Fish and Aquatic Species

Demand for freshwater is increasing with human population growth and is exacerbated by water management practices, climate variability, and land use alternation. Ecological flow science attempts to understand flows necessary to support aquatic organisms so that managers can balance these with diverse human water demands. A primary focus of the USGS Northern Appalachian Research Laboratory (NARL)...

Temperature is a primary driver of biological and ecological processes, and in rivers and streams influences distribution, reproduction, and behavior of aquatic species. USGS Northern Appalachian Laboratory (NARL) researchers are working with resource managers in the Delaware River Basin and collaborators at USGS Fort Collins Science Center to predict and model riverine temperature, particularly...

Understanding the native versus non-native range of a species can provide useful information about dispersal, population distribution patterns, and human mediated movement across hydrologic barriers. The USGS Nonindigenous Aquatic Species (NAS) Program is working with partners to define native ranges of inland fishes in the United States to help identify which species should be included in the NAS...

We are working closely with multiple partners to provide updated information, model potential outcomes, and identify key uncertainties relevant to amphibian and reptile species proposed for listing in the northeast US. We also provide timely science to partners to assist in recovery of listed species, which may involve field research, data analysis, or decision support.

USGS scientists are collaborating with the Maryland Department of Natural Resources (MDDNR) to develop and evaluate a genetic assay for blue catfish fish diets that will allow us to design a cost-effective monitoring program for determining the diet of wild fish.

Avian influenza virus in the aquatic environment: Surveillance in waterfowl habitat on the Delmarva Peninsula.

This project, in collaboration with the NJ Pinelands Commission and the USGS NJ Water Center, is evaluating potential effects of endocrine-disrupting chemicals from point and nonpoint sources in the Pinelands Area, a research cluster as part of the Delaware River Watershed Initiative.

In the last few decades, thiamine deficiency has been observed in fish and wildlife in the Great Lakes, Alaska, Sweden and several other areas in North America and Europe. Thiamine is an essential vitamin needed for cell function. Thiamine deficiency has been linked to neurological disorders, immunosuppression, and lower reproductive viability. These disorders potentially reduce populations of...

The Ecology Section examines how environmental variability, human activities and infrastructure influence food web interactions and species performance in freshwater and marine ecosystems. We have extensive experience in quantifying aquatic food web processes as they relate to growth, survival and production of key species of interest, especially resident and anadromous salmonids.

Sturgeons appear in the fossil record as early as the Triassic, 200 million years ago. Although most populations could once tolerate harvesting pressures, most populations have collapsed and nearly all of the 28 species alive today are listed as threatened or endangered. In New England, dams and water regulation challenge population recoveries of the two resident species, the shortnose and...

The focus of our research is the ecological analysis of Pacific Northwest fishes through age and growth structures such as: scales, fin rays and otoliths (small calcium carbonate deposits beneath the brain used in hearing and balance that grow in proportion to the overall growth of the fish). These structures are utilized as research tools for understanding life histories and habitat importance...

Molecular characterization of unknown virus isolated from the introduced species, the Northern snake head ( Channa argus ), present in the Chesapeake Bay Watershed