New study shows ways to maximize temperature-lowering benefits of Chicago’s green roofs

Source(s): University of Notre Dame

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Extreme heat poses a unique challenge to cities in the United States. According to the National Weather Service, extreme heat accounts for 20 percent of deaths by natural hazard in the United States, taking an average of 130 lives per year.

With exploding urban populations and increasing migration, cities are struggling to keep up with increases in extreme heat-related climate impacts, threatening human health, straining energy resources and reducing economic productivity.

Heavily populated cities like Chicago have made an effort to mitigate the effects of extreme heat, implementing green roofs designed to provide insulation and significantly lower temperatures.

Now in a new study published in Environmental Research Letters, researchers have created an integrated framework to identify which neighborhoods would benefit most from green roofs – and provide city officials with a strategic approach to ensure the best return on their investment to beat the heat.

“We wanted to look at the potential of these types of mitigation strategies through the eyes of the mayor, city manager or city planner,” said Ashish Sharma, research assistant professor in the Department of Civil and Environmental Engineering and Earth Sciences at the University of Notre Dame, who led the study for Notre Dame’s Environmental Change Initiative. “If you’re considering factors like temperature and electricity consumption to improve quality of life, reduce energy loads and lower temperatures, you need a scientific and interdisciplinary approach. We examined temperatures based on current climate models, electricity consumption (air conditioning) loads from public available data, and socioeconomic vulnerability of census tracts to identify susceptible hotspots. The goal of this study is to help city officials make more-informed decisions when it comes to urban planning.”

Sharma said Chicago was an ideal choice for such a study, as extreme heat has been a particular challenge for the city. During a particular brutal heat wave in the summer of 1995, more than 700 people in Chicago died due to extreme heat. Previous studies found the impact was highest among disadvantaged neighborhoods.

According to the City of Chicago’s website, green roof coverage accounts for an estimated 5.5 million square feet, a number that is expected to rise given the city’s goal of seeing 6,000 green roofs within the city by 2020.

Though green roofs have lowered temperatures and contributed to improved air quality, they are a response to hotter temperatures, not a fix. The reality of climate change shows little relief in sight when it comes to extreme heat. Temperatures are expected to rise, with comparable heat waves expected to occur at the rate of twice a decade, according to current models, rising to five times per decade in high-emission scenarios.

Sharma and his team simulated temperature data and used publicly available electricity consumption for the entire Chicago region. They then calculated a social vulnerability assessment, collecting variable data from the Centers for Disease Control and the American Community Survey at the census tract. The results became the Heat Variability Index (HVI). The combination of these factors allowed researchers to take a closer look at optimal locations for green roof implementation.

“It’s critical not only to identify where green roofs can lower the temperatures most, but also to identify populations that are disproportionately affected by high temperatures,” Sharma wrote in the study.

Looking only at electrical consumption, those areas where air conditioning is used most, for example, may not account for affluence. In certain neighborhoods, residents can afford the cost, which ultimately makes them less vulnerable. In lower-income neighborhoods, some residents can’t afford to turn their air conditioning on, or don’t have access to air conditioning at all.

By layering data, the result of the study is a comprehensive look at the utility of green roofs to reduce temperatures, ease electricity consumption and help the populations most vulnerable to heat exposure.

“What we’ve seen when it comes to urban planning is decisions are made without interdisciplinary input,” Sharma said. “Now, we have a framework for answering the question, how do we improve urban resilience to extreme heat?”

The next step, Sharma said, is to enhance the framework to account for multiple variations, such as variables that take place throughout the day or season so models can be tailored to other cities and their unique conditions.

Co-authors of the study include Alan Hamlet, Milan Budhathoki and Harindra Fernando at Notre Dame; Sierra Woodruff, formerly of Notre Dame and currently at the Department of Landscape Architecture and Urban Planning at Texas A&M University; and Fei Chen with the Research Application Laboratory at the National Center for Atmospheric Research.

The study was funded by the Notre Dame Environmental Change Initiative, the Notre Dame Center for Research Computing, the National Center for Atmospheric Research supercomputing resources, and the United States Department of Agriculture-National Institute of Food and Agriculture’s Agriculture and Food Research Initiative.

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