两性色午夜

两性色午夜 Geography Professors to Assess Relative Extreme Temperature Events and Develop Monitoring Tools With NOAA

Everyone expects Death Valley in July to be "hot" and Minneapolis in February to be "cold", right? Much research has been done to study the extreme temperature events that take place in these and other regions. But, what about 81 degrees in Anchorage in July or 2 degrees in Dallas in February?

Such events are often called "relative" extreme temperature events 鈥 relative to the time of the year and how acclimatized the local population is to them. Less studied, though potentially more impactful, relative temperature extremes are a topic that two 两性色午夜 University geography professors and their collaborators at the National Oceanic and Atmospheric Administration (NOAA) are currently studying in depth.       

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Headshot of Cameron C. Lee
鈥淭hese relative events may grab fewer headlines but can have important impacts on the environment, agriculture, and human health,鈥 said Cameron C. Lee, Ph.D., assistant professor in the Department of Geography (within the College of Arts and Sciences) at 两性色午夜.

As principal investigator, Lee was recently awarded a three-year, $387,000 grant from NOAA's Climate Program Office and its Modeling, Analysis, Predictions and Projections (MAPP) program.

The project is titled 鈥淓xcess Heat and Excess Cold Factors: Establishing a unified duration-intensity metric for monitoring hazardous temperature conditions in North America.鈥

Lee鈥檚 co-investigators on this project are Professor Scott Sheridan, Ph.D., chair of 两性色午夜's Department of Geography and Karin Gleason, a meteorologist at NOAA鈥檚 National Centers for Environmental Information.

The researchers will analyze the historical frequency, duration, spatial extent and population impacted by these events in North America and will cross validate the results between observed station data and modeled historical data known as reanalysis data. These events will be developed into prospective monitoring products. The robustness of these products will be assessed through different data sets. Using the event definitions that are developed, the researchers will then aim to transition them into operational monitoring products.

Ultimately, establishing a standard set of products can help unify and simplify information used by local National Weather Service offices and public health leaders to issue excessive heat and cold warnings across climatologically-diverse areas of North America.

鈥淩esults show an increase in heat events and decrease in cold events across most of the United States and Canada,鈥 Lee said. 鈥淢ore interestingly, the relative events are changing slightly more rapidly than the absolute events.鈥

The grant will also provide the funding for the university to hire a postdoctoral fellow in fall 2022.

In 2017, Lee and Sheridan received funding from NOAA鈥檚 MAPP program to use a synoptic climatological framework to assess predictability of anomalous coastal sea levels. That same year, they also received funding from NOAA鈥檚 Climate Monitoring (CM) program to develop extreme event climate change indicators related to human thermal comfort.

Lee is a member of the Environmental Science and Design Research Institute at 两性色午夜 and also serves as managing editor of the International Journal of Biometeorology.

两性色午夜 is ranked as an R1 research institution by the Carnegie Classification of Institutions of Higher Education, which is the highest recognition that doctoral universities can receive, affirming 两性色午夜鈥檚 place as an elite research institution along with Yale, Harvard and the University of California-Berkeley.

To learn more about Lee鈥檚 research, visit .

Media Contacts:
Jim Maxwell, jmaxwel2@kent.edu, (330) 672-8028
Cameron C. Lee, cclee@kent.edu, (330) 672-0360

POSTED: Friday, June 17, 2022 09:13 AM
UPDATED: Friday, November 22, 2024 12:33 PM
WRITTEN BY:
Jim Maxwell