Abstract
Urban trees play an important role in helping cities adapt to climate change, but also are vulnerable to changes in climate themselves. We developed an approach for assessing vulnerability of urban tree species and cultivars commonly planted in cities in the United States Upper Midwest to current and projected climate change through the end of the 21st century. One hundred seventy-eight tree species were evaluated for their adaptive capacity to a suite of current and future-projected climate and urban stressors using a weighted scoring system based on an extensive literature review. These scores were then evaluated and adjusted by leading experts in arboriculture in the region. Each species or cultivar’s USDA Hardiness Zone and American Horticultural Society Heat Zone tolerance was compared to current and future heat and hardiness zones for 14 municipalities across Michigan, Wisconsin, and Minnesota using statistically downscaled climate data. Species adaptive capacity and zone tolerance was combined to assign each species one of five vulnerability categories for each location. We determined the number of species and trees in each category based on the most recent municipal street tree data for each location. Under a scenario of less climate change (RCP 4.5), fewer than 2% of trees in each municipality were considered highly vulnerable across all 14 municipalities. Under a scenario of greater change (RCP 8.5), upward of 25% of trees were considered highly vulnerable in some locations. However, the number of vulnerable trees varied greatly by location, primarily because of differences in projected summer high temperatures rather than differences in species composition. Urban foresters can use this information as a complement to other more traditional considerations used when selecting trees for planting.
Highlights
Urban forests are being increasingly recognized for their important role in helping cities adapt to and mitigate climate change (Janowiak et al, 2021)
Urban trees can be impacted by climate change, facing highly variable environmental conditions that produce a wide range of growth responses based on species, site interactions, and climatic variability
The goal of this study was to develop a standardized method for assessing vulnerability of urban trees across cities, with a focus on the United States Upper Midwest
Summary
Urban forests are being increasingly recognized for their important role in helping cities adapt to and mitigate climate change (Janowiak et al, 2021). Vegetation density tends to decrease contributing to the rise in surface temperatures by several degrees (Andersson et al, 2020). Rising temperatures from both land use change and climate change can lead to reductions in growth and indicators of stress such as crown dieback, dead branches, and epicormic growth (Zhang and Brack, 2021). Climate change-induced stress on trees is amplified in urban environments, where the urban heat island effect, impervious surfaces, reduced air quality, and altered soils create conditions that can dramatically reduce growth and survival (Nowak et al, 2010). Substantial crown dieback due to increases in drought and heatwave severity (Zhang and Brack, 2021) and reduced tree canopy increases the urban heat-related illness of residents, exacerbating existing inequalities in urban canopy distribution (Jung et al, 2021)
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