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Land Use Effects on Water Quality

The WAWSC monitors and conducts research on how different types and intensities of land use, like urbanization, forestry and agriculture, affect water quality, as well as the effectiveness of measures designed to protect water quality in streams and lakes within basins with varying levels of human activity. Changes in the type and extent of land cover can result in some similar and unique changes in water chemistry. The WAWSC staff of hydrologist, chemists, biologist, remote sensing scientist and modelers utilizes state of the art real time and remote land cover methods and water chemistry and biological approaches to identify the role land use plays in influencing water quality. Water quality variables examined include such parameters as temperature, pH, dissolved oxygen as well as nutrients, pesticides, metals, pharmaceuticals, and organic compounds like PBDEs and PAHs. Staff scientists evaluate the relationships between these compounds, as well as recently developed compounds, with sophisticated mathematical models to inform resource managers and planners with the information they need to make effective decisions. 

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Puget Parks

Puget Parks

Snow and ice are major sources of water for plants and animals in the parks and forests of the Puget Sound Basin, including Olympic, North Cascades, and Mt. Rainier National Parks, and Mt. Baker-Snoqualmie and Olympic National Forests. In the North Cascades National Park alone, there are more than 300 small glaciers that feed 245 mountain lakes and a myriad of streams, wetlands, and aquifers. The...
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Washington Water Science Center
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Puget Parks

Snow and ice are major sources of water for plants and animals in the parks and forests of the Puget Sound Basin, including Olympic, North Cascades, and Mt. Rainier National Parks, and Mt. Baker-Snoqualmie and Olympic National Forests. In the North Cascades National Park alone, there are more than 300 small glaciers that feed 245 mountain lakes and a myriad of streams, wetlands, and aquifers. The...
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Estimating the Probability of Elevated Nitrate Concentrations Report Cover

Columbia Basin GWMA

More than 80 percent of drinking water in the mid-Columbia Basin comes from ground water. In Adams, Franklin, and Grant Counties, nitrate concentrations in water from about 20 percent of all drinking-water wells exceed the U.S. Environmental Protection Agency maximum contaminant level for nitrate. The three counties jointly formed the Columbia Basin Ground Water Management Area (GWMA) in February...
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Washington Water Science Center
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Columbia Basin GWMA

More than 80 percent of drinking water in the mid-Columbia Basin comes from ground water. In Adams, Franklin, and Grant Counties, nitrate concentrations in water from about 20 percent of all drinking-water wells exceed the U.S. Environmental Protection Agency maximum contaminant level for nitrate. The three counties jointly formed the Columbia Basin Ground Water Management Area (GWMA) in February...
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Columbia Basin Irrigation

Columbia Basin Irrigation

The National Marine Fisheries Service (NMFS), in its 2000 Biological Opinion for the Columbia Basin Irrigation Project (CBIP) in eastern Washington, asked for a determination of whether pesticides are present in irrigation return flows at levels that may harm or adversely affect salmon and steelhead species listed for protection under the Endangered Species Act. As the major resource manager of...
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Washington Water Science Center
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Columbia Basin Irrigation

The National Marine Fisheries Service (NMFS), in its 2000 Biological Opinion for the Columbia Basin Irrigation Project (CBIP) in eastern Washington, asked for a determination of whether pesticides are present in irrigation return flows at levels that may harm or adversely affect salmon and steelhead species listed for protection under the Endangered Species Act. As the major resource manager of...
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Groundwater Pesticides

Groundwater Pesticide

The Environmental Protection Agency (EPA) is developing a rule requiring States to have a formal plan for the pesticides atrazine, simazine, alachlor, metolachlor, and other pesticides of concern in order to continue using them. The Washington State Department of Agriculture (WSDA), the lead agency for a pesticide plan for Washington, will need an assessment of ground-water vulnerability to...
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Washington Water Science Center
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Groundwater Pesticide

The Environmental Protection Agency (EPA) is developing a rule requiring States to have a formal plan for the pesticides atrazine, simazine, alachlor, metolachlor, and other pesticides of concern in order to continue using them. The Washington State Department of Agriculture (WSDA), the lead agency for a pesticide plan for Washington, will need an assessment of ground-water vulnerability to...
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Sammamish River Basin

Sammamish River Basin

Understanding the extent of contaminants in urban rivers is key to assessment of human health risks and the restoration of endangered salmon in the Pacific Northwest. This equally true for the Sammamish River Basin in northeast King County, Washington, where a new wastewater treatment plant is being considered by King County. Information is needed about the water quality of the Sammamish River. In...
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Washington Water Science Center
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Sammamish River Basin

Understanding the extent of contaminants in urban rivers is key to assessment of human health risks and the restoration of endangered salmon in the Pacific Northwest. This equally true for the Sammamish River Basin in northeast King County, Washington, where a new wastewater treatment plant is being considered by King County. Information is needed about the water quality of the Sammamish River. In...
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Puyallup River Basin

Puyallup River Basin

The Puyallup River Basin in western Washington is drained by the Puyallup River and its main tributaries, the White and Carbon Rivers. The basin supports several salmon runs and hosts a variety of recreational activities. Communities in the basin include Tacoma, Puyallup, Fife, Sumner, Orting, Auburn, and the Puyallup and Muckleshoot Tribes. The types of land use in the basin vary from forests and...
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Washington Water Science Center
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Puyallup River Basin

The Puyallup River Basin in western Washington is drained by the Puyallup River and its main tributaries, the White and Carbon Rivers. The basin supports several salmon runs and hosts a variety of recreational activities. Communities in the basin include Tacoma, Puyallup, Fife, Sumner, Orting, Auburn, and the Puyallup and Muckleshoot Tribes. The types of land use in the basin vary from forests and...
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Hydrologic Trends Associated with Urban Development

Hydrologic Urban Indicators

Storm water, the rainfall that runs off urban surfaces such as rooftops, pavement, and lawns, can affect streams in a number of ways. As urban development increases, storm water can run quickly into streams, increasing the volume and peak flows and reducing summer flows. Sediment and other contaminants can also be carried into the streams. The Washington Department of Ecology (WDOE), the state...
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Washington Water Science Center
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Hydrologic Urban Indicators

Storm water, the rainfall that runs off urban surfaces such as rooftops, pavement, and lawns, can affect streams in a number of ways. As urban development increases, storm water can run quickly into streams, increasing the volume and peak flows and reducing summer flows. Sediment and other contaminants can also be carried into the streams. The Washington Department of Ecology (WDOE), the state...
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Cedar River Watershed

Cedar River Watershed

The Cedar River watershed provides two-thirds of the water supply for the greater Seattle metropolitan region, in addition to being home to numerous terrestrial and aquatic organisms such as salmon, some of which are Federally listed as threatened species. The City of Seattle is establishing monitoring plans for the Cedar River watershed to effectively manage the resource. A critical component of...
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Washington Water Science Center
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Cedar River Watershed

The Cedar River watershed provides two-thirds of the water supply for the greater Seattle metropolitan region, in addition to being home to numerous terrestrial and aquatic organisms such as salmon, some of which are Federally listed as threatened species. The City of Seattle is establishing monitoring plans for the Cedar River watershed to effectively manage the resource. A critical component of...
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Highway Storm-Water Detention

Highway Storm-Water Detention

In some areas of the state, the Washington State Department of Transportation (WSDOT) sometimes directs the storm-water runoff from highways into detention basins that store the water until it infiltrates into the ground. Because most of the water eventually percolates to the water table, and because runoff from highways can contain contaminants, using roadside detention basins may degrade ground...
By
Washington Water Science Center
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Highway Storm-Water Detention

In some areas of the state, the Washington State Department of Transportation (WSDOT) sometimes directs the storm-water runoff from highways into detention basins that store the water until it infiltrates into the ground. Because most of the water eventually percolates to the water table, and because runoff from highways can contain contaminants, using roadside detention basins may degrade ground...
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