Facilitation cascades arise where primary foundation species facilitate secondary (dependent) foundation species and collectively, they increase habitat complexity and quality to enhance species richness and abundance. In this seminar, I will present results from field experiments, lab experiments, correlational studies and models that indicate facilitation cascades created by spatial overlap of cordgrass and ribbed mussel foundation species are powerful drivers of biodiversity and ecosystem resilience to climate change in southeastern US salt marshes. I will also present findings from a recent experiment testing whether the integration of facilitation cascades in restoration designs can enhance the success and long-term persistence of restored habitat. The seminar will conclude with an overview of next steps in this line of research and their implications for understanding of biodiversity maintenance and resilience of coastal wetlands at longer temporal and larger spatial scales.
Exploring the deep
Exploring the deep ocean of the Gulf of Mexico using Alvin.
Exploring Climate Change
UGA marine scientists are involved in understanding how climate change affects the oceans.
Research into the marine systems of the world takes us to remote locations.
Engaging and educating students and citizens about Georgia's coasts and the world's oceans.
A science platform for coastal and shelf waters in the southeast.