David A. Beauchamp, Ph.D.
My research in tactical food web ecology incorporates directed sampling, experimentation, and models to mechanistically address and quantify factors that limit survival and growth of salmonids in freshwater and marine environments: predation, carrying capacity, climate change, and invasive species; evaluate feasibilities of salmonid reintroductions above dams, dam removal or re-operation.
Research Interests:
I am interested in advancing a mechanistic understanding for how the behavior, bioenergetics, and sensory capabilities of individual organisms scale up to determine the structure and function of aquatic ecosystems and how food web interactions are mediated by natural and human induced changes in environmental conditions. To this end, I am active in the development and application of bioenergetics models for salmonids, their predators and competitors. When coupled with directed field sampling to obtain growth, thermal experience, distribution, diet/stable isotopes and calorimetry data, we use bioenergetics simulations to identify and quantify factors that limit survival, growth, and production of focal species in a food web such as: predation, seasonal food availability, competition, or environmental stressors. Our team also uses scale- and otolith-based age and growth methods for identifying life history diversity, periods of size-selective mortality, and associated critical growth periods that influence survival through the completion of life cycles for anadromous and resident salmonids. We use this approach to evaluate the feasibility of species reintroductions above dams or in response to dam removal or re-operations, determine the impact of invasive species, and diagnose factors inhibiting recovery of ESA-listed species.
Because salmonids and most of their predators and competitors rely on vision to feed, we develop, refine, and applying visual foraging models through a combination of experimentation and field measurements. Using spatially-scalable experiments to parameterize how predator-prey reaction or detection distances change as functions of light and turbidity, and how prey size, behavior, and visual conditions affect capture success probability given an encounter, we construct models that predict how the efficacy of predators change given the transparency of a water body at any depth, any time of the day or night, and any time of the year. This approach allows us to evaluate how seasonal and diel changes in the visual environment affect natural variability in foraging and predation risk. In addition, we can determine how increased artificial light pollution and human-induced changes to natural turbidity cycles have changed predation mortality, risk, and prey behavior.
Professional Experience
2016 to Present - Chief of the Ecology Section, USGS, Western Fisheries Research Center, Seattle, WA
2014-2016 - Professor, University of Washington; Acting Unit Leader, U.S. Geological Survey, Washington Cooperative Fish & Wildlife Research Unit, Seattle, WA
2008-2014 - Professor, University of Washington; Assistant Unit Leader-Fisheries, U.S. Geological Survey, Washington Cooperative Fish & Wildlife Research Unit, Seattle, WA
1999-2008 - Assistant/Associate Professor, University of Washington; Assistant Unit Leader-Fisheries, U.S. Geological Survey, Washington Cooperative Fish & Wildlife Research Unit, Seattle, WA
1994-1999 - Assistant Professor, Utah State University; Assistant Unit Leader-Fisheries, U.S. Geological Survey, Utah Cooperative Fish & Wildlife Research Unit, Logan, UT
Education and Certifications
Post-doctoral Research Associate. 1990-1991. Fisheries and Wildlife, Utah State University, Logan, UT
Ph.D. 1987. Fisheries, University of Washington, Seattle, WA
M.S. 1982. Fisheries, University of Washington, Seattle, WA
B.S. 1980. Fisheries, University of Washington, Seattle, WA
Honors and Awards
2009 - Fulbright Scholar Grant. Research-Lecture position in Patagonia, Argentina
2008-2013 - Worthington Endowed Professorship, UW School of Aquatic and Fisheries Sciences
Science and Products
Bioenergetic response by steelhead to variation in diet, thermal habitat, and climate in the north Pacific Ocean
Columbia River food webs: Developing a broader scientific foundation for river restoration
Rapid growth in the early marine period improves the marine survival of Chinook salmon (Oncorhynchus tshawytscha) in Puget Sound, Washington
Pelagic Piscivory Under Shifting Environmental Gradients: Application of A Visual Foraging Model To Diel and Seasonal Sonic Telemetry of Cutthroat Trout In Strawberry Reservoir
Marine effect of introduced salmonids: Prey consumption by exotic steelhead and anadromous brown trout in the Patagonian Continental Shelf
Distribution and habitat associations of radio-tagged adult Lost River suckers and shortnose suckers in Upper Klamath Lake, Oregon
Bioenergetic model estimates of interannual and spatial patterns in consumption demand and growth potential of juvenile pink salmon (Oncorhynchus gorbuscha) in the Gulf of Alaska
Coldwater fish in large standing waters
Linking habitat quality with trophic performance of steelhead along forest gradients in the South Fork Trinity River Watershed, California
Early marine growth of pink salmon in Prince William Sound and the coastal gulf of Alaska during years of low and high survival
Reverse Evolution of Armor Plates in the Threespine Stickleback
Age and trophic position dominate bioaccumulation of mercury and organochlorines in the food web of Lake Washington
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
Bioenergetic response by steelhead to variation in diet, thermal habitat, and climate in the north Pacific Ocean
Columbia River food webs: Developing a broader scientific foundation for river restoration
Rapid growth in the early marine period improves the marine survival of Chinook salmon (Oncorhynchus tshawytscha) in Puget Sound, Washington
Pelagic Piscivory Under Shifting Environmental Gradients: Application of A Visual Foraging Model To Diel and Seasonal Sonic Telemetry of Cutthroat Trout In Strawberry Reservoir
Marine effect of introduced salmonids: Prey consumption by exotic steelhead and anadromous brown trout in the Patagonian Continental Shelf
Distribution and habitat associations of radio-tagged adult Lost River suckers and shortnose suckers in Upper Klamath Lake, Oregon
Bioenergetic model estimates of interannual and spatial patterns in consumption demand and growth potential of juvenile pink salmon (Oncorhynchus gorbuscha) in the Gulf of Alaska
Coldwater fish in large standing waters
Linking habitat quality with trophic performance of steelhead along forest gradients in the South Fork Trinity River Watershed, California
Early marine growth of pink salmon in Prince William Sound and the coastal gulf of Alaska during years of low and high survival
Reverse Evolution of Armor Plates in the Threespine Stickleback
Age and trophic position dominate bioaccumulation of mercury and organochlorines in the food web of Lake Washington
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.