PT - JOURNAL ARTICLE AU - Jayasooriya, V.M. AU - Sirimanne, A.P. AU - Silva, R.M. AU - Muthukumaran, S. TI - Role of Urban Trees in Enhancing the Thermal Comfort of Rapidly Urbanizing Cities: An Analysis of Tropical Asian Tree Species Based on Physiological Equivalent Temperature (PET) AID - 10.48044/jauf.2024.014 DP - 2024 Sep 01 TA - Arboriculture & Urban Forestry PG - 326--345 VI - 50 IP - 5 4099 - http://auf.isa-arbor.com/content/50/5/326.short 4100 - http://auf.isa-arbor.com/content/50/5/326.full AB - Background Thermal comfort significantly influences well-being, productivity, and living conditions in outdoor environments, particularly in rapidly urbanizing, warm, humid tropical climates. This study assessed the influence of 5 five common urban tree species (Cassia fistula, Tectona grandis, Plumeria obtusa, Mangifera indica, and Terminalia catappa) on outdoor thermal comfort, using the physiological equivalent temperature (PET) index in Colombo, Sri Lanka, as a case study for a tropical humid city.Methods Field data collection encompassed measuring air and surface temperature, relative humidity, wind velocity, solar radiation, cloud cover, and sky view factor under tree canopies and adjacent exposed areas. The RayMan model was employed to estimate PET in both areas.Results Our findings indicated that PET was consistently higher in exposed areas compared to under the tree canopy, with an average difference of 5.61 °C. Among tree parameters, sky view factor (SVF) demonstrated the most significant correlation with thermal comfort, followed by crown diameter and tree height. Furthermore, notable variations in thermal comfort were observed among tree species, with Terminalia catappa outperforming Plumeria obtusa, particularly on sunny days.Conclusion Regression analysis highlighted the importance of integrating trees with large crowns and low SVF to create thermally comfortable outdoor spaces. Consequently, Terminalia catappa emerged as the most suitable tree species for enhancing thermal comfort in Colombo’s outdoor urban areas out of the 5 selected species. These insights will aid in selecting appropriate tree species and parameters, fostering improved outdoor thermal comfort in tropical humid cities, and facilitating sustainable urban planning and design strategies.