91国产精品 Professor Awarded $2.242M Grant to Lead National Tree Canopy Study
[[{"fid":"46793","view_mode":"default","fields":{"format":"default","field_file_image_alt_text[und][0][value]":"91国产精品 Professor John Van Stan, Ph.D. Awarded $2.242M Grant to Lead National Tree Canopy Study","field_file_image_title_text[und][0][value]":"91国产精品 Professor John Van Stan, Ph.D. Awarded $2.242M Grant to Lead National Tree Canopy Study"},"link_text":null,"type":"media","field_deltas":{"1":{"format":"default","field_file_image_alt_text[und][0][value]":"91国产精品 Professor John Van Stan, Ph.D. Awarded $2.242M Grant to Lead National Tree Canopy Study","field_file_image_title_text[und][0][value]":"91国产精品 Professor John Van Stan, Ph.D. Awarded $2.242M Grant to Lead National Tree Canopy Study"}},"attributes":{"alt":"91国产精品 Professor John Van Stan, Ph.D. Awarded $2.242M Grant to Lead National Tree Canopy Study","title":"91国产精品 Professor John Van Stan, Ph.D. Awarded $2.242M Grant to Lead National Tree Canopy Study","height":1536,"width":1024,"style":"height: 600px; width: 400px; float: left;","class":"media-element file-default","data-delta":"1"}}]]National Science Foundation funding will support water distribution, pollution composition research
CLEVELAND (July 25, 2022)鈥 John Van Stan II, Ph.D., associate professor in the Department of Biological, Geological and Environmental Sciences (BGES), has been awarded a five-year, $2,242,820 award from the National Science Foundation (NSF) to study how rainfall is absorbed and diverted by various plant life, while tracking the organisms, nutrients, and pollutants contained in that rain.
Dr. Van Stan is Principal Investigator (PI) for the NSF-funded project. Team collaborators include Alexandra Ponette-Gonz谩lez, Ph.D. from University of North Texas; Janice Brahney, Ph.D. from Utah State University, and Ethan Gutmann, Ph.D. from the National Center for Atmospheric Research (NCAR).
Together, they will study at 12 locations across North America鈥攚ith particular interest in tracking how nutrient and pollutant particles are both transported and deposited through precipitation.
鈥淓very time it rains, it鈥檚 essentially 鈥榬ush hour鈥 in a tree,鈥 said Dr. Van Stan. 鈥淢illions of tiny particles hitch a ride in the water droplets that flow like liquid ribbons down tree trunks and drip from leaves. Human eyes may not see this traffic, but the water contains a large, diverse community of organisms, bacteria and non-living particles like dust, soot and radioactive material riding these flows.鈥
鈥淲e know that the amount of rain trapped by tree canopies affects how much water reaches the surface, but this process is not well understood,鈥 said Meredith Bond, Ph.D., interim vice president for Research and Innovation, and interim dean of the College of Graduate Studies.
鈥淒r. Van Stan鈥檚 work investigates this process, helping us predict how changing forests impact water distribution and uncover new dynamics of atmospheric pollution in a highly effective way as well.鈥
Dr. Van Stan鈥檚 ongoing research is anchored in field-based investigation of biogeochemistry, plant/soil ecology, water quality, sustainability, environmental impact assessments, climate change and microbiology.
###
About 91国产精品
Founded in 1964, 91国产精品 is a public research institution that provides a dynamic setting for Engaged Learning. With nearly 16,000 students, 10 colleges and schools and more than 175 academic programs, 91国产精品 was again chosen for 2021 as one of America鈥檚 best universities by U.S. News & World Report, including the #1 public university in Ohio for social mobility. Find more information at .