Science to Sustain At-Risk Terminal Lakes The Walker Project.

Slides:

Advertisements

Similar presentations

U.S. Department of the Interior U.S. Geological Survey Water budget and integrated flow model of Walker Lake, Nevada In cooperation with Bureau of Reclamation.

Advertisements

Science to Sustain At-Risk Terminal Lakes Walker River Basin Project In Cooperation with the Bureau of Reclamation Legislative Committee on Public Lands.

Evaporation (E) from Walker Lake, Nevada U.S. Geological Survey Walker River Basin Project Kip K. Allander: Project Hydrologist Thomas J. Lopes: Project.

Application of the Continuous Slope-Area Method for Determining Stream Discharge and Development of Rating Curves in Ephemeral Channels Navajo Nation Hydroclimate.

Fiber Optic Temperature Sensing in the Walker Basin: From Seedbeds to Seepage Scott W. Tyler University of Nevada, Reno Dept. of Geologic Sciences and.

Abstract Characterizing the hydrology of the shallow riparian groundwater of the Rio Grande Bosque is important for understanding the interactions with.

Brian McInerney Hydrologist National Weather Service Hydrologic Outlook April 2006.

Why is Groundwater Important? Drinking water for nearly 50% of US 98% of rural domestic supplies 35% of public supplies 42% of irrigation for agriculture.

Groundwater Resources of Parowan Valley Tom M. Marston, U. S. Geological Survey In cooperation with the Utah Division of Water Rights.

Walker River Basin Research Projects James Thomas, Desert Research Institution.

U.S. Department of the Interior U.S. Geological Survey Lake Evaporation using Energy Budget Method: Walker Lake, NV - a case study In cooperation with.

Apalachicola/Chattahoochee/Flint Focus Area - USGS WaterSMART NIDIS SE Climate Forum Lake Lanier Islands, GA December 2, 2011.

Proposed San Antonio Groundwater Availability Project Claudia Faunt and Matt Landon California Water Science Center U.S. Geological Survey.

Topography & Topographic Maps 8th Grade Science.

Great Valley Water Resources Science Forum

USGS Water Resource Monitoring and Assessment Activities Salinity and other topics presented to the Garfield County Energy Advisory Board Dec. 1, 2005.

USGS Streamflow Monitoring in Georgia NIDIS Early Warning System Development Workshop May 18-19, 2010 Callaway Gardens, GA.

U.S. Department of the Interior U.S. Geological Survey Sustainability of Ground-Water Use in the San Pedro River Basin, Cochise County, Arizona James Leenhouts,

Overview of USGS Groundwater Quality Assessment Activities and Related Data in Alabama 2011 Alabama Water Resources Conference September 9, 2011, Perdido.

North Fork Shenandoah River Results Application For the State Drought Assessment Plan Jennifer L. Krstolic and Donald C. Hayes.

Evapotranspiration (ET) in the Lower Walker River Basin, West- Central Nevada By Kip K. Allander, J. LaRue Smith, Michael J. Johnson, U.S. Geological Survey,

Hydrogeologic Data Collection for Water-Resources Evaluation in Bedford County, Virginia Brad White, Virginia Department of Environmental Quality, Ground.

Water a single resource. Watershed Area that contributes water to a particular point on a stream or other surface-water feature, such as a lake Based.

Water for America Initiative Eric J. Evenson Advisory Committee on Water Information February 20, 2008 U.S. Department of the Interior U.S. Geological.

Establishing Monitoring Networks in Karst Terrain.

DEQ Water Supply Planning Integrating Monitoring, Modeling, and Scientific Study with Adaptive Management and Planning.

U.S. Department of the Interior U.S. Geological Survey Ground-Water Monitoring in the Lake Michigan Basin Lake Michigan Monitoring Coordinating Council.

U.S. Department of the Interior U.S. Geological Survey USGS Water Availability and Use Pilot: Great Lakes and Western Basins Joint USGS -- USACOE Meeting.

WHY PUMPING IN BIG CHINO VALLEY THREATENS THE VERDE RIVER By William Meyer and Edward W. Wolfe January 28, 2009.

USGS Overview Workshop on Improved Quality of Data and Data Exchange for Climate Research and Analysis NOAA National Climatic Data Center Bill Hazell,

Walker River Basin Project Agriculture, Restoration, and Plant/Soil/Water Interactions Tasks 4 & 5 Summary2008.

Modes of Sustainability Definition  In text  In aquifer-storage terms  In water-budget terms  In physical changes at the river (natural side)

U.S. Department of the Interior U.S. Geological Survey Groundwater Study For Malad and Bear Rivers Drainages, Box Elder County Bear River Water Conservancy.

Attachment B Water Quality Duration Curves for the Lower Eel River Watershed.

Linkage Between StreamStats and Water-Use Database SWUDS Water-Use Database (UNIX/ Ingres) Data Ware- house (Windows/ Access) StreamStats Output Web service.

Tracking Oregon’s Water Resources: An Overview of Data Resources and a Pitch for a United Network Rich Marvin, R.G., P.H. Kara Morris Sr. Hydrologist Hydrographer.

South Platte Decision Support System Colorado Water Conservation Board and Division of Water Resources.

MPCA Groundwater Roles

Regional Integrated Science Projects - Opequon Creek/Shenandoah River Basins Agencies Involved – USGS Water, Geology, GIO/ Geography, and Biology Disciplines,

July 31, 2012 Kevin Werner NWS Colorado Basin River Forecast Center Tim Bardsley Western Water Assessment 1 Future Colorado Basin Observing System.

NATIONAL WATER RESOURCE STRATEGY SOUTH AFRICA’S WATER SITUATION AND STRATEGIES TO BALANCE SUPPLY AND DEMAND LOWER VAAL WMA.

Why a new groundwater model? Developing a new model for sacramento valley Annual DWR Geology & Groundwater Meeting December 3, 2014 Linda D. Bond, P.G.

INNOVATIVE SOLUTIONS for a safer, better world Capability of passive microwave and SNODAS SWE estimates for hydrologic predictions in selected U.S. watersheds.

Seismic Refraction and Double Springs Well Modification on the Walker River Indian Reservation August 25, 2005 By Kip K. Allander and David L. Berger.

BASINS 2.0 and The Trinity River Basin By Jóna Finndís Jónsdóttir.

HYDROLOGY AND WATER MANAGEMENT Ed Maurer Dept. of Civil and Environmental Engineering Univ. of Washington.

Afghan Water Task Progress Report September 7, 2006 EROS Data Center, Sioux Falls, SD Gregg J. Wiche Doug G. Emerson U. S. Geological Survey Bismarck,

U.S. Geological Survey Presentation to the New York Drought Management Task Force September 3, 1999 Data-Collection Network Funded in Cooperation with.

CALSIM II - San Joaquin River Basin Refinements and Results Presentation by Dan Steiner On behalf of the San Joaquin River Group Authority March 14, 2005.

Ogallala Formation (containing High Plains Aquifer): Deposited over 10 million years ago Coarse-grained sand, gravel, fine clay, silt, and sand 174,000.

Update on A National Water Census * Part of the Initiative U.S. Department of the Interior U.S. Geological Survey.

U.S. Department of the Interior U.S. Geological Survey Overview and Evaluation of the Current Hydrologic Data Network Scott Morlock USGS Indiana Water.

June 2009: How severe is the current drought in the Hill Country?

Utah/Nevada Agreement Utah Division of Water Rights August 15, 2006.

The Importance of Groundwater in Sustaining Streamflow in the Upper Colorado River Basin Matthew Miller Susan Buto, David Susong, Christine Rumsey, John.

USA Questions. What is the capital city of the USA?

CEE 3430, Engineering Hydrology David Tarboton. Overview Handouts –Syllabus –Schedule –Student Information Sheet –Homework 1 Web:

CEE 3430, Engineering Hydrology David Tarboton

Presented by Jon Traum, P.E.

Walker River Irrigation District

Water Budget & Bank Storage

CEE 3430, Engineering Hydrology David Tarboton

DEVELOPING A WATER BUDGET FOR MORGAN VALLEY, MORGAN COUNTY, UTAH

Flood Monitoring Tools 2011 OFMA Annual Conference

Hydrologic Conditions: Surface and Ground Water Resources July 2012

Ratio of Water used by Agriculture to Discharge into the Great Salt Lake in the Bear River Basin Presented by: Timothy Shaffer.

June 2009: How severe is the current drought in the Hill Country?

Point Observations Information Model

Study Update Water Quality Modeling

2017 Snowpack Status and Streamflow Outlook for Walker Basin

Presentation transcript:

Science to Sustain At-Risk Terminal Lakes The Walker Project

Progress Report To Walker River Paiute Tribe August 25, 2005 By Project Hydrologist: Kip K. Allander Project Chief: Thomas J. Lopes

Location of Walker River Basin West Walker R. near Hudson Walker R. near Wabuska East Walker R. above Strosnider Ditch near Mason Walker R. at Lateral 2-A near Schurz

Overview Problem Purpose and objectives of project Status of activities and accomplishments Plans for upcoming year

Walker Lake Salinity Lake-level declines of 4.1 ft/yr occur during periods when no flow enters Walker Lake from Walker River. Thomas, J.M., 1995, Water budget and salinity of Walker Lake, western Nevada: USGS Fact Sheet FS , 4 p.

Walker River Streamflow

Objectives Better quantify streamflow in the Walker Basin Estimate evapotranspiration losses from the lake and natural and agricultural vegetation Develop an improved water budget for Walker Lake Develop a model to predict how changes in upstream irrigation practices would affect flows into Walker Lake

Accomplishments Surface-Water (SW) network Ground-Water (GW) network Evapotranspiration (ET) network Mapping Web Site

SW Network SW Sites

SW Network -upgrades

New Stream Gages Green Ck near Bridgeport Virginia Ck near Bridgeport

Real-Time Data on Walker Lake Gage

Recent Daily Data on Walker Lake Gage

GW Network GW sites

Ground-Water/Surface-Water Sites Willows ET (above Weber) Cow Camp Gage Lateral 2-A Gage Powerline Road Walker River at Mouth

GW/SW Site LocationsWillows Cow Camp Lateral 2A Powerline Road Walker River Mouth

ET Network

Evapotranspiration (ET) Stations Alfalfa (2) – Mason Valley WMA Willow – Above Weber Reservoir Greasewood – Southeast of Schurz Rabbit Brush – Near Feedlot Salt Grass – South of Feedlot Tamarisk – South of Powerline Road Open Water – Walker Lake

Alfalfa – Mason Valley WMA

Willows – Above Weber

Rabbit Brush – Near Feedlot

Greasewood – Southeast of Schurz

Salt Grass – South of Feedlot

Salt Cedar – South of Powerline Road

Open Water – Walker Lake

Mapping: Satellite imagery Lidar Bathymetry Side-scan sonar Bathymetry

Lidar Principle Transmit Pulse Returned Backscatter First Return Range Last Return Intermediate Return Canopy Ground

Walker Lake bathymetry Refined elevation/volume relations

Bathymetry Provisional Data, Subject to revision Maximum depth in January 2005 was 81.4 ft

Walker Lake Spring Deposits Side-scan sonar

Side-Scan Sonar High Resolution Sonar technique Used for detailed mapping Shipwreck (located in Gulf of Mexico) is an example of resolution of detail of side-scan sonar technique.

Web Site Click on data link for interactive map page

Plans for Upcoming Year Continue to collect data – Data network is essentially in full operation Develop elevation/volume relations for Walker Lake Classify and map vegetation Geophysics near Double Springs and river mouth Obtain water level at Double Springs Well Install additional observation wells to refine hydrologic understanding of GW system

Click on Wabuska Streamgage for example of real-time data retrieval

Click here to return to slide show