Study takes aim at mitigating the human impact on the Central Valley, California



Study takes aim at mitigating the human impact on the Central Valley, California

Posted: 27 Mar 2015 10:22 AM PDT

Study of California’s Central Valley shows that as temperature-mitigating technologies are deployed, other environmental factors like pollution become a concern. As more people move to different regions of the country it will require planners to use as many tools as they can to develop urban areas that satisfy population demands and not over burden the environment. A new study from Arizona State University (ASU) details some of the dynamics at play as one region of the country, the Central Valley of California, braces for substantial population growth and all it entails. The study, based on computer simulations using the ASU Advanced Computing Center, of rural to urban land conversion shows that as areas of California grow and develop the resulting built environment could generate additional heat (called the urban heat island, or UHI). But UHI can be mitigated using new technologies and the latest in sustainable design techniques, said Matei Georgescu, the author of “Challenges associated with adaptation to future urban expansion,” which appears in the April 1, 2015 issue of the Journal of Climate. Finding the right combinations of technologies and techniques will be key.This research examines for the first time, climate impacts for rapidly expanding urban areas within California exclusively due to anticipated conversion of existing landforms to the built environment, such as variable density residential dwellings and commercial infrastructure,” said Georgescu, an assistant professor in ASU’s School of Geographical Sciences and Urban Planning and author of the study. “In addition, commonly proposed urban climate adaptation strategies are examined to assess their efficacy in mitigating urban induced warmth,” he explained. “Given that decisions about future land use change in this potentially heavily populated area have yet to be made, it is critical to understand environmental consequences of such development pathways prior to their taking place.” Georgescu focused his study on the Central Valley area of California, a large inland area that ranges from Redding to the north to past Bakersfield to the south. The region encompasses some 22,500 square miles and currently is the country’s richest agricultural area. It also is the fastest growing region of California and is expected to add 5 million people by the year 2060 and millions more by 2100….

The focus of the study was on those regions of California projected to undergo the greatest conversion to urban land use and covers,” said Georgescu, who also is a senior sustainability scientist at ASU’s Julie Ann Wrigley Global Institute of Sustainability. “Modification of large swaths of existing California landscapes to urban areas raises regional climate concerns for future residents.” What Georgescu found was that as the state deploys temperature-mitigating technologies there are secondary effects that appear to take place — less daytime air turbulence — which could lead to higher concentrations of pollutants. “This finding shows that as temperature mitigating technologies of the sort investigated in this research are deployed, they considerably reduce daytime air turbulence, and therefore identical future emissions of pollutants [e.g., particulate matter (PM)] will be confined to a smaller volume, decreasing perceivable air quality,” added Georgescu. The research shows that future environmentally sensitive development will need to rely on incorporating clean energy technologies that limit emissions, Georgescu said. For example, the impact of more efficient transit and transportation systems with decreased PM emissions are likely to play important roles in terms of actual air quality impacts. He added that a principal take home message of this work is the significance of such urban adaptation strategies extending beyond just near-surface temperature impacts, since humans must breathe this modified air. “The bulk of the UHI effect occurs due to reduced loss of energy from the urban infrastructure during nighttime hours,” Georgescu said. “The strategies explored in this work and those that are widely considered today as reasonable and practical choices illustrate much greater capability to reduce daytime temperatures, but exhibit little effects during the nighttime hours, when reduction of the UHI is required most. Consequently, common urban adaptation approaches do not directly tackle the effects of the UHI.” “So, orientation of buildings and preferred landscape configurations that permit long-wave radiation loss during nighttime hours and directly target impacts associated with urban expansion are critical to examine further,” he added.



M. Georgescu. Challenges associated with adaptation to future urban expansion. Journal of Climate, 2014; 141210105735004 DOI: 10.1175/JCLI-D-14-00290.1

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