Role of Azadirachta indica (Neem) and Polyalthia longifolia (Asopalav) trees for improving outdoor thermal environment in unorganized urban settings

This study assesses the effect of native trees in improving the outdoor thermal environment of an educational institute located in the semi-arid city of Ahmedabad, India. The study area was modelled using ENVI-met and validated against the field measurements. Physical properties of 8 species (55 samples) found in the city were collected. Azadirachta indica (Neem) and Polyalthia longifolia (Asopalav) are among the top 10 species found in the city. The campus has limited space availability and green cover, hence adding more trees is not possible. Hence, two separate scenarios of only those two species were developed by replacing the existing trees. The reduction in air temperature, mean radiant temperature and physiological equivalent temperature (PET) against existing scenario by Asopalav trees at a non-shaded site was found to be up to 1.0 degrees C, 2.2 degrees C and 2.0 degrees C whereas by Neem trees was found to be up to 1.1 degrees C, 2.3 degrees C and 2.1 degrees C. This similarity was likely due to their similar crown widths. The attenuation of direct short-wave radiation by Neem trees was more due to higher Leaf Area Density (LAD). Trees with higher LAD and wider crowns are found to be more useful in improving the outdoor thermal environment in dense urban settings with space constraints.

Automated summary

This study evaluates the impact of native trees on the outdoor thermal environment of an educational institute in the semi-arid city of Ahmedabad, India. It suggests that trees with higher Leaf Area Density (LAD) and wider crowns are more effective in improving outdoor thermal environments in dense urban settings with limited space availability.