Urban Forest Health

Urban Forest Health

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sector_urban_forest_health
Taxonomy Alias
urban_forest_health
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Many invasive species, insect pests, and pathogens will increase or become more damaging in the Chicago area by the end of the century.

Submitted by sdhandler on

Changes in climate may allow some invasive plant species to survive further north than they had previously. Warmer temperatures could aid the spread of kudzu and privet across Illinois by the end of the century. Milder winters could be beneficial for the emerald ash borer, which is already causing extensive damage to ash trees across the area. Drought stress, which could occur later in the growing season, may make trees susceptible to attacks by boring insects such as bronze birch borer and two-lined chestnut borer and to diseases such as Botryosphaeria canker.

An analysis of vulnerability that combines model projections, shifts in heat and hardiness zones, and adaptive capacity showed that 15 percent of the trees currently present in the Chicago region have either moderate-high or high vulnerability to climate

Submitted by sdhandler on

Overall vulnerability of trees in the Chicago region can be estimated by considering the impacts on individual trees using model projections or changes in heat or hardiness zone, together with the adaptive capacity of trees as described in the previous section. Two vulnerable species are nonnative (Japanese red pine and Katsura tree). Vulnerable species tend to be native to mountainous or northern areas. Examples include black cherry, red and white pine, balsam fir, quaking and big tooth aspen, white spruce, gray and paper birch, and Douglas fir.

Adaptive capacity of 179 species in the Chicago area was evaluated using scoring systems for planted and natural environments, with invasive species among those with the highest capacity to adapt to a range of stressors.

Submitted by sdhandler on

To understand the capacity of tree species and cultivars in the area to adapt to other effects of climate change like changes in disturbances, pests, and diseases, we relied on a scoring system developed by researchers. Scores were generated for all species listed as occurring in the Chicago area according to the recent Regional Tree Census. In addition, we included several other species that are being considered on planting lists for the City of Chicago and the Chicago Region Trees Initiative. For species that are only present in a cultivated setting, we only generated one score.

For species for which no model information is available (rare, nonnative, or cultivars), shifts in heat and hardiness zones could have a positive effect on about 23 percent of species that are either present in the Chicago area or considered for planting,

Submitted by sdhandler on

Species that are currently marginal for hardiness zone (lowest zone is 5 or higher) may experience benefits from milder winters. Species that are marginal for heat zone (highest zone is 7 or lower) may experience negative effects from hotter summers. Based on this method, 24 species (23 percent of those evaluated) may experience a positive effect from an increase in hardiness zone over the next century (Brandt et al., 2017, table 4). Twelve of these species are currently found in the region according to the Regional Tree Census (Nowak et al.

Species distribution modeling for native species suggests that suitable habitat may decrease for 15 primarily northern species and increase or become newly suitable for 47 species in the Chicago area.

Submitted by sdhandler on

Of 70 native species examined for the Chicago Wilderness region, suitable habitat for 15 of them was projected to decline under both climate scenarios. One species projected to decline in habitat suitability, black cherry, is one of the most common species in the Chicago region according to the Regional Tree Census. Other common species projected to decline are white oak, eastern white pine, quaking aspen, and paper birch.

Increases in temperature may lead to an increase of 1-2 hardiness zones and 2-4 heat zones in the Chicago area.

Submitted by sdhandler on

Chicago and areas right around Lake Michigan in Indiana are in hardiness zone 6a (mean annual lowest temperature -10 to -5 °F; -21 to -23 °C), and most of the surrounding area is currently in hardiness zone 5b (mean annual lowest temperature -15 to -10 ° F; -26 to -23 °C). By the end of the century, hardiness zones are expected to shift to between 6a and 6b under a low emissions scenario up to potentially 7b under a high emissions scenario. However, it is important to keep in mind that hardiness zones are based on a 30-year average and some very cold winters could still be possible.

Extreme and exceptional droughts in the Chicago area may increase in duration, frequency, and spatial extent compared to the end of the 20th century

Submitted by sdhandler on

Over the past century (1916 to 2007), the frequency of extreme and exceptional droughts in Illinois and Indiana decreased. Exceptional droughts are the most severe form of drought experienced in the region, and extreme droughts are the second most severe. Until the recent drought of 2012, all of the exceptional droughts were prior to 1970, and the majority of them occurred during the dust bowl era of the 1930s. In general, more recent drought events have been less intense in their severity, duration, and spatial extent compared to earlier in the 20th Century.