University Presentation Showcase: Undergraduate Division
Using GIS to Analyze Tree Cover and Carbon Sequestration on EKU's Richmond Campus
Presenter Hometown
Richmond, KY
Major
Environmental and Applied Geology
Department
Geosciences
Degree
Undergraduate
Mentor
Kelly Watson
Mentor Department
Geosciences
Recommended Citation
Phelps, Amber, "Using GIS to Analyze Tree Cover and Carbon Sequestration on EKU's Richmond Campus" (2024). University Presentation Showcase Event. 10.
https://encompass.eku.edu/swps/2024/undergraduate/10
Abstract
Trees on campus provide important urban canopy cover and numerous economic, social, and environmental benefits. In 2020, spatial and attribute data were collected for 3,024 trees on EKU’s Richmond campus. The objectives of this project are 1) to assess the amount of carbon captured and stored by campus trees, also called carbon sequestration, which in turn improves the air quality of our community and helps mitigate the effects of climate change; 2) Address campus tree health by identifying trees vulnerable to loss due to insect pests (e.g., emerald ash borer, oak wilt); 3) Create a visual of campus tree cover based on tree species, tree health, and canopy cover. The results of this project can be used to locate sites where new trees may be planted in the future, locate areas of risk for the spread of tree diseases, understand how much carbon our trees capture and remove from the atmosphere, and to view overall canopy coverage and assess temperature regulation and storm drainage.
Presentation format
Poster
Using GIS to Analyze Tree Cover and Carbon Sequestration on EKU's Richmond Campus
Trees on campus provide important urban canopy cover and numerous economic, social, and environmental benefits. In 2020, spatial and attribute data were collected for 3,024 trees on EKU’s Richmond campus. The objectives of this project are 1) to assess the amount of carbon captured and stored by campus trees, also called carbon sequestration, which in turn improves the air quality of our community and helps mitigate the effects of climate change; 2) Address campus tree health by identifying trees vulnerable to loss due to insect pests (e.g., emerald ash borer, oak wilt); 3) Create a visual of campus tree cover based on tree species, tree health, and canopy cover. The results of this project can be used to locate sites where new trees may be planted in the future, locate areas of risk for the spread of tree diseases, understand how much carbon our trees capture and remove from the atmosphere, and to view overall canopy coverage and assess temperature regulation and storm drainage.
