DOCSLIB.ORG

Quillayute River Zone Disconnected Tributary CMZ Alluvial Fan

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Quillayute River Zone Disconnected Tributary CMZ Alluvial Fan Ü 1 2 Ü E River Mile Marker CL_##_## Reach_ID Segment Boundaries 3 Geotechnical Buffer Recommended Channel CMZ Migration Quillayute River Zone Disconnected Tributary CMZ Alluvial Fan 0 50 100 150 Meters 5 Flow Direction CL_QL_01 0 250 500 Feet End of Delineation 2010 aerial from Microsoft via ESRI World Imagery 1:24,000 USGS DRG River miles calculated from NHD stream alignment (USGS) Roads from TIGER (US Census Bureau) Coordinate System: NAD83 State Plane Washington North Analyzed by: Minda Troost, LG (GeoEngineers) Reviewed by: Mary Ann Reinhart, LG, LEG (GeoEngineers) and/or Patricia Olson, PhD, LHG, (WA Dept. of Ecology) 4 Channel Migration Assessment Prepared for the Shoreline Master Program Update Clallam County, Washington Quillayute River Map 1 Source File: P:\0\0504064\GIS\MXD\Finals\Clallam_Final_Aerial.mxd: Modified: 4/11/2013 mtroost Ü CL_SD_01 1 2 Ü Sol Duc River 0 E River Mile Marker CL_##_## Reach_ID Segment Boundaries Geotechnical Buffer Recommended Bogachiel River 6 Channel CMZ Migration Quillayute River Zone Disconnected Tributary CMZ Alluvial Fan CL_QL_01 0 50 100 150 Meters 5 Flow Direction CL_BO_01 0 250 500 Feet 2010 aerial from Microsoft via ESRI World Imagery 1:24,000 USGS DRG River miles calculated from NHD stream alignment (USGS) Roads from TIGER (US Census Bureau) Coordinate System: NAD83 State Plane Washington North Analyzed by: Minda Troost, LG (GeoEngineers) Reviewed by: Mary Ann Reinhart, LG, LEG (GeoEngineers) and/or Patricia Olson, PhD, LHG, (WA Dept. of Ecology) Channel Migration Assessment Prepared for the Shoreline Master Program Update Clallam County, Washington Quillayute River Map 2 Source File: P:\0\0504064\GIS\MXD\Finals\Clallam_Final_Aerial.mxd: Modified: 4/11/2013 mtroost Ü 1 2 continental glacial till Fraser-age Ü Relative Elevation (feet) 25 E River Mile Marker CL_##_## Reach_ID 20 Segment Boundaries 3 Geotechnical Buffer alluvium Recommended 15 Channel CMZ 10 Migration Quillayute River Zone Disconnected Tributary CMZ Height Above Water Surface 5 Alluvial Fan 0 50 100 150 Meters 5 Flow Direction 0 CL_QL_01 Water 0 250 500 Feet Below End of Delineation Surface -5 alluvium 2002 LIDAR topography (Puget Sound LIDAR Consortium). 10m DEM USGS 1:24,000 USGS DRG WA State Dept. of Nat. Resources 1:100,000 Geology River miles calculated from NHD stream alignment (USGS) Roads from TIGER (US Census Bureau) alluvium Coordinate System: NAD83 State Plane Washington North Analyzed by: Minda Troost, LG (GeoEngineers) Reviewed by: Mary Ann Reinhart, LG, LEG (GeoEngineers) and/or Patricia Olson, PhD, LHG, (WA Dept. of Ecology) 4 Channel Migration Assessment Prepared for the Shoreline Master Program Update alpine glacial drift water alpine glacial drift pre-Wisconsinan pre-Wisconsinan Clallam County, Washington younger younger mass-wasting deposits mass-wasting deposits mostly landslides mostly landslides Quillayute River Map 1 Source File: P:\0\0504064\GIS\MXD\Finals\Clallam_Final_Geology.mxd: Modified: 4/11/2013 mtroost Ü CL_SD_01 1 2 continental glacial till Fraser-age Ü Sol Duc River 0 Relative Elevation (feet) 25 E River Mile Marker alluvium CL_##_## Reach_ID 20 Segment Boundaries Geotechnical Buffer alluvium Recommended Bogachiel River 15 6 Channel CMZ 10 Migration Quillayute River Zone Disconnected Tributary CMZ Height Above Water Surface 5 Alluvial Fan CL_QL_01 0 50 100 150 Meters 5 Flow Direction 0 water Water 0 250 500 Feet CL_BO_01 Below Surface -5 2002 LIDAR topography (Puget Sound LIDAR Consortium). alluvium 10m DEM USGS 1:24,000 USGS DRG WA State Dept. of Nat. Resources 1:100,000 Geology River miles calculated from NHD stream alignment (USGS) Roads from TIGER (US Census Bureau) Coordinate System: NAD83 State Plane Washington North Analyzed by: Minda Troost, LG (GeoEngineers) Reviewed by: Mary Ann Reinhart, LG, LEG (GeoEngineers) alluvium and/or Patricia Olson, PhD, LHG, (WA Dept. of Ecology) Channel Migration Assessment continental glacial outwash Fraser-age Prepared for the Shoreline Master Program Update alpine glacial drift Clallam County, Washington pre-Wisconsinan mass-wasting deposits mass-wasting deposits younger mostly landslides mostly landslides alpine glacial drift Quillayute River Map 2 pre-Wisconsinanmarine sedimentary rocks younger Source File: P:\0\0504064\GIS\MXD\Finals\Clallam_Final_Geology.mxd: Modified: 4/11/2013 mtroost Ü 1 2 Ü Relative Elevation (feet) 25 E River Mile Marker CL_##_## Reach_ID 20 Segment Boundaries 3 E Geotechnical Buffer Recommended 15 Channel CMZ 10 Migration Quillayute River Zone Disconnected Tributary CMZ Height Above Water Surface 5 Alluvial Fan 0 50 100 150 Meters 5 Flow Direction 0 CL_QL_01 E Water 0 250 500 Feet Below End of Delineation Surface -5 2002 LIDAR topography (Puget Sound LIDAR Consortium). 10m DEM USGS 1:24,000 USGS DRG River miles calculated from NHD stream alignment (USGS) Reletive elevation surface from WA Deptartment of Ecology Roads from TIGER (US Census Bureau) Coordinate System: State Plane Washington North Analyzed by: Minda Troost, LG (GeoEngineers) Reviewed by: Mary Ann Reinhart, LG, LEG (GeoEngineers) and/or Patricia Olson, PhD, LHG, (WA Dept. of Ecology) 4 Channel Migration Assessment E Prepared for the Shoreline Master Program Update Clallam County, Washington Quillayute River Map 1 Source File: P:\0\0504064\GIS\MXD\Finals\Clallam_Final_RWSE.mxd: Modified: 4/11/2013 mtroost Ü CL_SD_01 1 2 Ü Sol Duc River 0 Relative E Elevation (feet) 25 E River Mile Marker CL_##_## Reach_ID 20 Segment Boundaries Geotechnical Buffer Recommended Bogachiel River 15 6 Channel E CMZ 10 Migration Quillayute River Zone Disconnected Tributary CMZ Height Above Water Surface 5 Alluvial Fan CL_QL_01 5 0 50 100 150 Meters E Flow Direction 0 Water 0 250 500 Feet CL_BO_01 Below Surface -5 2002 LIDAR topography (Puget Sound LIDAR Consortium). 10m DEM USGS 1:24,000 USGS DRG River miles calculated from NHD stream alignment (USGS) Reletive elevation surface from WA Deptartment of Ecology Roads from TIGER (US Census Bureau) Coordinate System: State Plane Washington North Analyzed by: Minda Troost, LG (GeoEngineers) Reviewed by: Mary Ann Reinhart, LG, LEG (GeoEngineers) and/or Patricia Olson, PhD, LHG, (WA Dept. of Ecology) Channel Migration Assessment Prepared for the Shoreline Master Program Update Clallam County, Washington Quillayute River Map 2 Source File: P:\0\0504064\GIS\MXD\Finals\Clallam_Final_RWSE.mxd: Modified: 4/11/2013 mtroost E.
Load more

Recommended publications
  • Gold and Fish Pamphlet: Rules for Mineral Prospecting and Placer Mining
    WASHINGTON DEPARTMENT OF FISH AND WILDLIFE Gold and Fish Rules for Mineral Prospecting and Placer Mining May 2021 WDFW | 2020 GOLD and FISH - 2nd Edition Table of Contents Mineral Prospecting and Placer Mining Rules 1 Agencies with an Interest in Mineral Prospecting 1 Definitions of Terms 8 Mineral Prospecting in Freshwater Without Timing Restrictions 12 Mineral Prospecting in Freshwaters With Timing Restrictions 14 Mineral Prospecting on Ocean Beaches 16 Authorized Work Times 17 Penalties 42 List of Figures Figure 1. High-banker 9 Figure 2. Mini high-banker 9 Figure 3. Mini rocker box (top view and bottom view) 9 Figure 4. Pan 10 Figure 5. Power sluice/suction dredge combination 10 Figure 6. Cross section of a typical redd 10 Fig u re 7. Rocker box (top view and bottom view) 10 Figure 8. Sluice 11 Figure 9. Spiral wheel 11 Figure 10. Suction dredge . 11 Figure 11. Cross section of a typical body of water, showing areas where excavation is not permitted under rules for mineral prospecting without timing restrictions Dashed lines indicate areas where excavation is not permitted 12 Figure 12. Permitted and prohibited excavation sites in a typical body of water under rules for mineral prospecting without timing restrictions Dashed lines indicate areas where excavation is not permitted 12 Figure 13. Limits on excavating, collecting, and removing aggregate on stream banks 14 Figure 14. Excavating, collecting, and removing aggregate within the wetted perimeter is not permitted 1 4 Figure 15. Cross section of a typical body of water showing unstable slopes, stable areas, and permissible or prohibited excavation sites under rules for mineral prospecting with timing restrictions Dashed lines indicates areas where excavation is not permitted 15 Figure 16.
    [Show full text]
  • Case Studies of Three Salmon and Steelhead Stocks in Oregon and Washington, Including Population Status, Threats, and Monitoring Recommendations
    HOW HEALTHY ARE HEALTHY STOCKS? Case Studies of Three Salmon and Steelhead Stocks in Oregon and Washington, including Population Status, Threats, and Monitoring Recommendations Prepared for the Native Fish Society April 2001 How Healthy Are Healthy Stocks? Case Studies of Three Salmon and Steelhead Stocks in Oregon and Washington, including Population Status, Threats, and Monitoring Recommendations Prepared for: Bill Bakke, Director Native Fish Society P.O. Box 19570 Portland, Oregon 97280 Prepared by: Peter Bahls, Senior Fish Biologist David Evans and Associates, Inc. 2828 S.W. Corbett Avenue Portland, Oregon 97201 Sponsored by the Native Fish Society and the U.S. Environmental Protection Agency. April 2001 Please cite this document as follows: Bahls, P. 2001. How healthy are healthy stocks? Case studies of three salmon and steelhead stocks in Oregon and Washington, including population status, threats, and monitoring recommendations. David Evans and Associates, Inc. Report. Portland, Oregon, USA. EXECUTIVE SUMMARY Three salmon stocks were chosen for case studies in Oregon and Washington that were previously identified as “healthy” in a coast-wide assessment of stock status (Huntington et al. 1996): fall chinook salmon (Oncorhynchus tshawytscha) of the Wilson River, summer steelhead (O. mykiss) of the Middle Fork John Day (MFJD) River, and winter steelhead (O. mykiss) of the Sol Duc River. The purpose of the study was to examine with a finer focus the status of these three stocks and the array of human influences that affect them. The best available information was used, some of which has become available since the 1996 assessment of healthy stocks was conducted. Recommendations for monitoring were developed to address priority data gaps and most pressing threats to the species.
    [Show full text]
  • North Pacific Coast (WRIA 20) Salmon Restoration Strategy (2021 Edition)
    North Pacific Coast (WRIA 20) Salmon Restoration Strategy (2021 Edition) North Pacific Coast Lead Entity University of Washington, Olympic Natural Resources Center 1455 South Forks Avenue, P.O. Box 1628, Forks, WA 98331 Approved by the North Pacific Coast Lead Entity Public Review Draft - Pending April 2021 final approval 2021 North Pacific Coast (WRIA 20) Salmon Restoration Strategy Table of Contents Page - Table of Contents i - List of Figures ii - List of Tables ii - Acronyms iii - Glossary iv - Executive Summary xi - Acknowledgements xii Section 1: Project Prioritization and Application Processes 1.1 Goals and Objectives. 1 1.1.1 Incorporating Climate Change 2 1.1.2 Education and Outreach 3 1.2 Project Prioritization Method. 4 1.2.1 Descriptions of Prioritization Categories: 7 1.3 Review Process (Project application procedure, explanation of evaluation process). 10 1.4 Annual Project List. 10 1.5 Eligibility for the Annual Project Round 11 Section 2: Priority Projects by Geographic Section 2.0 All WRIA 20 Basins System-wide 12 2.1 Hoh River Basin: 2.1.1 Hoh Watershed Background. 13 2.1.2 Hoh River Watershed Priority Projects. 18 2.2 Quillayute River Complex: 2.2.1 Quillayute Basin Background. 21 2.1.1.1 Climate Change Forecasts 23 2.2.2 Quillayute Basin Prioritized Projects: 24 2.2.2.0 Quillayute Basin-Wide Priority Projects. 24 2.2.2.1 Quillayute Main Stem Priority Projects. 25 2.2.2.2 Dickey River Watershed Priority Projects. 27 2.2.2.3 Bogachiel River Watershed Priority Projects. 28 2.2.2.4 Calawah River Watershed Priority Projects.
    [Show full text]
  • 2016 State of Our Watersheds Report Quillayute River Basin Quileute Tribe
    2016 State of Our Watersheds Report Quillayute River Basin abitat projects are vital to restoring the Hsalmon fishery. We have successfully partnered on projects in the past but we need many more into the future. - MEL MOON, NATURAL RESOURCES DIRECTOR QUILEUTE TRIBE Quileute Tribe The Quileute Tribe is located in La Push, on the shores of the Pacific Ocean, where tribal members have lived and hunted for thousands of years. Although their reservation is only about 2 square miles, the Tribe’s original territory stretched along the shores of the Pacific from the glaciers of Mount Olympus to the rivers of rain forests. Much has changed since those times, but Quileute elders remember the time when the Seattle people challenged Kwalla, the mighty whale. They also tell the story of how the bayak, or ra- ven, placed the sun in the sky. 178 Quileute Tribe Large Watershed Has Significant Subbasins The Quileute Tribe’s Area of Concern co-managed with the state of Washington, includes the northern portion of WRIA 20, and the Quileute Tribe has a shared Usual from Lake Ozette to the Goodman Creek and Accustomed area with the Makah Tribe Watershed. The largest basin in the area in the Lake Ozette basin. The Lake Ozette is the Quillayute, with four major sub-ba- sockeye is listed as threatened under the sins: the Dickey, Sol Duc, Calawah and Endangered Species Act. Bogachiel rivers. This part of the coastal The area is heavily forested with rela- region is a temperate rainforest with abun- tively infrequent impervious cover caused dant waterfall and an annual rainfall that by development and small population cen- can reach 140 inches.
    [Show full text]
  • Quinault, Queets, Hoh, and Quillayute River Basins
    95 124°30’ 124° 123°30’ STRAIT OF JUAN DE FUCA British Columbia 48° 15' CANADA Ozette Lake . k F t s k e River r W o r, t F e as , North Fork v E r i e k iv R uc h R y d alawa ke le C ic So D 12043000 South Fork Forks er Quillayute Bogachiel Riv River r CLALLAM ve Mount Ri Olympus JEFFERSON So. oh Fork H H 12041200 oh River 47° r 45' ive R River r ate rw ts a ee e Qu Cl 12040500 r Quinault Rive Queets Lake GRAYS HARBOR 12039500 Quinault nault Qui PACIFIC OCEAN MASON Taholah GRAYS HARBOR 47° 15' EXPLANATION REAL-TIME SURFACE-WATER STATION WASHINGTON 010515 20 MILES 01015520 25 30 KILOMETERS Figure 12. Location of surface-water stations in the Quinault, Queets, Hoh, and Quillayute River Basins. 96 Dickey River Soleduck River Quillayute RM 6.51 RM River RM 6.5 1.3 RM RM Calawah River 10.2 North Fork 8.2 12043000 Calawah River RM 6.6 South Fork Calawah River Bogachiel River EXPLANATION Real-time surface-water station 12041200 RM RM 15.4 Hoh30.6 River 12041200 Station number RM 17.4 River mile Stream—Arrow shows direction of flow South Fork Hoh River PACIFIC OCEAN 12040500 Clearwater River RM 4.6 QueetsRM River 7.0 12039500 Quinault Quinault River RM 33.4 Lake Figure 13. Schematic diagram showing surface-water stations in the Quinault, Queets, Hoh, and Quillayute River Basins. QUINAULT RIVER BASIN 97 12039500 QUINAULT RIVER AT QUINAULT LAKE, WA ° ° 1⁄ 1⁄ LOCATION.--Lat 47 27'28", long 123 53'17", in SW 4NE 4 sec.25, T.23 N., R.10 W., Grays Harbor County, Hydrologic Unit 17100102, Quinault Indian Reservation, on left bank at outlet of Quinault Lake, 50 ft downstream from Olympic Highway bridge on U.S.
    [Show full text]
  • The Quillayute River
    The Quillayute River The Quillayute River is divided into two stream reaches. The downstream reach, QUILLAYUTE 10, flows entirely outside the planning unit from the Olympic National Park boundary to the river mouth within the Quileute Reservation. QUILLAYUTE 20 (RM 2.9‐5.3) is within the study area and extends from the Park Boundary at to the confluence of the Bogachiel and Sol Duc Rivers. Physical Environment The Quillayute River is the terminal mainstem of one of the largest and most productive river system networks on the Washington coast. The Quillayute River drainage encompasses over 800,000 acres and experiences some 120‐140 inches of rainfall per year. All of the contributing rivers have extensive tributary systems. The Quillayute mainstem is a low gradient and low velocity river, lacking in sinuosity and composed of long gravel bars. The flood plain for the mainstem is very wide throughout its length. Critical acquifer recharge areas occur throughout the mainstem channel, with one extensive recharge area located to the south of the channel between RM 3.6‐ 4. The mainstem channel is reported to flow over a landslide hazard area, portions of which extend out onto the north shoreline. Because the grade is gentle in this lowland portion of WRIA 20, tidal influence and measurable salinity can extend over five miles up to the confluence of the Sol Duc WRIA 20 Draft ICR June 30, 2011 55 | Page and Bogachiel Rivers at Three Rivers. This region is often exposed to high wind and heavy rainstorms resulting in peak flow events that cause sedimentation and velocity impacts in the Quillayute mainstem .
    [Show full text]
  • The Quillayute River
    The Quillayute River The Quillayute River is divided into two stream reaches. The downstream reach, QUILLAYUTE 10, flows entirely outside the planning unit from the Olympic National Park boundary to the river mouth within the Quileute Reservation. QUILLAYUTE 20 (RM 2.9-5.3) is within the study area and extends from the Park Boundary at to the confluence of the Bogachiel and Sol Duc Rivers. Physical Environment The Quillayute River is the terminal mainstem of one of the largest and most productive river system networks on the Washington coast. Four major rivers--the Bogachiel, Calawah, Sol Duc and Dickey-- combine to form the Quillayute River. The Quillayute River drainage encompasses over 800,000 acres and experiences some 120-140 inches of rainfall per year. All of the contributing rivers have extensive tributary systems. The Quillayute mainstem is a low gradient river, low velocity river, lacking in sinuosity and composed of long gravel bars. The flood plain for the mainstem is very wide throughout its length. Critical acquifer recharge areas occur throughout the mainstem channel, with one extensive recharge area located to the south of the channel between RM 3.6- 4. The mainstem channel is reported to flow over a landslide hazard area, portions of which extend out onto the north shoreline. Because the grade is gentle in this lowland portion of WRIA 20, tidal influence and measurable salinity can extend over five miles up to the confluence of the Sol Duc and Bogachiel Rivers at Three Rivers. This region is often exposed to high wind and heavy rainstorms resulting in peak flow events that cause sedimentation and velocity impacts in the Quillayute mainstem .
    [Show full text]
  • By Leonard M. Nelson Prepared in Cooperation with the Quileute Tribal Council and the U.S. Army Corps of Engineers, Pacific Nort
    UNITED STATES DEPARTMENT OF THE INTERIOR GEOLOGICAL SURVEY STREAMFLOW AND SEDIMENT TRANSPORT IN THE QUILLAYUTE RIVER BASIN, WASHINGTON By Leonard M. Nelson U.S. GEOLOGICAL SURVEY OPEN-FILE REPORT 82-627 Prepared in cooperation with the Quileute Tribal Council and the U.S. Army Corps of Engineers, Pacific Northwest Division, Seattle District Tacoma, Washington 1982 UNITED STATES DEPARTMENT OF THE INTERIOR JAMES G. WATT, Secretary GEOLOGICAL SURVEY Dallas L. Peck, Director For additional information write to: U.S. Geological Survey, WRD 1201 Pacific Avenue - Suite 600 Tacoma, Washington 98402-4384 CONTENTS Page Abstract 1 Introduction 2 Description of the basin 3 Streamflow 6 Low flows 11 Flood discharges 15 Sediment 16 Suspended-sediment transport 17 Bedload transport 23 References cited 28 ILLUSTRATIONS FIGURE 1. Map showing mean annual precipitation in the Quillayute River basin, during period 1930-57 4 2. Profiles of Quillayute River and selected tributaries 5 3. Graph showing mean monthly precipitaton at Forks 6 4. Map showing data-collection sites in the Quillayute River basin 8 5. Graph showing annual mean discharges at two gaging stations in the Quillayute River basin 9 6. Graph showing flow-duration curves for five gaging stations in the Quillayute River basin 13 7-10. Graphs showing relation of instantaneous suspended- sediment concentration to concurrent water discharge for: 7. Bogachiel River near LaPush 19 8. Calawah River near Forks 20 9. Soleduck River near Quillayute 21 10. Dickey River near LaPush 22 11. Graph showing relation of suspended-sediment discharge to bedload for White River below Clearwater River, near Buckley, during 1974-76.
    [Show full text]
  • Inventory of Fish Species in the Bogachiel, Dosewallips, and Quinault River Basins, Olympic National Park, Washington
    National Park Service U.S. Department of the Interior Natural Resource Stewardship and Science Inventory of Fish Species in the Bogachiel, Dosewallips, and Quinault River Basins, Olympic National Park, Washington Natural Resource Report NPS/NCCN/NRR—2015/955 ON THE COVER Top: (left) Federally threatened bull trout captured in Rustler Creek, North Fork Quinault River, Olympic National Park (OLYM) during fish inventory; (right) OLYM fisheries technicians conducting fish inventory via backpack electrofishing in Rustler Creek, North Fork Quinault River, OLYM. Middle: Upper Bogachiel River where OLYM fisheries crews inventoried 16 tributaries from June to August, 2002. Lower: (left) Sam Brenkman conducting snorkel survey in Dosewallips River, OLYM; (right) Rainbow trout captured in Big Creek, Quinault River, OLYM during fish inventory. Photo credits: Olympic National Park Files Inventory of Fish Species in the Bogachiel, Dosewallips, and Quinault River Basins, Olympic National Park, Washington Natural Resource Report NPS/NCCN/NRR—2015/955 Samuel J. Brenkman1, Stephen C. Corbett1, Scott H. Sebring1 1National Park Service Olympic National Park 600 East Park Avenue Port Angeles, Washington 98362 April 2015 U.S. Department of the Interior National Park Service Natural Resource Stewardship and Science Fort Collins, Colorado The National Park Service, Natural Resource Stewardship and Science office in Fort Collins, Colorado, publishes a range of reports that address natural resource topics. These reports are of interest and applicability to a broad audience in the National Park Service and others in natural resource management, including scientists, conservation and environmental constituencies, and the public. The Natural Resource Report Series is used to disseminate comprehensive information and analysis about natural resources and related topics concerning lands managed by the National Park Service.
    [Show full text]
  • City of Forks 2018-2038 Comprehensive Plan
    City of Forks 2018-2038 Comprehensive Plan 1 City Staff Incorporated originally in 1945, Forks has been classified as a code city under the laws of Washington State since 1984. Forks’ utilizes Planner/Attorney, Rod Fleck the "strong Mayor" form of government with the Mayor having the City Clerk/Treasurer, Audrey Grafstrom supervision of all executive and administrative aspects of the City. Public Works, Paul Hampton Day to day operations are undertaken by the City's department Consultant, Tom Beckwith FAICP, Beckwith Consulting Group managers in consultation with the Mayor. The elected City Council Maps, Kevin Bennett UW/ONRC positions are unpaid and consist of 4-year terms. All council positions are at-large and, along with the mayor position, require residency within city limits. Mayor – Tim Fletcher The Mayor is elected at large to a four-year term and presides over all meetings of the City Council. The Mayor serves as the Chief Executive Officer of the City but has the authority to appoint a City Administrator and a City Clerk to implement the executive duties of the City on a day-to-day basis. Additionally, the Mayor has the responsibility to appoint members to serve on various City Boards and Commissions, as well as special advisory committees. City Council – John Hillcar, Bill Brager, John Preston, Juanita Weissenfels, and Joe Soha. The Forks Council is elected at large to staggered four-year terms. Council members have the primary responsibility to establish policy, direction, and goals for the City, and adopt the annual budget for all City functions. The governing laws of the City are developed and adopted by the City Council through specific ordinances and are subject to Washington State Laws as adopted in the Revised Code of Washington (RCW).
    [Show full text]
  • Nonpoint Source Assessment Report FY 2009
    Quileute Tribe Nonpoint Source Assessment Report FY 2009 Prepared by Katie Krueger staff attorney/ geologist/grant writer for Quileute Natural Resources of the Quileute Tribe Table of Contents 1 Overview ………………………………………………………………………………….…….3 2 Introduction…………………………………………………………………………………….....6 2.1 Background…………………………………………………………………………..6 2.2 Goal Statement…………………………………………………………………..….10 2.3 Objectives………………………………………………………………………..….10 3 Methodology………………………………………………………….…………………………..11 3.1 Data Sources………………………………………………………………………...11 3.2 Evaluation…………………………………………………………………………...11 3.3 Assumptions………………………………………………………………………….12 4 Land Use Summary………………………………………………….…………………………...12 4.1 Navigable Waters, NPSP sources on or off reservation…………….……………….…15 4.2 NPSP tributaries sources, Usual and Accustomed Area……………………………..…l7 4.3 Discussion of sources…………………………………………………………………….…18 5 Water Quality Summary of Conditions……………………………………………………..……18 5.1 Surface and Groundwater Quality Summary……………………………………….…….19 6 Water Quality Standards………………………………………………………………..……..…20 7 Water Quality Results………………………………………………………………………..…20 7.1 Tables and graphs of results……………………………………….………………………22 7.2 Programs for NPSP reduction……………………………….……………………………..25 7.3 Reservation NPSP Management Studies……………………………………………..……28 7.4 U&A NPSP Management Studies…………………………………………………….....…33 7.5 Tabular results of U&A Work……………………………………………………………….41 7.6 Legislative Impacts…………………………………………………………………………..44 8 Selection of BMPs ………………………………………………….…………………………...45 8.1 Government
    [Show full text]
  • UNITED STATES DEPARTMENT of the INTERIOR JAMES G. WATT, Secretary GEOLOGICAL SURVEY
    UNITED STATES DEPARTMENT OF THE INTERIOR GEOLOGICAL SURVEY QUALITY OF WATER, QUILLAYUTE RIVER BASIN, WASHINGTON By M. O. Fret well U.S. GEOLOGICAL SURVEY Water-Resources Investigations Report 83-4162 Prepared in cooperation with the QUILEUTE TRIBAL COUNCIL Tacoma, Washington 1984 UNITED STATES DEPARTMENT OF THE INTERIOR JAMES G. WATT, Secretary GEOLOGICAL SURVEY Dallas L. Peck, Director FOP additional information write to: Copies of this report can be purchased from: District Chief Open-File Services Section U.S. Geological Survey Western Distribution Branch 1201 Pacific Avenue -Suite 600 U.S. Geological Survey Tacoma, Washington 98402-4384 Box 25425, Federal Center Lakewood, Colorado 80225 (Telephone: (303) 234-5888) CONTENTS Page Abstract 1 Introduction 3 Purpose and scope 3 Other investigations -- 4 Description of the study area 6 Geography 6 Climate 9 Geology 12 Washington State water-use and water-quality criteria 12 Ground-water quality in the Quillayute River basin- - 14 Relation of ground-water.quality to river-water quality -- - 17 Water quality of major rivers in the Quillayute River basin- 18 Soleduck River - 18 Nutrients 18 Bacteria 22 Temperature -- 22 Dissolved oxygen - 24 Common constituents 24 Calawah River 26 Nutrients 26 Bacteria 28 Temperature -- 28 Dissolved oxygen-- 28 Common constituents 28 Bogachiel River 31 Nutrients 31 Bacteria - 33 Temperature-- 33 Dissolved oxygen 33 Common constituents 33 Dickey River -- 36 Nutrients 36 Bacteria -- 38 Temperature - 38 Dissolved oxygen -- 38 Common constituents 38 Quillayute River -- 41 Nutrients 41 Bacteria 41 Temperature 41 Dissolved oxygen -- 41 Common constituents 41 Page River bottom materials ----- -- - 44 Lakes ---- ----------- 59 The Quillayute estuary -- ----------- -- 55 Mixing characteristics - -- 56 Dissolved oxygen-- --- ------ -- 60 Coliform bacteria-- -- -- --- --- 61 Ammonia-- ------------- ------------------- -___ __ 54 Other constituents-------- - - 65 Summary ---- -- ---- 66 Selected References --- -- - -- ---- 68 IV ILLUSTRATIONS Page FIGURE 1.
    [Show full text]