Intersex, the presence of both male and female characteristics within the same fish, is being observed in fish in more streams across the Nation. Intersex is one manifestation of endocrine disruption in fish. Endocrine disruption can result in adverse effects on the development of the brain and nervous system, the growth and function of the reproductive system, and the response to stressors in the environment. U.S. Geological Survey (USGS) scientists have documented the presence of endocrine disrupting contaminants in rivers and streams across the Nation. Additionally, USGS scientists and others have demonstrated that exposure to endocrine-active contaminants can cause endocrine disruption, which can have ruinous impacts on fish populations. The following are some recent examples of USGS studies on endocrine disruption in fish.
- A study of endocrine disruption in fish in Boulder Creek, Colorado, by USGS and University of Colorado scientists demonstrated how a complex mixture of endocrine-active contaminants in wastewater can have an additive effect on local fish (Vajda and others, 2008). Their paper in Environmental Science and Technology documented that the population of fish downstream of the wastewater discharge from a sewage treatment plant was dominated by females, and 18 to 22 percent of fish exhibited intersex.
- Another study documented complex effects of fish exposure to nonylphenol, a degradation product of surfactants used in large quantities in commercial and household detergents. Scientists reported in the journal Aquatic Toxicology that the breading behavior of males exposed to nonylphenol varied significantly with exposure level (Schoenfuss and others, 2008). Low doses "primed" the males for breeding competition, whereas higher exposures inhibited their breeding behavior.
- In still another study, USGS scientists along with their colleagues from the West Virginia Division of Natural Resources, U.S. Army Corps of Engineers, and Virginia Department of Game and Inland Fisheries investigated the occurrence of intersex in male smallmouth bass in the Potomac River and its tributaries in Virginia and West Virginia. In an article in the Journal of Aquatic Animal Health the scientists reported a high incidence of intersex in the fish they sampled (Blazer and others, 2007). The occurrence of intersex was particularly high during the spawning season. They also found that higher incidence of intersex occurred in streams draining areas with intensive agricultural production and high population when compared to non-agricultural and undeveloped areas.
- A team of USGS and West Virginia University scientists investigated the causes of extensive fish kills and impaired fish in the Shenandoah River, Virginia (Ripley and others, 2008). They reported in Environmental Toxicology and Chemistry on a method to assess the health of the immune systems in fish. The method relies on the analysis of proteins and the microscopic evaluation of kidney tissue. Many of the fish studied were unable to manufacture normal disease-fighting white blood cells. The ability to assess immune function in fish will help scientists understand the impact of endocrine-disrupting contaminants in the environment.
Endocrine Disruption
Exposure to low-levels of some contaminants can cause disruption of endocrine functions in animals, such as reproduction. This is done by modulating, mimicking, or interfering with normal hormonal activity. Examples of endocrine-active contaminants are chemicals such as synthetic hormones, certain pesticides, some pharmaceuticals, detergents degradation products (nonylphenol), and many others.
Below are other science projects associated with this project.
Gestodene Affects Fish Reproductive Behavior in Laboratory Exposure Study
Swine Manure Application as a Source of Hepatitis E Virus and other Livestock-Related Pathogens
Complex Mixtures, Complex Responses—Using Comprehensive Approaches to Assess Pharmaceutical Effects on Fish
Potential Exposure to Bacteria and Viruses Weeks after Swine Manure Spill
Long-Term Study Finds Endocrine Disrupting Chemicals in Urban Waterways
- Overview
Intersex, the presence of both male and female characteristics within the same fish, is being observed in fish in more streams across the Nation. Intersex is one manifestation of endocrine disruption in fish. Endocrine disruption can result in adverse effects on the development of the brain and nervous system, the growth and function of the reproductive system, and the response to stressors in the environment. U.S. Geological Survey (USGS) scientists have documented the presence of endocrine disrupting contaminants in rivers and streams across the Nation. Additionally, USGS scientists and others have demonstrated that exposure to endocrine-active contaminants can cause endocrine disruption, which can have ruinous impacts on fish populations. The following are some recent examples of USGS studies on endocrine disruption in fish.
Sources/Usage: Public Domain.USGS scientist dissecting a fish to determine possible effects from exposure to endocrine disrupting contaminants. - A study of endocrine disruption in fish in Boulder Creek, Colorado, by USGS and University of Colorado scientists demonstrated how a complex mixture of endocrine-active contaminants in wastewater can have an additive effect on local fish (Vajda and others, 2008). Their paper in Environmental Science and Technology documented that the population of fish downstream of the wastewater discharge from a sewage treatment plant was dominated by females, and 18 to 22 percent of fish exhibited intersex.
- Another study documented complex effects of fish exposure to nonylphenol, a degradation product of surfactants used in large quantities in commercial and household detergents. Scientists reported in the journal Aquatic Toxicology that the breading behavior of males exposed to nonylphenol varied significantly with exposure level (Schoenfuss and others, 2008). Low doses "primed" the males for breeding competition, whereas higher exposures inhibited their breeding behavior.
- In still another study, USGS scientists along with their colleagues from the West Virginia Division of Natural Resources, U.S. Army Corps of Engineers, and Virginia Department of Game and Inland Fisheries investigated the occurrence of intersex in male smallmouth bass in the Potomac River and its tributaries in Virginia and West Virginia. In an article in the Journal of Aquatic Animal Health the scientists reported a high incidence of intersex in the fish they sampled (Blazer and others, 2007). The occurrence of intersex was particularly high during the spawning season. They also found that higher incidence of intersex occurred in streams draining areas with intensive agricultural production and high population when compared to non-agricultural and undeveloped areas.
- A team of USGS and West Virginia University scientists investigated the causes of extensive fish kills and impaired fish in the Shenandoah River, Virginia (Ripley and others, 2008). They reported in Environmental Toxicology and Chemistry on a method to assess the health of the immune systems in fish. The method relies on the analysis of proteins and the microscopic evaluation of kidney tissue. Many of the fish studied were unable to manufacture normal disease-fighting white blood cells. The ability to assess immune function in fish will help scientists understand the impact of endocrine-disrupting contaminants in the environment.
Endocrine Disruption
Exposure to low-levels of some contaminants can cause disruption of endocrine functions in animals, such as reproduction. This is done by modulating, mimicking, or interfering with normal hormonal activity. Examples of endocrine-active contaminants are chemicals such as synthetic hormones, certain pesticides, some pharmaceuticals, detergents degradation products (nonylphenol), and many others. - Science
Below are other science projects associated with this project.
Gestodene Affects Fish Reproductive Behavior in Laboratory Exposure Study
Short-term laboratory exposure of adult fathead minnows to the human contraceptive progestin, gestodene (GES), at environmentally relevant concentrations induced rapid and negative effects on reproductive health and suggests that wild fish may be similarly affected.Swine Manure Application as a Source of Hepatitis E Virus and other Livestock-Related Pathogens
The presence of indicator bacteria, hepatitis E virus (HEV), and numerous bacterial pathogen genes increased following precipitation-induced runoff events in streams draining adjacent land surfaces in Iowa where swine manure was recently applied.Complex Mixtures, Complex Responses—Using Comprehensive Approaches to Assess Pharmaceutical Effects on Fish
The occurrence of complex mixtures of prescription pharmaceuticals in streams and rivers around the globe has raised concerns about potential unintended adverse effects on aquatic organisms. The deleterious effects (for example, alteration of fish behavior) observed in this study confirm that effluents containing pharmaceuticals can adversely affect fish in ways that are central to sustaining...Potential Exposure to Bacteria and Viruses Weeks after Swine Manure Spill
Manure spills may be an underappreciated pathway for livestock-derived contaminants to enter streams. Scientists from the U.S. Geological Survey (USGS) and Johns Hopkins Bloomberg School of Public Health studied an Iowa stream after the release of a large volume of swine manure (a manure spill). The scientists observed an increase in viruses and bacteria, which have the potential to cause human or...Long-Term Study Finds Endocrine Disrupting Chemicals in Urban Waterways
U.S. Geological Survey (USGS) scientists determined that endocrine disrupting chemicals (EDCs) were present in wastewater treatment plant (WWTP) effluent, water, and fish tissue in urban waterways in the Great Lakes and upper Mississippi River Regions (Indiana, Illinois, Michigan, Minnesota, and Ohio) during 1999 through 2009. - Publications