The Yakima River flows 215 miles from the outlet of Keechelus Lake in the central Washington Cascades southeasterly to the Columbia River, draining an area of 6,155 square miles. The Yakima River Basin is one of the most intensively irrigated areas in the United States. Population in the Yakima River Basin was about 238,000 in 1990.
Increasing demands for water for municipal, fisheries, agricultural, industrial, and recreational uses will affect the ground-water resources of the basin. A better understanding of the ground-water flow system and its relation to rivers and streams is needed to effectively manage the basin's water resources.
In cooperation with the U.S. Bureau of Reclamation, the Washington Department of Ecology, and the Yakama Indian Nation, the USGS is studying the ground-water system in the Yakima River Basin and how it interacts with rivers and streams in the basin. The study includes data collection, mapping of hydrogeologic units and ground-water levels, and a computer numerical model to bring together all the information.
9722-A4W - Ground Water in the Yakima River Basin, Washington, and its Relation to the Surface-Water Resource - Completed FY2011
Problem and Needs - The surface water in the Yakima River Basin is under adjudication and it is not known how much is available for appropriation. There are increasing demands for water for municipal, fisheries, agricultural, industrial, and recreational uses which must be met by ground-water withdrawals and/or by changes in the way water resources are allocated and used. On-going activities in the basin to enhance fisheries and to obtain additional water for agriculture may be affected by ground-water withdrawals and by rules implemented under the Endangered Species Act for salmonid fish. An integrated understanding of the ground-water flow system and its relation to the surface-water resources is needed to implement most water-resources management strategies in the basin.
Objectives - The objectives of the study are to describe the ground-water flow system and its interaction with surface water, and to integrate this information into a water-resources management tool--a numerical model. The improved understanding of the system can be used to describe concepts to laypersons and to guide and support actions taken by natural-resources management agencies. The numerical model will be an integrated tool for daily to long-term water-resources management and for testing potential management strategies
Relevance and Benefits - The study addresses many issues identified in the USGS Water Resources Division's strategic plan for meeting the Nation's water-resources needs. They include the development of tools for managing the Nation's watersheds effectively and the improvement of existing simulation tools. Other important issues include the assessment of availability and sustainability of America's water, estimating effects of land-use and management alternatives on water quantity, and determining effects of ground-water withdrawals on surface water and aquatic ecology. The USGS is a neutral scientific party that provides information and develops models to solve important problems that are common in the Nation.
Approach - The study will be conducted in three phases. The first phase includes: (1) project planning and coordination, (2) gathering, compiling, documenting, and assessing available data, and (3) collecting initial data. The second phase consists of data-collection activities to support: (1) mapping of hydrogeologic units, (2) estimating ground-water use, (3) developing estimates of ground-water recharge, and (4) constructing maps of ground-water levels. Together, these four work elements provide the information for an overall description of the ground-water flow system and the building blocks for the hydrogeologic framework. In the third phase, a numerical model or models will be constructed of the ground-water flow system to integrate the available information. The model will be used to gain an understanding of the flow system and its relation to surface water, and to test management strategies. The model will be available for public use.
Below are publications associated with this project.
Numerical simulation of groundwater flow for the Yakima River basin aquifer system, Washington
River-aquifer exchanges in the Yakima River basin, Washington
Summary of Seepage Investigations in the Yakima River Basin, Washington
Hydrogeologic Framework of the Yakima River Basin Aquifer System, Washington
Hydrographs showing ground-water level trends for selected wells in the Yakima River basin aquifer system, Washington
Thermal Profiles for Selected River Reaches in the Yakima River Basin, Washington
Extent and depth to top of basalt and interbed hydrogeologic units, Yakima River Basin aquifer system, Washington
Estimates of Monthly Ground-Water Recharge to the Yakima River Basin Aquifer System, Washington, 1960-2001, for Current Land-Use and Land-Cover Conditions
Estimates of ground-water recharge to the Yakima River Basin aquifer system, Washington, for predevelopment and current land-use and land-cover conditions
A Deep Percolation Model for Estimating Ground-Water Recharge: Documentation of Modules for the Modular Modeling System of the U.S. Geological Survey
Estimates of ground-water pumpage from the Yakima River Basin aquifer system, Washington, 1960-2000
Hydrogeologic framework of sedimentary deposits in six structural basins, Yakima River basin, Washington
Below are partners associated with this project.
The Yakima River flows 215 miles from the outlet of Keechelus Lake in the central Washington Cascades southeasterly to the Columbia River, draining an area of 6,155 square miles. The Yakima River Basin is one of the most intensively irrigated areas in the United States. Population in the Yakima River Basin was about 238,000 in 1990.
Increasing demands for water for municipal, fisheries, agricultural, industrial, and recreational uses will affect the ground-water resources of the basin. A better understanding of the ground-water flow system and its relation to rivers and streams is needed to effectively manage the basin's water resources.
In cooperation with the U.S. Bureau of Reclamation, the Washington Department of Ecology, and the Yakama Indian Nation, the USGS is studying the ground-water system in the Yakima River Basin and how it interacts with rivers and streams in the basin. The study includes data collection, mapping of hydrogeologic units and ground-water levels, and a computer numerical model to bring together all the information.
9722-A4W - Ground Water in the Yakima River Basin, Washington, and its Relation to the Surface-Water Resource - Completed FY2011
Problem and Needs - The surface water in the Yakima River Basin is under adjudication and it is not known how much is available for appropriation. There are increasing demands for water for municipal, fisheries, agricultural, industrial, and recreational uses which must be met by ground-water withdrawals and/or by changes in the way water resources are allocated and used. On-going activities in the basin to enhance fisheries and to obtain additional water for agriculture may be affected by ground-water withdrawals and by rules implemented under the Endangered Species Act for salmonid fish. An integrated understanding of the ground-water flow system and its relation to the surface-water resources is needed to implement most water-resources management strategies in the basin.
Objectives - The objectives of the study are to describe the ground-water flow system and its interaction with surface water, and to integrate this information into a water-resources management tool--a numerical model. The improved understanding of the system can be used to describe concepts to laypersons and to guide and support actions taken by natural-resources management agencies. The numerical model will be an integrated tool for daily to long-term water-resources management and for testing potential management strategies
Relevance and Benefits - The study addresses many issues identified in the USGS Water Resources Division's strategic plan for meeting the Nation's water-resources needs. They include the development of tools for managing the Nation's watersheds effectively and the improvement of existing simulation tools. Other important issues include the assessment of availability and sustainability of America's water, estimating effects of land-use and management alternatives on water quantity, and determining effects of ground-water withdrawals on surface water and aquatic ecology. The USGS is a neutral scientific party that provides information and develops models to solve important problems that are common in the Nation.
Approach - The study will be conducted in three phases. The first phase includes: (1) project planning and coordination, (2) gathering, compiling, documenting, and assessing available data, and (3) collecting initial data. The second phase consists of data-collection activities to support: (1) mapping of hydrogeologic units, (2) estimating ground-water use, (3) developing estimates of ground-water recharge, and (4) constructing maps of ground-water levels. Together, these four work elements provide the information for an overall description of the ground-water flow system and the building blocks for the hydrogeologic framework. In the third phase, a numerical model or models will be constructed of the ground-water flow system to integrate the available information. The model will be used to gain an understanding of the flow system and its relation to surface water, and to test management strategies. The model will be available for public use.
Below are publications associated with this project.
Numerical simulation of groundwater flow for the Yakima River basin aquifer system, Washington
River-aquifer exchanges in the Yakima River basin, Washington
Summary of Seepage Investigations in the Yakima River Basin, Washington
Hydrogeologic Framework of the Yakima River Basin Aquifer System, Washington
Hydrographs showing ground-water level trends for selected wells in the Yakima River basin aquifer system, Washington
Thermal Profiles for Selected River Reaches in the Yakima River Basin, Washington
Extent and depth to top of basalt and interbed hydrogeologic units, Yakima River Basin aquifer system, Washington
Estimates of Monthly Ground-Water Recharge to the Yakima River Basin Aquifer System, Washington, 1960-2001, for Current Land-Use and Land-Cover Conditions
Estimates of ground-water recharge to the Yakima River Basin aquifer system, Washington, for predevelopment and current land-use and land-cover conditions
A Deep Percolation Model for Estimating Ground-Water Recharge: Documentation of Modules for the Modular Modeling System of the U.S. Geological Survey
Estimates of ground-water pumpage from the Yakima River Basin aquifer system, Washington, 1960-2000
Hydrogeologic framework of sedimentary deposits in six structural basins, Yakima River basin, Washington
Below are partners associated with this project.