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Fish and Aquatic Species

The USGS is the only federal science agency dedicated to providing independent research that supports the conservation and management of the nation’s fisheries. Our researchers develop and apply specialized tools such as genetic tracking, hydrologic modeling, and fish disease diagnostics to answer the most pressing questions facing federal, Tribal, state, and local resource managers.

Filter Total Items: 153

Effects of temperature and energy use on fish passage and spawning success of American shad

American Shad are the most numerous and economically important anadromous species on the east coast of the United States. Yet in many river systems their populations have experienced declines, primarily due to the impacts of dams and habitat loss.
Effects of temperature and energy use on fish passage and spawning success of American shad

Effects of temperature and energy use on fish passage and spawning success of American shad

American Shad are the most numerous and economically important anadromous species on the east coast of the United States. Yet in many river systems their populations have experienced declines, primarily due to the impacts of dams and habitat loss.
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Deepwater Atlantic Habitats II: Continued Atlantic Research and Exploration in Deepwater Ecosystems with Focus on Coral, Canyon, and Seep Communities. Part II: Genetic Connectivity and Oceanomic Studies

This study utilizes genetics and genomics techniques to characterize biodiversity and genetic connectivity among deep-sea coral habitats and cold seeps in and near submarine canyons and will use environmental DNA techniques to characterize plankton diversity and to identify key contributors to carbon export from surface waters that sustain sensitive benthic communities. The proposed genetics and...
Deepwater Atlantic Habitats II: Continued Atlantic Research and Exploration in Deepwater Ecosystems with Focus on Coral, Canyon, and Seep Communities. Part II: Genetic Connectivity and Oceanomic Studies

Deepwater Atlantic Habitats II: Continued Atlantic Research and Exploration in Deepwater Ecosystems with Focus on Coral, Canyon, and Seep Communities. Part II: Genetic Connectivity and Oceanomic Studies

This study utilizes genetics and genomics techniques to characterize biodiversity and genetic connectivity among deep-sea coral habitats and cold seeps in and near submarine canyons and will use environmental DNA techniques to characterize plankton diversity and to identify key contributors to carbon export from surface waters that sustain sensitive benthic communities. The proposed genetics and...
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Climate change forecasts for eastern salmonids

Small streams in forests are likely to see dramatic shifts as global climate change influences air temperature and rain patterns. We have already seen warmer stream temperatures as air temperatures increase in summer in the Northeastern US. The intensity and duration of floods and droughts are also expected to magnify as future rain patterns shift. This project will evaluate how stream temperature...
Climate change forecasts for eastern salmonids

Climate change forecasts for eastern salmonids

Small streams in forests are likely to see dramatic shifts as global climate change influences air temperature and rain patterns. We have already seen warmer stream temperatures as air temperatures increase in summer in the Northeastern US. The intensity and duration of floods and droughts are also expected to magnify as future rain patterns shift. This project will evaluate how stream temperature...
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Use of next-generation sequencing for the dietary analyses of smallmouth bass (Micropterus dolomieu) stomach content

The USGS Eastern Ecological Science Center scientists are collaborating with the PADEP (SMB) to develop and evaluate a genetic assay for fish diets that will allow us to develop a cost-effective monitoring program for determining the diet of wild fish.
Use of next-generation sequencing for the dietary analyses of smallmouth bass (Micropterus dolomieu) stomach content

Use of next-generation sequencing for the dietary analyses of smallmouth bass (Micropterus dolomieu) stomach content

The USGS Eastern Ecological Science Center scientists are collaborating with the PADEP (SMB) to develop and evaluate a genetic assay for fish diets that will allow us to develop a cost-effective monitoring program for determining the diet of wild fish.
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Ecological flow needs of freshwater mussels

Streamflow characteristics are rapidly changing in response to climate variability, water management practices, and a variety of other human water demands. Alterations in water quantity can have direct impacts on aquatic organisms (e.g., stranding, displacement, disruption of spawning), and can be especially detrimental to organisms with limited mobility. Freshwater mussels are one such group of...
Ecological flow needs of freshwater mussels

Ecological flow needs of freshwater mussels

Streamflow characteristics are rapidly changing in response to climate variability, water management practices, and a variety of other human water demands. Alterations in water quantity can have direct impacts on aquatic organisms (e.g., stranding, displacement, disruption of spawning), and can be especially detrimental to organisms with limited mobility. Freshwater mussels are one such group of...
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Metabarcoding of stomach contents from the Round Goby (Negobius melanostromus) in Pennsylvania

The Round Goby, Neogobius melanostomus, is a small benthic fish native to the Sea of Azov, the Caspian Sea, the Black Sea and the Sea of Marmara.
Metabarcoding of stomach contents from the Round Goby (Negobius melanostromus) in Pennsylvania

Metabarcoding of stomach contents from the Round Goby (Negobius melanostromus) in Pennsylvania

The Round Goby, Neogobius melanostomus, is a small benthic fish native to the Sea of Azov, the Caspian Sea, the Black Sea and the Sea of Marmara.
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Evaluation and Development of Fish Passage Structures and Technologies

Dams can be found in just about every major river, and for good reason. Society has received many benefits like flood control, hydropower, water supply storage, and places to recreate. However, many fish and other life in our rivers can’t swim around these barriers. Often, the best spot for a fish to live and reproduce is out of reach because they can’t pass by a dam. This has not gone unnoticed...
Evaluation and Development of Fish Passage Structures and Technologies

Evaluation and Development of Fish Passage Structures and Technologies

Dams can be found in just about every major river, and for good reason. Society has received many benefits like flood control, hydropower, water supply storage, and places to recreate. However, many fish and other life in our rivers can’t swim around these barriers. Often, the best spot for a fish to live and reproduce is out of reach because they can’t pass by a dam. This has not gone unnoticed...
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Improving ecological flow science in the mainstem Delaware through WaterSMART

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)...
Improving ecological flow science in the mainstem Delaware through WaterSMART

Improving ecological flow science in the mainstem Delaware through WaterSMART

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)...
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Development of fine-scale temperature models in the Delaware River: Application to predictive temperature modeling, decision support tools, and ecosystem services

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...
Development of fine-scale temperature models in the Delaware River: Application to predictive temperature modeling, decision support tools, and ecosystem services

Development of fine-scale temperature models in the Delaware River: Application to predictive temperature modeling, decision support tools, and ecosystem services

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...
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Defining Native Ranges of U.S. Inland Fishes

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...
Defining Native Ranges of U.S. Inland Fishes

Defining Native Ranges of U.S. Inland Fishes

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...
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Pre-listing Science Support in the Northeast

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.
Pre-listing Science Support in the Northeast

Pre-listing Science Support in the Northeast

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.
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Establishing Molecular Methods to Quantitatively Profile Stomach Diet Items of Fish—Application to the Invasive Blue Catfish (Ictalurus furcatus)

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.
Establishing Molecular Methods to Quantitatively Profile Stomach Diet Items of Fish—Application to the Invasive Blue Catfish (Ictalurus furcatus)

Establishing Molecular Methods to Quantitatively Profile Stomach Diet Items of Fish—Application to the Invasive Blue Catfish (Ictalurus furcatus)

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.
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