Contaminants and Pathogens
Contaminants and Pathogens
While the Upper Midwest Water Science Center investigates a wide variety of factors affecting water quality, there are some issues that need particular focus due to their potential to enter the environment and cause known or suspected adverse ecological and/or human health effects. They originate from a wide variety of sources and causes, including industry, agriculture, urbanization, human and animal waste, and nature itself. They may be found in high quantities and cause immediate effects, or occur in very low quantities that only cause problems after long-term exposure. They may even be safe and beneficial at lower amounts, but harmful when overused. This group of projects addresses current water-quality issues that are causing concern among water-resource managers and the public, such as chemical pollutants, human and animal pathogens, and the biological effects of chemical and biological contaminants on natural ecosystems.
Filter Total Items: 42
Using optical sensors to detect sewage contamination in the Great Lakes
In the Great Lakes, large volumes of sewage never make it to wastewater treatment plants due to illicit discharges and leaking sewer infrastructure, but contamination can be difficult to detect. This study will define the utility and practicality of using optical sensors to identify the sources and timing of sewage contamination in surface water and storm sewers in real-time field settings.
Isoxaflutole Monitoring
This project is investigating the potential persistence of isoxaflutole, a pesticide, and its metabolites in groundwater and surface water near agricultural fields in Michigan.
Arsenic in Minnesota groundwater—Occurrence and relation to hydrogeologic and geochemical factors
Geologic-sourced arsenic is common in Minnesota groundwater. Drinking-water managers, well owners, and well contractors need to know where and why high arsenic in groundwater is likely to occur in wells in order to take measures to protect public health. The USGS is assessing the spatial distribution of high arsenic groundwater in Minnesota, and identifying factors affecting arsenic mobilization.
Evaluating chloride trends due to road-salt use and its impacts on water quality and aquatic organisms
Chloride, a key component of road salt, is soluble, highly mobile in water, and, at high concentrations, can be toxic to aquatic vegetation and wildlife. USGS scientists have been analyzing temporal, seasonal, and environmental trends in chloride concentrations across the U.S. to determine the effects that road salt may be having on water quality and aquatic organisms.
Determination of Algal Toxin Concentrations in Surface Waters at National Parks
The U.S. Geological Survey, in partnership with the National Park Service began a project in 2012 exploring levels of the algal toxins in surface drinking water and recreational waters in 3 National Park Service Parks: Sleeping Bear Dunes National Lakeshore, Isle Royale National Park, and Pictured Rocks National Lakeshore.
Evaluating the potential benefits of permeable pavement on the quantity and quality of stormwater runoff
Permeable pavement is a porous urban surface which catches precipitation and surface runoff, storing it in the reservoir while slowly allowing it to infiltrate into the soil below. This study will evaluate how well different types of permeable pavement reduces the amount of pollutants and runoff volume.
Evaluating the impacts of aircraft deicers in runoff from General Mitchell International Airport, Milwaukee, Wis.
Chemicals used to deice planes at General Mitchell International Airport in Milwaukee may be entering nearby streams in concentrations that may be harmful to aquatic life. This project will investigate the toxicity of decing chemicals, evaluate their impact on receiving streams, and assess changes in water quality in response to the implementation of deicer management at General Mitchell Airport.
Beach health in Wisconsin
Beach water-quality (beach health) data are collected for both coastal and inland Wisconsin beaches. These data are collected and analyzed by multiple agencies throughout Wisconsin including local health departments, universities, state agencies, and federal agencies including the USGS.
Edge-of-field monitoring: Discovery Farms
The USGS is cooperating with Discovery Farms to understand agriculture’s impact on the environment and help producers find ways to minimize their impact while remaining economically viable. Edge-of-field or subsurface tile monitoring stations measure runoff-event volume, including snowmelt, and collect samples which are analyzed for suspended sediment, phosphorus, nitrogen, and chloride.
Water Chemistry Monitoring Project - Rivers and Streams
In support of the Michigan Department of Environmental Quality (MDEQ) Water Chemistry Monitoring Project, the USGS Michigan Water Science Center has been collecting long-term water quality data for Michigan's rivers and streams.
Environmental factors and risk estimation for waterborne pathogens at three Great Lakes beaches
The goals of this study were to quantify pathogen concentrations in water at three Lake Michigan beaches, identify environmental factors that influence pathogen occurrence and variability, and to estimate health risks for recreational swimmers.
Delavan Lake: Hydrology, water quality, and biology
Eutrophication of Delavan Lake accelerated from the 1940s to 1980s, resulting in a hypereutrophic lake with severe blue-green algae blooms. Extensive rehabilitation efforts were implemented to improve water quality. The USGS measured nutrients, suspended sediment, water quality, and plankton populations to quantify the effectiveness of rehabilitation efforts and guide future management decisions.