing demand for environmentally friendly infrastructure could prompt the construction industry to adopt colored pavements as a tool to promote environmental stewardship.

Published

2024

41. Thermal Behaviour of Different Land Uses and Covers in the Urban Environment of the Spanish Mediterranean Based on Landsat Land Surface Temperature

Author

Enrique Montón Chiva and José Quereda Sala

Subjects

urban climate, land surface temperature, UHI, CORINE Land Cover, Climate Engine Project, Geography. Anthropology. Recreation, Social Sciences

Abstract

Previous research has found higher temperature trends at urban observatories. This study examines in depth the features of the urban environment, the thermal behaviour of land use and land cover, and the changes that have taken place in five urban areas of the Spanish Mediterranean. The CORINE Land Cover database was used to delimit the primary land use land cover (LULC) and its changes between 1990 and 2018. Once this had been established, land surface temperatures (LSTs) between 1985 and 2023 were retrieved from the Landsat database available on the Climate Engine website. There has been a significant advance in artificial land uses, which have become the main uses in the urban areas in Valencia and Alicante. An analysis of the primary land cover showed the greatest thermal increase in artificial surfaces, especially in the industrial, commercial, and transport units that are common on their outskirts, without exception in any urban area. The results are less clear for urban fabrics and agricultural areas due to their diversity and complexity. The density of vegetation is a key factor in the magnitude of the UHI, which is higher in the urban areas with more vegetated agriculture areas, therefore showing lower LST than both industrial units and urban fabrics. Another important conclusion is the role of breezes in limiting or eliminating the strength of the UHI. Sea breezes help to explain the monthly variation of UHIs. Both bodies of water and areas of dense tree vegetation provided the lowest LST, a fact of special interest for mitigating the effects of heat waves in increasingly large urban areas. This study also concludes the different effect of each LULC on the temperatures recorded by urban observatories and enables better decision-making when setting up weather stations for a more detailed time study of the urban heat island (UHI).

Published

2024

42. A New GIS-Based Framework to Detect Urban Heat Islands and Its Application on the City of Naples (Italy)

Author

Rosa Cafaro, Barbara Cardone, Valeria D’Ambrosio, Ferdinando Di Martino, and Vittorio Miraglia

Subjects

UHI, UHI detection, heatwave, LST, GIS, ISODATA, Agriculture

Abstract

This research presents a GIS-based framework used to detect urban heat islands and determine which urban settlement elements are most critical when heatwave risks exist. The proposed method uses the Iterative Self-Organizing Data Analysis (ISODATA) clustering algorithm applied to the satellite land surface temperature distribution recorded during heatwaves for the detection of urban heat islands. A pixel classification confidence level maximization approach, obtained by running a maximum likelihood classification algorithm, is performed to determine the optimal number of clusters. The areas labeled as hotspots constitute the detected urban heat islands (UHIs). This method was tested on an urban settlement set up by the municipality of Naples (Italy). Comparison tests were performed with other urban heat island detection methods such as standard deviation thresholding and Getis-Ord Gi* hotspot detection; indices measuring the density of buildings, the percentage of permeable open spaces, and vegetation cover are taken into consideration to evaluate the accuracy of the urban heat islands detected. These tests highlight that the proposed method provides the most accurate results. It could be an effective tool to support the decision maker in evaluating which urban areas are the most critical during heatwave scenarios.

Published

2024

43. Experimental and Numerical Analysis on a Thermal Barrier Coating with Nano-Ceramic Base: A Potential Solution to Reduce Urban Heat Islands?

Author

Bruno Malet-Damour, Dimitri Bigot, and Garry Rivière

Subjects

Thermal Barrier Coating—TBC, experimental analysis, numerical analysis, UHI, UTCI, building performance, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Adopting a multiscale approach is crucial for optimizing urban and building performance, prompting inquiries about the link between a technology’s local efficiency (building scale) and its broader impact (city-wide). To investigate this correlation and devise effective strategies for enhancing building and city energy performance, we experimentally examined a commercial nano-ceramic Thermal Barrier Coating (TBC) on a small-scale building and assessed numerically its influence on mitigating Urban Heat Islands (UHIs) at a city scale, translated in our case by the use of the thermal comfort index: the Universal Thermal Climate Index (UTCI). Our results reveal that the coating significantly curbs heat transfer locally, reducing surface temperatures by over 50 ∘C compared to traditional roofs and attenuating more than 70% of heat flux, potentially alleviating air conditioning demands and associated urban heat effects. However, implementing such coatings across a city does not notably advance overall efficiency and might trigger minor overheating on thermal perception. Hence, while nano-ceramic coatings indirectly aid UHI mitigation, they are not a standalone fix; instead, an integrated strategy involving efficient coatings, sustainable urban planning, and increased vegetation emerges as the optimal path toward creating enduringly sustainable, pleasant, and efficient urban environments to counter urban heat challenges effectively.

Published

2023

44. Morphological and biochemical changes in Quercus humboldtii in response to warmer and polluted urban areas in a tropical Andean city.

Author

Camargo, Miguel Angel, Melgarejo, Luz Marina, Faerito, Geisa, Pérez, Ingry, and Salgado-Negret, Beatriz

Abstract

The rapid growth of urban population has significantly changed human settlement patterns, leading to a decline in air quality and changes in climatic conditions in urban areas. Trees are recognized as nature-based solutions because they can remove particles from the air and regulate the climate. However, trees are negatively affected by pollution and temperatures, which represent a challenge for urban planning, management, and human health. To assess the impact of urban pollution and warmer climates on functional traits, we conducted a study using Quercus humboldtii , an endangered tree species endemic to Colombia and Panamá that dominates Andean forests and urban green areas in Bogotá. We selected three localities with contrasting pollution levels and climate conditions and measured 10 morphological and biochemical traits in six individuals at each location. Our findings revealed that Q. humboldtii adjusted morphological and biochemical traits in response to the environmental challenges posed by urban environments. The functional strategies varied between individuals with thin and large leaves and acidic pH in the colder and unpolluted native forest, while others displayed a conservative resource strategy (high leaf dry matter content) and neutral pH in the warmer and most polluted locality. Despite these differences, several traits indicate that Q. humboldtii is not a species tolerant to pollution. This is further supported by the air pollution tolerance index (APTI) values. Our results suggest that Q. humboldtii should be planted in areas of Bogotá with low pollution levels in order to promote its long-term survival and support ecosystem services. [ABSTRACT FROM AUTHOR]

Published

2024

45. Reviewing the Potential of Phase Change Materials in Concrete Pavements for Anti-Freezing Capabilities and Urban Heat Island Mitigation.

Author

Asadi, Iman, Jacobsen, Stefan, Baghban, Mohammad Hajmohammadian, Maghfouri, Mehdi, and Hashemi, Mohammad

Subjects

PHASE change materials, URBAN heat islands, CONCRETE pavements, FREEZE-thaw cycles, SOIL freezing, COMPRESSIVE strength, THERMAL properties

Abstract

This study provides an overview of how phase change materials (PCMs) can improve the resistance of concrete pavement to freeze–thaw cycles and mitigate the urban heat island (UHI) effect. The investigation covers different types of PCMs and methods for integrating them into concrete pavement, as well as the mechanical properties and compressive strength of concrete pavement when employing various PCMs. Prior studies have identified porous aggregates, microencapsulation, and pipelines containing liquid PCM as common approaches for PCM integration. Researchers have observed that the utilization of PCMs in concrete pavement yields favorable thermal properties, suggesting the potential for anti-freezing and UHI mitigation applications. However, the choice of PCM materials should be informed by local climate conditions. [ABSTRACT FROM AUTHOR]

Published

2023

46. Topoclimatic characteristics of Zahlé (Eastern Lebanon): Thermal breezes and urban heat island phenomenon – Preliminary results.

Author

Zeinaldine, Rabih and Dahech, Salem

Subjects

*URBAN heat islands, *METEOROLOGICAL stations, *SEA breeze, *ATMOSPHERIC temperature, *CITIES & towns

Abstract

This work examines the topoclimatic characteristics of Zahlé, specifically thermal breezes and the Urban Heat Island (UHI) phenomenon. Three-hourly data from 1994 to 2021 from conventional weather stations shows a frequency of breezes in the summer season of 74%. In Rayak, mountain and valley breezes have been noticed alternating between day and night, channeled by the topography of the Bekaa Valley. In Houch El Oumaraa, valley-sea breezes dominate during the day and mountain breezes occur at night. These breezes affect the distribution of air temperature and humidity, creating an average thermal contrast of 4.3°C between the city and its surrounding countryside at night. Data from weather stations implanted in 2022 and car surveys at a fine scale (half hourly data) level has confirmed the previous findings: During nighttime, the mountain breeze dominates and brings cool and moist air from the mountains into the valley at a low speed (<1 m/s). During the daytime, a valley breeze dominates and can reach speeds of up to 4 m/s. Additionally, a sea breeze with faster speeds is detected. The car surveys indicate a temperature variation of 9 °C between the valley and the surrounding urban areas during early morning. [ABSTRACT FROM AUTHOR]

Published

2023

47. The Development of the Vulnerability Index (VI) using Principal Component Analysis (PCA).

Author

Salleh, Siti Aekbal, Isa, Nurul Amirah, Siman, Nurul Aida, Zakaria, Nur Hidayah, Pintor, Lynlei L., Yaman, Rostam, and Dom, Nazri Che

Subjects

PRINCIPAL components analysis, PEARSON correlation (Statistics), URBAN heat islands, URBAN planning, CITIES & towns

Abstract

Climate change elevates the rate of emergence of urban heat islands (UHIs), especially in the tropics. UHIs severely affect human comfort and health. Many studies have suggested that urban areas should be properly mitigated or planned. To cope with this, it is best to present the issue using easy-to-understand approaches to allow for better decision-making, especially during urban planning. Based on the information, adaptations and mitigation strategies can be suggested in order to reduce the impact. Hence, this research was aimed at determining the heat vulnerability index (HVI) of urban areas. This study was conducted in Malaysia in the Klang Valley, a tropical city with a complex urban morphology. Remote sensing techniques were employed to extract and derive the spatial index values for exposure, sensitivity, and adaptive capacity. A principal component analysis (PCA) was used to estimate the vulnerability as well as to generate the HVI. The most vulnerable districts were found to be Petaling (1.00), Kuala Lumpur (0.99), and Putrajaya (0.95). Kuala Lumpur had a level of exposure that was high (0.56), a level of sensitivity that was high (0.84), and capacity to adapt that was low (0.54), while Petaling had a high exposure value (0.56), very high sensitivity (1), and high adaptive capacity (0.72). A Pearson's correlation (r) test also revealed that the variables used were highly correlated. From the preliminary findings, the vulnerability of the population to high temperatures in the Klang Valley can be identified to help develop adaptative plans that are targeted as a response to rapid warming in the future in Malaysia. [ABSTRACT FROM AUTHOR]

Published

2023

48. Modeling of Urban Heat Island using Artificial Neural Network and Remote Sensing in Tehran.

Author

Zoghi, Navid, Azizi, Zahra, and Behzadi, Saeed

Subjects

URBAN heat islands, ARTIFICIAL islands, REMOTE sensing, LAND surface temperature, RURAL geography

Abstract

The Urban Heat Island phenomenon happens due to the differences in the thermal behavior between urban and rural areas which many factors such as vegetated, water, impervious and built-up areas could affect this phenomenon. Urban Heat Island consists of three types: Canopy heat island, Boundary heat island, and surface heat island. In this study, the surface type of urban heat island is analyzed. In this paper, 13 TM/ETM+ images have been obtained from 1990 to 2015(an image biennially). Urban Heat Islands effects are much more severe in summer; therefore, all images have been taken in summer. NDVI, IBI, albedo, and also land surface temperature were derived from images. Various neural network topologies have been used to identify the best model for predicting the urban heat island intensity. The LST of 2016 has been considered as validation data, thus the best result from fitting structures was obtained from Cascade which the Bayesian Regularization was its training algorithm (R-squared=0.62, RMSE=1.839 K). [ABSTRACT FROM AUTHOR]

Published

2023

49. Review on Porous Asphalt Pavements: A Comprehensive Resolution for Stormwater Management and Applications in Current Built Environment

Author

Darshan, N. and Kataware, Aniket V.

Published

2024

50. Urban Heat: UHI and Heat Stress Threat to Megacities

Author

Panda, Jagabandhu, Mukherjee, Asmita, Choudhury, Animesh, Biswas, Sreyasi, Chatterjee, Uday, editor, Shaw, Rajib, editor, Kumar, Suresh, editor, Raj, Anu David, editor, and Das, Sandipan, editor

Published

2023