Current
United States Geological Survey: Future of Aquatic Flows (2022-2024) -- Exploring changes in rain-on-snow events and their influence on future streamflows, stream temperatures, and management priorities in the Great Lakes Basin. Role: PI with Co-PIs Jason Knouft (Saint Louis University) and Karen Murchie (John G. Shedd Aquarium).
National Science Foundation: Hydrologic Sciences (2021-2022) -- RAPID: Influence of the Brood X Cicada Emergence on Soil Water Infiltration.
National Science Foundation: Advances in Biological Informatics (2016-2022) -- Collaborative Research: ABI Development: HydroClim: Empowering aquatic research in North America with data from high-resolution streamflow and water temperature GIS modeling – Role: Co-PI with PI Jason Knouft and Co-PIs Henry Bart (Tulane University) and Nelson Rios (Tulane University).
Past
National Science Foundation: Advances in Biological Informatics (2017-2021) -- Collaborative Research: ABI Innovation: Improving high performance super computer aquatic ecosystem models with the integration of real-time citizen science data – Role: PI with Co-PIs Christopher Lowry (University at Buffalo), Jason Knouft (Saint Louis University) and Damon Hall (Saint Louis University).
U.S. Army Corps of Engineers: Great Rivers Cooperative Ecosystems Studies Unit (2015-2017) -- Integrating hydrodynamic, GIS, and ecological models to develop multi-scale tools that can predict the dynamics of the spatial distributions of threatened and endangered species throughout the waterways of the United States – Role: PI with Jason Knouft (Saint Louis University) and Damon Hall (Saint Louis University).
United States Geological Survey: Future of Aquatic Flows (2022-2024) -- Exploring changes in rain-on-snow events and their influence on future streamflows, stream temperatures, and management priorities in the Great Lakes Basin. Role: PI with Co-PIs Jason Knouft (Saint Louis University) and Karen Murchie (John G. Shedd Aquarium).
National Science Foundation: Hydrologic Sciences (2021-2022) -- RAPID: Influence of the Brood X Cicada Emergence on Soil Water Infiltration.
National Science Foundation: Advances in Biological Informatics (2016-2022) -- Collaborative Research: ABI Development: HydroClim: Empowering aquatic research in North America with data from high-resolution streamflow and water temperature GIS modeling – Role: Co-PI with PI Jason Knouft and Co-PIs Henry Bart (Tulane University) and Nelson Rios (Tulane University).
Past
National Science Foundation: Advances in Biological Informatics (2017-2021) -- Collaborative Research: ABI Innovation: Improving high performance super computer aquatic ecosystem models with the integration of real-time citizen science data – Role: PI with Co-PIs Christopher Lowry (University at Buffalo), Jason Knouft (Saint Louis University) and Damon Hall (Saint Louis University).
U.S. Army Corps of Engineers: Great Rivers Cooperative Ecosystems Studies Unit (2015-2017) -- Integrating hydrodynamic, GIS, and ecological models to develop multi-scale tools that can predict the dynamics of the spatial distributions of threatened and endangered species throughout the waterways of the United States – Role: PI with Jason Knouft (Saint Louis University) and Damon Hall (Saint Louis University).
