Project Title: | Role |
Integrating remote sensing and modeling to better understand the vulnerability of boreal-taiga ecosystems to wildfire (view profile) | Project Lead |
Informing wetland policy and management for waterfowl habitat and other ecosystem services using multi-frequency synthetic aperture radar (view profile) | Co-Investigator |
Understanding the Interactions between Wildfire Disturbance, Landscape Hydrology and Post-Fire Recovery in Boreal-Taiga Ecosystems (view profile) | Project Lead |
Wetland status, change, and seasonal inundation dynamics for assessing the vulnerability of waterfowl habitat within the ABoVE study domain (view profile) | Co-Investigator |
Planning and Collection of Data on Boreal Wildfire Effects: Studies of broad-scale 2014 Wildfires in NWT, Canada (view profile) | Project Lead |
Understanding the Vulnerability and Resiliency of Boreal-Taiga Ecosystems to Wildfire in a Changing Climate: A study of the 2014 Northwest Territories Wildfires (view profile) | Project Lead |
Long-Term Multi-Sensor Record of Fire Disturbances in High Northern Latitudes (view profile) | Co-Investigator |
Fuel Consumption and Carbon Cycling in Northern Peatland Ecosystems: Understanding Vulnerability to Burning, Fuel Consumption, and Emissions via Remote Sensing of Fuel Moisture and Fire Radiative Energy (view profile) | Co-Investigator |
Impacts and Implications of Increased Fire in Tundra Regions of North America (view profile) | Co-Investigator |
Vulnerability of North American Boreal Peatlands To Interactions Between Climate, Hydrology, and Wildland Fires (view profile) | Project Lead |
Remote Monitoring of Changes in Forest Functional Types after Disturbance from Fire in the North American Boreal Region: Implications for Interpreting the Effects of Satellite-observed Changes in Vegetation Greenness on the Terrestrial Carbon Budget (view profile) | Co-Investigator |