New study: Longleaf pine woodlands increase streamflow during droughts
Jones Center researcher Dr. Seth Younger found that longleaf pine woodlands increase water yeidl during droughts. The study looked at 21 rural watersheds with varying levels of longleaf pine cover and found that those with high longleaf pine cover had 17% higher stream flow than those with low cover. The increase was even higher during critical drought periods, highlighting how longleaf pine restoration can improve conservation outcomes on land and in streams.
New study: Longleaf pine resilience after Hurricane Michael
A new study led by University of Florida and Landscape Ecology lab alumnus Cody Pope was published in the journal Forest Ecology and Management. The study examined growth of longleaf pine and associated oak saplings for 2 years after hurricane Michael, and found that canopy removal may benefit longleaf pine over competing oak species, indicating that hurricanes may reinforce and stabilize longleaf pine dominace in frequent-fire forests.
New study: Measuring complex forests with airborne lidar
A recent study from the Landscape Ecology lab led by Andy Whelan explores a new approach to improve large-scale measurements of forest structure using lidar. The study explored the use of “volumetric pixels” (or voxels) which have shown promise for forest measurement. The technique led to accurate estimates of wood volume, even when forest composition was unknown.