Arboreal Urban Cooling Is Driven by Leaf Area Index, Leaf Boundary Layer Resistance, and Dry Leaf Mass per Leaf Area: Evidence from a System Dynamics Model

Heat waves are becoming more frequent due to climate change. Summer heat waves can be particularly deadly in cities, where temperatures are already inflated by abundant impervious, dark surfaces (i.e., the heat island effect). Urban heat waves might be ameliorated by planting and maintaining urban forests. Previous observational research has suggested that conifers may be particularly effective in cooling cities. However, the observational nature of these studies has prevented the identification of the direct and indirect mechanisms that drive this differential cooling. Here, we develop a systems dynamics representation of urban forests to model the effects of the percentage cover of either conifers or broadleaf trees on temperature. Our model includes physiological and morphological differences between conifers and broadleaf trees, and physical feedback among temperature and energy fluxes. We apply the model to a case study of Vancouver, BC, Canada. Our model suggests that in temperate rainforest cities, conifers may by 1.0 degrees C cooler than broadleaf trees; this differential increases to 1.2 degrees C when percentage tree cover increases from 17% to 22% and to 1.7 degrees C at 30% cover. Our model suggests that these differences are due to three key tree traits: leaf area index, leaf boundary layer resistance, and dry mass per leaf area. Creating urban forests that optimize these three variables may not only sequester CO(2 )to mitigate global climate change but also be most effective at locally minimizing deadly urban heat waves.

Automated summary

Heat waves are increasing due to climate change. Planting and maintaining urban forests, especially conifers, can help cool cities and reduce the impact of heat waves. A model developed for Vancouver, BC, Canada, suggests that conifers can be 1.0-1.7 degrees C cooler than broadleaf trees, depending on the tree cover percentage.