Katelyn P. Driscoll
333 Broadway SE, Suite 115
Contact Katelyn P. Driscoll
My research interests include ecosystems and the complex interactions that drive largescale patterns across landscapes, particularly how the structure and function of aquatic and riparian systems are affected by natural and anthropogenic stressors and how changes to disturbance regimes like flooding and fire alter ecosystem complexity. I am also interested in upland and valley bottom restoration and different methods for evaluating the effectiveness of different treatments.
- My past research has focused on the link between streamflow and floodplain complexity. I used high-resolution aerial digital imagery collected on several dates throughout the course of a flood event to identify, map, and measure the changes that occur in the distribution of floodplain habitats from baseflow to peakflow to baseflow.
- I also work on assessing the current conditions of riparian, aquatic, wetland, and groundwater-dependent ecosystems by identifying drivers and stressors. I am particularly interested in how multiple interacting stressors impact these systems at a landscape scale and what makes them more or less resistant and resilient.
Why This Research is Important
Rivers and their floodplains are biodiversity hotspots that provide habitat to a wide range of species, as well as ecosystem services. It is important to comprehend how the timing, frequency, duration, and magnitude of flooding events is tied to predictable development of floodplain habitats. Understanding the link between discharge and complexity is critical as natural flow regimes are increasingly threatened by diversions, regulation, and climate change.
Studying the drivers, stressors, and current conditions of riparian, aquatic, wetland, and groundwater-dependent ecosystems is important for informing management actions. Our assessments directly inform the planning process carried out by National Forests and can help identify areas appropriate for restoration or protection.
Overall, studying biotic and abiotic interactions, how they play out at the ecosystem scale, and how they are affected by climate change, fire, flooding, road construction, diversions, etc. has implications for land management and conservation.
- University of Montana, M.S. System Ecology Systems ecology, floodplain dynamics, aquatic and riparian systems, flooding disturbance, hydrology, geomorphology, remote sensing 2015
- Gonzaga University, B.S. Biology General Biology, Ecology, Spanish Minor 2010
Awards & Recognition
- Outstanding Customer Service Award for the Rocky Mountain Research Station, 2017
Awarded for providing high quality assistance to the USDA Southwest Climate Hub, the Forest Service's Intermountain & Southwest Regions, and the Forest Service's Presidential Management Fellows program.
- Conservation Education for the Rocky Mountain Research Station, 2016
Awarded to lab for outstanding work with youth and partners to provide conservation education in the Albuquerque community.
- Driscoll, K. P.; Smith, D. Max; Finch, Deborah M. 2019. Riparian ecosystems of the Manti-La Sal National Forest: An assessment of current conditions in relation to natural range of variability.
- Smith, D. Max; Driscoll, Katelyn P.; Finch, Deborah M. 2018. Riparian and wetland ecosystems of the Ashley National Forest: An assessment of current conditions in relation to natural range of variation.
- McShane, Ryan R.; Driscoll, Katelyn P.; Sando, Roy. 2017. A review of surface energy balance models for estimating actual evapotranspiration with remote sensing at high spatiotemporal resolution over large extents.
|Use of Airborne Digital Imagery to Examine Floodplain Complexity at Varying Discharges|
The typical way water moves through a floodplain is considered a river’s natural flow regime and it includes the size, timing, and duration of ...