Threatened and Endangered Species
Threatened and Endangered Species
Filter Total Items: 14
Linking Mussel Habitat Conditions to Restoration Outcomes and Ecosystem Services
Supported by: Great Lakes Restoration Initiative (GLRI) and U.S. Geological Survey Species Management Program, Ecosystems Mission Area
CERC Eco-flume
The CERC Eco-flume is a continuous-loop, racetrack style flume. It is housed in a 1,350 square-foot laboratory at CERC and will be used to study transport phenomena and biophysical processes in river environments.
New Technology to Support Culturing of Freshwater Mussels for Research and Restoration
Freshwater mussels are one of the most critically imperiled groups of organisms worldwide. Encouraging mussel reproduction in a controlled setting has become an area of interest due to their widespread population declines and regional extinctions (Williams et al., 1993; Lydeard et al., 2004; Strayer et al., 2004; Haag 2012; Lopes-Lima et al., 2017). With constantly evolving techniques, rearing...
Science Partnership between USGS and Confederated Tribes of the Umatilla Indian Reservation to Support Conservation of Freshwater Mussels
Western Pearlshell ( Margaritifera falcata ) is a native mussel species of conservation concern in the Pacific Northwest region of North America. This species is of cultural importance to the Confederated Tribes of the Umatilla Indian Reservation (CTUIR). The current project is a collaboration between the USGS Columbia Environmental Research Center (CERC), the CTUIR, and USFWS to better understand...
Physical Stream Dynamics and Native Mussel Habitats
Freshwater mussel conservation efforts depend on identifying habitat characteristics that are suitable for mussel reintroduction and restoration. CERC scientists are conducting research to understand how physical habitat dynamics affect the distribution of mussels and suitable habitat in streams and rivers.
Comprehensive Sturgeon Research Project Blog
The USGS Comprehensive Sturgeon Research Project, a multi-year, interdisciplinary research study to determine factors leading to spawning and survival of the endangered pallid sturgeon and the closely related shovelnose sturgeon.
Threatened, Endangered or Rare Species Detection
The non-invasive nature of eDNA methods for species detection is a great advantage for monitoring of rare, threatened, or endangered species.
Searching for Shiners in Missouri
Researchers from the University of Central Missouri (UCM), in collaboration with the Missouri Department of Conservation (MDC) and Columbia Environmental Research Center (CERC), implement environmental DNA (eDNA) methods to identify and manage Topeka Shiner populations in Missouri.
Adult Pallid Sturgeon Reproductive Ecology
CERC fish biologists study migrations, reproductive cues, and spawning behaviors of reproductive wild and hatchery-origin pallid sturgeon (HOPS) in the Missouri River Basin.
Missouri River Recovery Implementation Committee (MRRIC) and Adaptive Management
This project centers on assimilation of data, interpretation of results, updating quantitative models, and providing policy-neutral, high-quality information to the agencies and stakeholders in the Missouri River Basin.
Pallid Sturgeon Early Life
CERC biologists focus on improving understanding of biomechanics of eggs, free embryos, and larvae through direct observation and measurement. An improved understanding of biomechanics – how biotic conditions and processes interact with physical processes to result in changes in survival – is necessary to create quantitative links between management actions and population-level results.
An Evaluation the Chronic Toxicity of Metals in Water and Sediment to the Unionid Mussel, Fatmucket (Lampsilis siliquoidea), in Exposures Representing Conditions in the Tri-States Mining District
The Tri-State Mining District (TSMD) is a large (about 500 sq. mi.) historical lead and zinc mining area that includes portions of Kansas, Missouri and Oklahoma. The TSMD yielded about 460 million tons of ore between 1885 and 1970, resulting in contamination of surface water, groundwater, sediments, and soils in the Spring River and Neosho River basins by lead, zinc, and other heavy metals.