USU Doctorate Student Wins Prestigious Water Science Award
Scientists have typically assumed that forest disturbances reduce evaporation and transpiration and increase the amount of water available to streams. But new research at Utah State University has shown that in dry climates the opposite can occur and disturbing forests actually results in less water becoming available.
Sara Goeking, along with co-author and faculty mentor David Tarboton, received the prestigious 2022 Editors’ Choice Award from the American Geophysical Union journal Water Resources Research. Their study, based on forest inventory and analysis data, explores the complex relationship between forest disturbance and water resources in the Western United States.
Sara Goeking (above), along with co-author and faculty mentor David Tarboton, received the prestigious 2022 Editors’ Choice Award from the American Geophysical Union journal Water Resources Research.
Only the top one percent of Water Resources Research papers published in 2022 received this award.
Goeking and her team discovered that the relationship between forests and water flow is more complicated than previously thought. It turns out that in some areas, disturbances like insect epidemics or fire can actually increase the amount of water flowing in streams, while in other areas, such disturbance can decrease it.
The difference depends on how dry or wet the area is. In places where water is readily available, disturbances can cause more water to flow in streams. But in drier areas, disturbances can make the situation worse by reducing the flow of water in streams as more water is lost to the atmosphere through evaporation and transpiration by other plants.
“Our findings hold significance for watershed management, especially in regions like the Great Salt Lake and Colorado River basins,” said Goeking. “The study combined extensive datasets from forest monitoring, hydrology and climatology, analyzing 159 watersheds to understand the factors influencing water supply.”
Watersheds are areas where rain and snow collect and drain into a common waterway, such as a stream, river, lake or ocean. Watersheds can vary in size, and some can span across multiple states or even countries. Forested watersheds play a crucial role in the environment by controlling the rate and amount of water flowing through streams.
“Understanding these relationships is crucial for managing our forests and water resources effectively, especially as we face challenges like droughts and climate change,” Goeking said.
Goeking’s work, part of her PhD dissertation at Utah State University, shows the importance of robust scientific research in addressing critical resource management challenges. She acknowledges her co-author and mentors for their support in this endeavor.