Images

This is the tire chemical 6PPD. 6PPD is a common rubber antiozonant found in vehicle tires. It is mobile within the rubber and slowly migrates to the surface via blooming. On the surface it forms a "scavenger-protective film" that reacts with the ozone more quickly than the ozone can react with the rubber.

This is a diagram of a cross section of a dam. This diagram is to show where gas bubble trauma could occur.

To understand gas bubble trauma, imagine scuba divers surfacing too quickly. As pressure decreases, dissolved gases in their blood can form bubbles, causing joint pain, paralysis, and even death—a condition commonly known as “the bends.” Fish can experience something similar. 

Since the early 1990s, WFRC has supported state and federal agencies by providing regular assessments of gas bubble trauma in salmon. But salmon aren’t the only fish affected. In 2020, scientists at the Cook lab began monitoring GBT in resident species like sculpin, northern pikeminnow, and three-spined stickleback.

This is a photo of a fish with gas bubble trauma. For decades, scientists at the USGS Western Fisheries Research Center (WFRC) have worked alongside dam operators to monitor a lesser-known threat to fish in the Columbia and Snake rivers: gas bubble trauma.

Invasive species present a growing threat to ecosystems worldwide, and the African clawed frog (Xenopus laevis) is no exception. First detected in the U.S. in 1964, African clawed frogs have now made their way to Washington State where they pose a growing threat to local ecosystems.

The Western Fisheries Research Center (WFRC) research helps uncover the spread and impact of invasive African Clawed Frogs (Xenopus laevis) in Washington. First detected in the U.S. in 1964, African clawed frogs have now made their way to Washington State where they pose a growing threat to local ecosystems.

This is fieldwork from a Chinook salmon egg survival pilot study in the Sacramento River. Egg boxes were placed in the river at different locations to collect data on egg-to-fry survival. Some examples of data collected include water velocity and river flow, gravel temperature, scour and deposition, and sediment type.

This is a photo from our scientists working with the Yakama Nation to remove smallmouth bass and other invasive salmon-eating predators. The work involves taking fin clips, scales, diet samples, and tagging and releasing larger fish. This fieldwork will continue through late May 2025. The crew shown in the photos are Ben, Becky, Jeff, and Chloe. 

Justin Greer is a Computational Biologist at the Western Fisheries Research Center. He conducts research on the effects of environmental stressors on the health of aquatic populations. Current research focuses on the effects of stormwater pollutants on salmonid health and strategies to reduce toxic stormwater inputs.

This is a photo of Ellie Dalsky, a biological technician at the Western Fisheries Research Center.

California Department of Fish & Wildlife boat on Shasta Reservoir partnering with USGS Western Fisheries Research Center to conduct telemetry studies.

Mitchell Morse and Caitlin Stockwell drove down to Redding, CA to wrap up the Shasta Reservoir fish telemetry project. They worked with California Department of Fish and Wildlife partners to remove 16 submersible acoustic telemetry receivers within the reservoir, and 5 receivers installed on Shasta Dam.

A photo of the McCloud arm looking upstream from one of the telemetry deployment sites.

This is Shasta Dam in California. Mitchell Morse and Caitlin Stockwell drove down to Redding, CA to wrap up the Shasta Reservoir fish telemetry project. They worked with California Department of Fish and Wildlife partners to remove 16 submersible acoustic telemetry receivers within the reservoir, and 5 receivers installed on Shasta Dam.

Rainfall mobilizes roadway contaminants that flow from storm drains into aquatic habitats. Photo taken in the Pacific Northeast

Dorothy Chase began her career at Western Fisheries Research Center in the Fish Health section where her research focused on Bacterial Kidney Disease (BKD) in salmonids. She is now a part of the Ecology section, focusing on research that uses environmental DNA to detect and quantify fish species, fish pathogens and invasive aquatic species in environmental samples.

Jake Gregg manages the research aquaculture system at the Western Fisheries Research Center's Marrowstone Marine Field Station, which produces Specific Pathogen Free marine fish.

Ramona Rapp is preparing the surgery station where adult Lost River suckers are surgically implanted with acoustic telemetry transmitters. This study is being conducted to understand seasonal survival and habitat use of Lost River suckers in Upper Klamath Lake.

Chris Pullano and Evan Hockett setting out early morning to reconfigure acoustic telemetry receivers on Upper Klamath Lake, Oregon. Receivers were deployed under ice cover all winter to understand winter movements and habitat use by endangered Lost River suckers.

Matt Sholtis, Brian Hayes, and Evan Hockett returning from a rough day on the water, where they retrieved acoustic telemetry receivers that were set under ice cover all winter to track winter movements of endangered Lost River suckers in Upper Klamath Lake, Oregon.