< - REPAIR, EVALUATION, MAINTENANCE, AND REHABILITATION RESEARCH PROGRAM US Army Corps of Engineers TECHNICAL REPORT REMR-CO-3 CASE HISTORIES OF CORPS BREAKWATER AND JETTY STRUCTURES Report 6 NORTH PACIFIC DIVISION by Donald L. Ward Coastal Engineering Research Center DEPARTMENT OF THE ARMY Waterways Experiment Station, Corps of Engineers PO Box 631, Vicksburg, Mississippi 39181-0631 November 1988 Report 6 of a Series Approved For Public Release; Distribution Unlimited is) Motes Prepared tor DEPARTMENT OF THE ARMY Hj og US Army Corps of Engineers Washington, DC 20314-1000 Under Work Unit 32278 and Work Unit 31269 The following two letters used as part of the number designating technical reports of research published under the Repatr, Evaluation, Maintenance, and Rehabilitation (REMR) Research Program identify the problem area under which the report was prepared: Problem Area Problem Area CS Concrete and Steel Structures EM Electrical and Mechanical GT Geotechnical El Environmental Impacts HY Hydraulics OM Operations Management co Coastal Destroy this report when no longer needed. Do not return it to the originator. The findings in this report are not to be construed as an official Department of the Army position unless so designated by other authorized documents. The contents of this report are not to be used for advertising, publication, or promotional purposes. Citation of trade names does not constitute an official endorsement or approval of the use of such commercial products. COVER PHOTOS: TOP — Concrete breakwater at Depoe Bay, Oregon (1969). BOTTOM — Rubble-mound jetties at Tillamook, Oregon (1979). Unclassified SECURITY CLASSIFICATION OF THIS PAGE Form Approved REPORT DOCUMENTATION PAGE OMB No. 0704-0188 Exp. Date: Jun 30, 1986 la. REPORT SECURITY CLASSIFICATION 1b. RESTRICTIVE MARKINGS Unclassified 2a. SECURITY CLASSIFICATION AUTHORITY 3. DISTRIBUTION / AVAILABILITY OF REPORT 2b. DECLASSIFICATION/ DOWNGRADING SCHEDULE AEE aves ot PENS PELCASS} CHEE MINN unlimited. 4. PERFORMING ORGANIZATION REPORT NUMBER(S) 5. MONITORING ORGANIZATION REPORT NUMBER(S) Technical Report REMR-CO-3 6a. NAME OF PERFORMING ORGANIZATION 6b. OFFICE SYMBOL | 7a. NAME OF MONITORING ORGANIZATION USAEWES, Coastal Engineering (If applicable) Research Center 6c. ADDRESS (City, State, and ZIP Code) 7b. ADDRESS (City, State, and ZIP Code) PO Box 631 Vicksburg, MS 39181-0631 8a. NAME OF FUNDING/SPONSORING | 8b. OFFICE SYMBOL 9. PROCUREMENT INSTRUMENT IDENTIFICATION NUMBER ORGANIZATION (if applicable) US Army Corps of Engineers 8c. ADDRESS (City, State, and ZIP Code) 10. SOURCE OF FUNDING NUMBERS PROGRAM PROJECT TASK WORK UNIT Washington, DC 20314-1000 ELEMENT NO. | NO. NO. ACCESSION NO See reverse 11. TITLE (Include Security Classification) Case Histories of Corps Breakwater and Jetty Structures; Report 6: North Pacific Division 12. PERSONAL AUTHOR(S) Ward, Donald L. 13a. TYPE OF REPORT 13b. TIME COVERED 14. DATE OF REPORT (Year, Month, Day) |15. PAGE COUNT Report 6 of a serie rrom Aug 86 _roJun 87 | November 1988 182 16. SUPPLEMENTARY NOTATION A report of the Coastal Problem Area of the Repair, Evaluation, Maintenance, and Rehabilitation (REMR) Research Program. Available from National Technical a ? 9g e A O 1 COSATI CODES on reverse if necessary and identify by block number) Rubble-mound construction Structural deterioration This report is sixth in a series of case histories of US Army Corps of Engineers (Corps) breakwater and jetty structures at nine Corps divisions. Chronological histories are presented for 14 breakwater and jetty projects located within the US Army Engineer Division, North Pacific (NPD), which includes the Portland, Seattle, and Alaska Districts. The projects currently include 68 breakwaters and 35 jetties. Nearly all of the structures are of rubble-mound construction, although steel pilings, steel sheetpilings, timber pilings, and concrete have also been used. Localized damage from wave attack and scour near the heads of the structures appears to be the major cause of structural deterioration. 20. DISTRIBUTION / AVAILABILITY OF ABSTRACT 21. ABSTRACT SECURITY CLASSIFICATION GO UNCLASSIFIED/UNLIMITED (1 SAME AS RPT. OJ otic users | Unclassified 22a. NAME OF RESPONSIBLE INDIVIDUAL 22b. TELEPHONE (Include Area Code) | 22c. OFFICE SYMBOL DD FORM 1473, 84 Mar 83 APR edition may be used until exhausted. SECURITY CLASSIFICATION OF THIS PAGE —_ SECURITY CLAS Ih CATO All other editions are obsolete. Unclassified Unclassified — SO _“Vr_[ SECURITY CLASSIFICATION OF THIS PAGE 10. SOURCE OF FUNDING NUMBERS (Continued). Work Unit 32278 and Work Unit 31269. Unclassified SESE SEED SECURITY CLASSIFICATION OF THIS PAGE PREFACE This report was prepared as part of the Coastal Problem Area of the Repair, Evaluation, Maintenance, and Rehabilitation (REMR) Research Program. Work was carried out jointly under Work Unit 32278, "Rehabilitation of Rubble- Mound Structure Toes," of the REMR program and Work Unit 31269, "Stability of Breakwaters," of the Civil Works Coastal Area Program. For the REMR program, Coastal Problem Area Monitor is Mr. John H. Lockhart, Jr., Office, Chief of Engineers (OCE) US Army Corps of Engineers (Corps). REMR Program Manager is Mr. William F. McCleese of the US Army Engineer Waterways Experiment Station's (WES's) Structures Laboratory, and Coastal Problem Area Leader is Mr. D. D. Davidson of WES's Coastal Engineering Research Center (CERC). Messrs. John G. Housley and Lockhart, OCE, are Technical Monitors of the Civil Works Coastal Area Program. This report is sixth in a series of case histories of Corps breakwaters and jetty structures at nine Corps divisions. The case histories were written from information obtained from several sources (where available) which in- cluded inspection reports, conferences, telephone conversations, project plans and specifications, project files and correspondence, design memoranda, liter- ature reviews, model studies, surveys (bathymetric and topographic), survey reports, annual reports to the Chief of Engineers, House and Senate documents, and general and aerial photography. Unless otherwise noted, any changes to the prototype structures subsequent to March 1985 are not included. This work was conducted at WES during the period August 1986 to June 1987 under general direction of Dr. James R. Houston and Mr. Charles C. Calhoun, Jr., Chief and Assistant Chief, CERC, respectively; and under direct supervision of Mr. C. Eugene Chatham, Jr., Chief, Wave Dynamics Division, and Mr. D. D. Davidson, Chief, Wave Research Branch (CW-R). This report was prepared by Mr. Donald L. Ward, Hydraulic Engineer, CW-R, and edited by Ms. Shirley A. J. Hanshaw, Information Products Division, Information Technology Laboratory, WES. COL Dwayne G. Lee, EN, was Commander and Director of WES during report publication. Dr. Robert W. Whalin was Technical Director. AWN 5 ob0d000000000 CONTENTS e oer ee eee eee eee eee eee eee eee eee eee eee Heo Eee TOBE OB Oe CONVERSION FACTORS, NON-SI TO SI (METRIC) UNITS OF MEASUREMENT.......... PART I: JOSEY ODIUCHUO NG ogbooooogcodoDdDodDDbD'OQDDCODDOG9D0000DODO0N0000 Background...... PURPOSE kiereiereiel silete Ce i) eeceoere eee ree oe ee eee eee eee ee eee eee eee eee eee e eee eee ee PART II: SUMMARY OF CORPS BREAKWATER AND JETTY PROJECTS IN NPD........ eYNSHE WIKIES JON PACH SSeS > Goan0000000006000000d0000000000000000000 Alaska District. eoscececeeeceeeeece eo eee ee eee ee eee eee eee ee eee eee oe eeee ee Por tilland) DisiGr tic Cais Sic: wissketievavisieiceitevenevel os oneusnel cietexer chsh oiekel ol ovenolenenenelenenonetelenener anche Seattle District Ce | CONVERSION FACTORS, NON-SI TO SI (METRIC) UNITS OF MEASUREMENT Non-SI units of measurement used in this report can be converted to SI (metric) units as follows: Multiply By To Obtain feet 0.3048 metres miles (US statute) 1.609347 kilometres pounds (force) 4 448222 newtons square feet 0.09290304 square metres square miles 2.589998 square kilometres tons (2,000 lb force) 8806 . 443353 newtons cubic yards 0.7646 cubic metres acres 4046873 square metres CASE HISTORIES OF CORPS BREAKWATER AND JETTY STRUCTURES NORTH PACIFIC DIVISION PART I: INTRODUCTION Background 1. The US Army Corps of Engineers (Corps) is responsible for a wide variety of coastal structures located on the Atlantic, Pacific, and gulf coasts, the Great Lakes, Hawaiian Islands, other islands, and inland water- ways. Coastal improvements such as jetties or breakwaters are frequently required to provide a safe harbor or navigation. These structures are con- tinuously subjected to wave and current forces and are usually constructed on top of movable-bed materials. Under these conditions, structural deteriora- tion may occur to the point where maintenance, repair, or rehabilitation is required for the structure to continue to meet the needs of the project. Some of the projects have been maintained for over 150 years. Methods of repair and construction have varied significantly during this time, due principally to a better understanding of coastal processes, availability of construction materials, regional construction practices, and economic considerations. Purpose 2. The purpose of this report is to lend insight into the scope, magnitude, and history of coastal breakwaters and jetties under Corps juris- diction; determine their maintenance and repair history; determine their methods of construction; and make this information available to Corps per- sonnel. To accomplish these objectives, case histories of Corps breakwater and jetty structures have been developed to quantify past and present problem areas, to take steps to rectify these problems, and to subsequently evaluate remedial measures. General design guidance can be obtained from those solutions that have been most successful. Information in this report should be of particular value to Corps personnel in the US Army Engineer Division, North Pacific (NPD), and its coastal] districts and possibly to non-Corps personnel. PART II: SUMMARY OF CORPS BREAKWATER AND JETTY PROJECTS IN NPD 3. NPD presently maintains 68 breakwaters and 35 jetties located in 48 of their coastal projects. Thirty-eight breakwaters and 5 jetties are located in 20 projects in US Army Engineer District, Alaska (NPA); 9 breakwaters and 22 jetties are located in 12 projects in US Army Engineer District, Portland (NPP); and 21 breakwaters and 8 jetties are located in 16 projects in US Army Engineer District, Seattle (NPS). 4, Nearly all of the breakwaters and jetties are of rubble-mound con- struction, although steel pilings, steel sheetpilings, timber pilings (with or without planks), and concrete have also been used. Early structures were built primarily by dumping stone from railroad cars on a tramway constructed above the jetty or breakwater. Where the in situ material provided an insuf- ficient foundation, structures were constructed on blankets of brush or gravel. Otherwise, structures were built directly on the existing bottom material. 5. New construction, repair, and rehabilitation work carried out on rubble-mound structures in NPS and NPP since 1961 have used placed-stone con- struction techniques. Due to quality control, random armor stone placement is specified for NPA structures, but use of placed-stone construction is encouraged. 6. Most of the jetty repair work is for wave-induced localized damage on the sea side of the jetty trunks. The damage consists primarily of down- slope slumping of the primary armor stone as a result of both individual armor stone displacement and toe damage that allow slippage of the outer armor layers. Both NPA and NPP have constructed sacrificial toe berms of core-size material to provide added toe stability, trip incident waves to reduce runup and overtopping, and protect against scour and undermining. 7. Most of the jetty rehabilitation work consists of rebuilding jetty heads that have been lost due to scour and undermining combined with storm wave-induced armor stone displacement. Typical jetty head rehabilitation includes filling scour holes and forming a bedding foundation with minus 400-1b material then reconstructing the head using only class "A" stone. 8. Concrete armor units are not used by the division. Repair work has generally consisted of placement of additional stone, frequently of a larger size. Many of the structures have been raised andvor extended. 9. Figure 1 shows locations of the projects in NPA. The projects con- sist mainly of harbors protected by breakwaters and are unique among the dis- tricts in the division in three ways. First, while the harbors in southeast- ern Alaska were economically justified for their support of the commercial and sport fishing fleets, the harbors in southwestern Alaska have the additional justification of a scarcity of safe harbors of refuge. Second, NPA has the only harbors in the division where ice is a problem. Valdez Harbor is gener- ally considered the northernmost ice-free port in Alaska. 10. The third unique problem of NPA was a major earthquake in 1964 which destroyed or damaged several Corps projects. Cordova Harbor was up- lifted 6.4 ft*; Kodiak Harbor subsided 5 ft; Seldovia Harbor subsided 3.8 ft; and the harbors at Homer, Seward, and Valdez were completely destroyed. The harbors at Kodiak and Seldovia were rebuilt; Cordova Harbor was rebuilt and expanded; and the harbors at Homer, Seward, and Valdez were all relocated, expanded, and rebuilt. In addition, the town and harbor of Port Lions were established when the government relocated the inhabitants of the town of Afognak, which was destroyed by the earthquake. 11. The five jetties maintained by NPA are small, with the largest, 530 ft in length, protecting Aurora Harbor at Juneau. The other projects con- sist of a pair of jetties at Nome Harbor maintaining a channel at the mouth of the Snake River and a pair of jetties at Ninilchik Harbor maintaining a chan- nel at the mouth of the Ninilchik River. 12. Figure 2 shows locations of projects in NPD. The projects consist primarily of jetties to stabilize channels at the mouths of rivers to provide safe navigation. Jetty pairs are located at the mouths of seven rivers, and three jetty systems are located at the mouths of three rivers. The jetties range in length from 850 ft at the mouth of the Chetco River to nearly 7 miles long at the mouth of the Columbia River. They have design waves up to 22 ft, and some date back to the late 1800's. 13. NPP maintains breakwaters at four harbors located in bays upstream from the mouths of three rivers and at two harbors located on the coast. 14. Figure 3 shows locations of projects in NPS. The projects con- sist mainly of harbors and small-boat basins protected by breakwaters. * A table of factors for converting non-SI units of measurement to SI (metric) units is presented on page 3. 6 sqyoofoud uaqemyeouq pue Aqy4ef S,WdN JO SuoTze007 °*| aun3Ty SEE a —— a ose YyOduvH "PVILyYVILIN b 9 YOSUVH YviIGoW——& YOSUYVH SNOIT LYOd "2 YOSYVH GuyM3S 3) “WOaYVH ViIAOGTSS. be: SHOSYVH IHOTININ 9 ehe.::. fre YOsYVH JWON YOEYvH VYLIS at O70 .d i yOauvH YosuvH nvannr/A &: MD SR NvoITad SUES Oo st ‘3 —— NISVG LvVOd +7 31VOS = TT¥WS S3NIVH? COLUMBIA RIVER AT MOUTH DEPOE BAY YAQUINA BAY SIUSLAW RIVER CHETCO RIVER * Figure 2. Locations of NPP's jetty and breakwater projects 8 NEAH BAY PORT ANGELES LAKE HARBOR CROCKETTS PORT TOWNSEN : SMALL BOAT BASIN: QUILLAYUTE RIVER .- : BOAT BASIN 5 WATERWAY CONNECTING PORT TOWNSEND AND OAK BAY éSHILSHOLE BAY KINGSTON HARBOR fH E: . OLYMPIA HARBOR ©’ GRactinsOn ee WESTHAVEN COVE SMALL BOAT BASIN WILLAPA RIVER AND HARBOR IAND NASELLE RIVER = 4 SCALE 5 0 5 10 15 20 25 30Mi © ———————— Figure 3. Locations of NPS's jetty and breakwater projects 9 The district maintains thirteen harbors protected by one or more breakwaters, ranging in length up to 8,000 ft. 15. Brief descriptions of the projects that include jetties or break- waters are given in Part III, while more complete case histories of the struc- tures are included in Tables 1-49. Pertinent summary information on each project is presented in the following listing. The projects are listed alphabetically by district. Table Project Mate- Length Initial Improve- No. Project Name Type rial ft Construction ments Alaska District 1 Cordova B(3) Ss 1,902 1983 N S 183 1966 N S,B 1,100 1938 REP, REIN 2 Craig Harbor B(2) S) 160 1981 N Ss 300 1981 N 3 Douglas Small- B(1) S 105 1962 N Boat Basin 4 Haines Small- B(1) S 905 1976 N Boat Basin 5 Homer Harbor B(2) Ss baal 1985 N iS} 238 1965 N * Ss 1,018 1965 N( REM) * Ss 1,260 1962 REP 6 Hoonah Harbor B(3) Ss 800 1979 N S 1,507 1979 N S 140 1979 N 7 Humboldt Harbor B(2) S 1,025 1975 N Ss 740 1975 N 8 Juneau Harbor Harris Basin B(2) ss} 430 1938 N S 1,540 1938 REP Aurora Basin J(1) S 530 1962 N B(1) S,SP 1,150 1963 REP (Continued ) KEY: Project Type: B-breakwater; J-jetty. (Number in parentheses indicates the quantity of that type of structure.) Material: S-stone; SP-steel piling; SS-steel sheet piling; TP-timber piling; C-concrete; B-brush. Improvements: REP-repaired; N-none; EXT-extended; RAIS-raised; REIN-reinforced; REC-recon- structed; REHAB-rehabilitated (key to letters in parentheses: DES-destroyed; REM-removed). * Earlier work not included in current project. ** Insufficient information. 10 Table No. 10 Wi 12 13 19 20 Project Name Ketchikan Harbor Thomas Basin Bar Point Basin Kodiak Harbor Metlakatla Harbor Old Harbor New Harbor Ninilchik Harbor Nome Harbor Pelican Harbor Port Lions Harbor Seldovia Harbor Seward Harbor Sitka Harbor Valdez Harbor Wrangell Harbor Project Mate- Type Alaska District (Concluded) B(1) B(4) rial nc nnn nn AndaAMN FAHaANNnNN nn nn nn u'U nn (Continued) 11 Length ft 940 963 120 700 1, 100 789 1,250 900 1,255 1,150 350 350 240 400 335 460 1,000 600 170 400 600 1,060 1,750 580 950 #H ## 1,430 200 625 685 475 530 300 Initial Construction 1932 1979 1979 1958 1958 1957 195i 1956 1981 1981 1967 1967 1940 1940 1920 1935 1957 1981 1981 1961 1961 1964 1964 1931 1937 1956 1956 1964 1964 1965 1965 IB 1957 1926 Improve- ments REP 2222 REC , EXT N RAIS RAIS N N RAIS(DES) RAIS(DES) N(DES) N(DES) N EXT N N N(DES) REIN(DES) N Table No. 21 22 23 24 25 26 27 28 29 30 31 32 Project Name Chetco River Columbia River at Mouth Coos Bay Coquille River Depoe Bay Nehalem River Port Orford Rogue River Siuslaw River Tillamook Bay Umpqua River Yaquina Bay Project Mate- Type rial Length ft Portland District J(2) J(3) J(2) B(1) J(2) B(1) B(2) J(2) B(1) J(2) J(2) J(2) J(3) J(2) B(2) B(2) Ss 1,350 Ss 1,350 iS 34, 850 S 13,200 ) 5,300 Ss 9,600 8 #H s 2,800 Se 3,450 S 2,700 Ss 350 € 160 c HR S} 4,500 Ss 3, 300 S 550 Ss 3,400 iS 3,300 Ss 7,490 Ss 3,945 Ss 5,700 Ss 8,000 SAC 8,000 s 4,200 Ss 4,240 S 8,600 S 7,000 TP,S 2,650 TP,S 400 Ss 1,800 S 700 (Continued) 12 Initial Construction 1957 1957 1895 1917 1939 1891 1924 1957 1907 1907 1982 1952 1966 1915 1918 1968 1959 1960 1917 1917 1914 1979 1930 1934 1951 1895 1895 1948 1948 1978 1978 Improve- ments RAIS, EXT REHAB, RAIS REP, REHAB, EXT REP, REHAB REP, REHAB REP, REHAB REP, REHAB REP, EXT REHAB, EXT REHAB N N N REHAB, RAIS REHAB, RAIS N N REHAB REP, REHAB, EXT REP, EXT REP, REHAB, RAIS EXT REP, REHAB REHAB , EXT EXT REP, REHAB, EXT REP, REHAB, EXT 22224 Table No. 33 34 35 36 Si 38 39 KO 44 42 43 yy 45 46 Project Name Anacortes Harbor Bellingham Harbor Blaine Harbor Edmond's Harbor Gray's Harbor Kingston Harbor Lake Crockett Neah Bay Olympia Harbor Port Angeles Harbor Port Townsend Boat Basin Quillayute River Boat Basin Shilshole Bay Swinomish Channel Project Mate- Length Type rial ft B(2) B(3) B(3) B(2) J(2) B(1) B(1) B(1) B(1) B(2) B(1) B(2) J(1) B(1) J(3) TP 12 S Ss Ss Alls S (n S iS} S} 6 S,TP iS} WSs S 16s S i S S 8, C S,TP 1, S,TP S 1 TP VE Ss 1; S 4, Ss S S,P 3, (Continued) 13 Seattle District 470 470 *% te 500 500 450 834 850 250 734 000 O40 4 000 656 026 145 946 4% #* 400 44o 4 ## 650 Initial Construction USEy/ 1957 1958 1958 1980 1957 1957 1957 1962 1962 1898 1910 1967 1947 1944 1983 11959 1959 1964 ## HH 1931 1958 1893 1938 1908 Improve- ments EXT , REP EXT, REP 2224 REHAB, RAIS REHAB, RAIS, EXT N REP, EXT REP, REHAB, RAIS N N REP, RAIS EXT EXT REC REHAB REHAB, EXT Table Project Mate- Length Initial Improve- No. Project Name Type rial fate Construction ments Seattle District (Concluded) U7 Waterway Con- J(2) Beheas 550 1916 REHAB, RAIS necting Port BatPas 660 1916 REHAB Townsend and Oak Bay 48 Westhaven Cove B(5) Sale 970 1950 REIN Small-Boat Basin S,1P 700 1950 N S,1TP M550 1958 REC , EXT S,TP 260 1973 N S,TP 200 1979 N ite) Willapa River and B(1) S 1,500 1958 N Harbor and Naselle River PART III: PROJECT DESCRIPTIONS Alaska District Cordova Harbor, Alaska 16. Cordova is located in southern Alaska on Orca Inlet at the south- eastern approach of Prince William Sound, 145 air miles east-southeast from Anchorage. The original project was adopted in 1935 and completed in 1938, including an 8.26-acre boat basin dredged to -10 ft mean lower low water (mllw), a 1,100-ft north breakwater, and a 1,400-ft south breakwater, both of rubble-mound over brush mat construction. The harbor was originally designed for 500 boats, but increasing boat sizes reduced the capacity to 220 boats by 1964. 17. The 1964 earthquake uplifted the area 6.4 ft and reduced the depth of the harbor to -5.5 ft mllw. The harbor was restored--including repair and strengthening of both breakwaters, construction of an access road along the crest of the north breakwater, and dredging the original basin plus an addi- tional 10.4 acres to -14 ft mllw--to provide a 305-boat capacity. Restoration was completed in 1965, and a 183-ft entrance breakwater was added in 1966. 18. In 1981 the harbor was expanded by 19.55 acres by removing the 1,400-ft south breakwater, extending an existing silt barrier breakwater by 650 ft, and constructing a 1,902-ft rubble-mound breakwater along the west and north sides of the extended basin. The basin extension was dredged by local interests. The project was completed in 1983 and appears to be in good con- dition at this time. A chronology of events related to the development and repair of the harbor structures is given in Table 1. Craig Harbor, Alaska 19. Craig is located in southeastern Alaska on the west side of Prince of Wales Island, 60 air miles west of Ketchikan and 750 miles southeast of Anchorage. The project includes a small-boat basin protected by two breakwaters. 20. The original project was adopted in 1945 and provided for dredging a basin in South Cove to -11 ft mllw and a 100-ft wide entrance channel to -11 ft mllw. The floating dock system was expanded toward the harbor entrance in 1975 to provide moorage for the growing fishing fleet. The expanded area was subjected to winter storms. After one ship sank and several others were 15 damaged during a 1977 storm, the expanded section of the dock was closed dur- ing the winter months. To protect the expanded dock area, the Corps con- structed two short rubble-mound breakwaters during 1981 to 1983. A chronology of events related to the development and repair of the harbor structures is given in Table 2. Douglas Small-Boat Basin, Alaska 21. Douglas is located on Douglas Island, Alaska, across the Gastineau Channel about 2 miles southeast of Juneau. The project, as adopted in 1958, includes a 5.2-acre small-boat basin dredged to -12 ft mllw and a 90-ft rubble-mound breakwater. 22. The project was completed in 1962, including a 105-ft rubble-mound breakwater. To maximize the area of the harbor, 1:3 side slopes were dredged on the southeast and southwest sides of the basin. These slopes were covered with a 2-ft filter layer of gravel under a 2-ft layer of quarry run rock for slope protection. The other sides of the basin were dredged to 1:10 slopes and did not require protection. A chronology of events related to the devel- opment and repair of the harbor structures is given in Table 3. Haines Small-Boat Basin, Alaska 23. Haines Small-Boat Basin is located on the west shore of Portage Cove, adjacent to the City of Haines in southeast Alaska, about 90 water miles northwest of Juneau, Alaska. The project includes the extension of an exist- ing small-boat basin by removal of part of an existing breakwater and con- struction of a 905-ft offshore rubble-mound breakwater. 24. The existing small-boat basin was constructed by a joint effort of the Territory of Alaska and Alaska Public Works, a one-time Department of the Interior agency. The basin was protected by an 800-ft L-shaped breakwater completed in 1958. The basin was intended to enclose a 2.5-acre basin dredged to -10 ft mllw. Difficulties in dredging the basin resulted in only 1.8 acres being completed. 25. The Corps project was adopted in 1971 and included expansion of the basin to 4.2 acres dredged to -12 ft mllw and -14 ft mllw, with an entrance channel dredged to -15 ft mllw, removal of the seaward leg of the existing breakwater, and construction of a 905-ft crescent-shaped offshore rubble-mound breakwater. The project was completed in 1976. A chronology of events re- lated to the development and repair of the harbor structures is given in Table 4. 16 Homer Harbor, Alaska 26. Homer is located on lower Cook Inlet in southern Alaska, approxi- mately 125 air miles south of Anchorage and 70 miles north of Kodiak. The project includes a small-boat basin protected by a berm and two breakwaters. The harbor is located near the outer end of Homer Spit, a naturally occurring spit extending 3.5 miles into Kachemak Bay. 27. The project was originally adopted in 1958 and completed in 1962, including a 2.8-acre basin protected by a 1,260-ft rubble-mound breakwater. The basin was destroyed and the breakwater severely damaged in the 1964 earth- quake. In 1965 the basin was restored and relocated slightly to the northwest of the original basin. The restored basin included 10 acres with 2.75 acres at -12 ft mllw and 7.25 acres at -15 ft mllw, a 1,018-ft main breakwater, and a 238-ft secondary breakwater. Local interests expanded the basin to 16.5 acres during 1968 to 1970. 28. The project was expanded to 50 acres during 1984 to 1985 by ex- tending the basin 1,040 ft to the northwest and 350 ft to the northeast. The harbor is protected on the northeast by a berm with a 220-ft crest width allowing 2-lane vehicular access. A chronology of events related to the development and repair of the harbor structures is given in Table 5. Hoonah Harbor, Alaska 29. Hoonah is located on the northeastern shore of Chichagof Island in southeastern Alaska on the eastern shore of Port Frederick, 70 miles west of Juneau. The project includes a 15.5-acre small-boat basin protected by an 800-ft and a 1,507-ft rubble-mound breakwater, a 140-ft rubble-mound entrance breakwater, and an 800-ft and a 1,165-ft rubble-mound diversion dike. Con- struction began in 1979 and was completed in 1980. The basin provides moorage for 105 local and transient commercial fishing vessels, with provisions for expansion to 225 boats. A chronology of events related to the development and repair of the harbor structures is given in Table 6. Humboldt Harbor, Alaska 30. Sand Point is located on the northern shore of Humboldt Harbor on the western side of Popof Island in the Shumagin Island group of southwestern Alaska, approximately 560 air miles southwest of Anchorage. The project includes a 16.6-acre mooring basin protected by a 1,025-ft north breakwater, a 740-ft south breakwater, and a 1,175-ft diversion dike. The basin was constructed during 1975 to 1976. A chronology of events related to the 17 development and repair of the harbor structures is given in Table 7. Juneau Harbor, Alaska 31. Juneau is located in southeastern Alaska along the Gastineau Channel, 900 air miles northwest of Seattle, Washington, and 575 air miles southeast of Anchorage, Alaska. The city is accessible only by air or sea. 32. Juneau Harbor includes Harris Basin and Aurora Basin. Harris Basin was completed in 1939 and includes 11.5 acres protected by a 430-ft and a 1,540-ft breakwater. The adjacent Aurora Basin covers 19 acres and is pro- tected by a 670-ft jetty and a 1,500-ft composite rubble-mound steel pile with treated planking breakwater. The harbor is part of the Juneau-Douglas com- plex, which also includes Douglas Harbor and Gastineau Channel. A chronology of events related to the development and repair of the harbor structures is given in Table 8. Ketchikan Harbor, Alaska 33. Ketchikan is located on the southwestern side of Revillagigedo Island in the Alexander Archipelago of southeastern Alaska, approximately 700 nautical miles north of Seattle, Washington, via the Inland Passage, and 760 air miles southeast of Anchorage, Alaska. The project includes the 11.35-acre Thomas Basin and the 36.9-acre Bar Point Basin. 34. The Thomas Basin project was adopted in 1930 and completed in 1932. The basin was dredged to -10 ft mllw and is protected by a 940-ft stone breakwater. An 840-ft concrete cap was added to the crest of the breakwater in 1933. 35. The original Bar Point Basin was authorized in 1954 and constructed in 1958. The basin includes 11.9 acres protected by a 1,100-ft detached breakwater and a 700-ft south breakwater, both of rubble-mound construction. The basin was expanded in 1979 by the addition of two floating breakwaters, 963 and 120 ft long. A chronology of events related to the development and repair of the harbor structures is given in Table 9. Kodiak Harbor, Alaska 36. Kodiak is located on the northeast shore of Kodiak Island on the north side of Chiniak Bay in the western Gulf of Alaska, about 1,250 air miles northwest of Seattle, Washington, 650 miles west of Juneau, Alaska, and 250 air miles southwest of Anchorage, Alaska. The project includes an 11.7-acre basin protected by a 1,250-ft and a 780-ft breakwater. 37. The original project included a channel, 200 ft wide by 22 ft deep 18 at mllw, between Kodiak Island and Near Island. The project was modified in 1954 to include the small-boat basin. In 1964, the earth subsided about 5 ft in an earthquake, causing severe damage to the basin and the breakwaters. The breakwaters were rebuilt the same year. 38. The basin, along with a small basin named Old Harbor, provide the only harbors-of-refuge between Cook Inlet and the Shumagin Islands. An ex- tension to the harbor was recommended in 1976 by constructing two breakwaters on Near Island to protect a 45-acre basin. In 1984, further study on the ex- tension was determined to be unwarranted due to the severe decline in the local shellfish fishery. A chronology of events related to the development and repair of the harbor structures is given in Table 10. Metlakatla Harbor, Alaska 39. Annette Island is located in southeastern Alaska, 16 water miles south of Ketchikan, Alaska, and 650 air miles northwest of Seattle, Washington. 40. The original basin was adopted in 1945 and completed in 1956. The harbor included 2.18 acres protected by a 900-ft rubble-mound breakwater. A second harbor was adopted in 1972 and completed in 1982. The new harbor provides 5.75 acres protected by a 1,255-ft and a 1,150-ft rubble-mound breakwater. The harbor capacities are 42 boats in the original harbor and 100 boats in the new harbor. A chronology of events related to the devel- opment and repair of the harbor structures is given in Table 11. Ninilchik Harbor, Alaska 41. Ninilchik is located on the eastern shore of Cook Inlet, about midway between Kenai and Homer, 110 air miles or 187 road miles southwest of Anchorage. The harbor is located near the mouth of the Ninilchik River. The harbor was authorized in 1958, including a 320-ft by 150-ft basin dredged to +2 ft mllw, an entrance channel, and a 410-ft-long pile jetty located 50 to 100 ft south of the channel entrance. 42, The harbor was completed in 1961, including a 400- by 120-ft basin with rock sills upstream and downstream of the basin. The pile jetty was de- leted. In 1967 the harbor underwent a major rehabilitation, including con- struction of two rock pile jetties at the mouth of the river. The harbor has required dredging or repairs every year since completion. Dredging has aver- aged 9,500 to 9,945 cu yd per year, and a log revetment for beach erosion control has required annual maintenance. 19 43. The harbor was designed for a capacity of 32 boats; yet it supports a 110-boat fishing fleet, and as many as 140 boats have been moored in the harbor at one time. A study conducted by the Corps during 1980 to 1984 found that plans to expand the basin to relieve the overcrowding were not economi- cally justifiable. A chronology of events related to the development and repair of the harbor structures is given in Table 12. Nome Harbor, Alaska 44, Nome is located on the southern coast of the Seward Peninsula in northwest Alaska, 535 air miles northwest of Anchorage and 520 air miles west of Fairbanks. The mouth of the Snake River is protected by a 400-ft rubble- mound west jetty and a 240-ft rubble-mound east jetty. 45. The shallow entrance channel and small basin require that barges be anchored offshore and cargo transferred via lighters. The harbor is typically iced over from mid-November to May, and the ice may extend 3,000 to 6,000 ft into the sound with 20- to 30-ft high pressure ridges at the seaward margin of the ice sheet. Waves are typically short, steep, and less than 3 ft high. The significant wave height used in the design of the shore structures was 12 ft. A chronology of events related to the development and repair of the harbor structures is given in Table 13. Pelican Harbor, Alaska 46. Pelican is located on Lisianski Inlet off the north shore of Chichagof Island in southeastern Alaska, about 100 miles west of Juneau. The project includes a 5.74-acre small-boat basin protected by a 1,000-ft rubble- mound breakwater. The project was adopted in 1954 and completed in 1958. A chronology of events related to the development and repair of the harbor structures is given in Table 14. Port Lions Harbor, Alaska 47. Port Lions is located on the northern end of Kodiak Island, 19 miles west of the City of Kodiak. The city was founded in 1965 when the government relocated residents of the town of Afognak, which had been destroyed in the 1964 earthquake. The project includes a small-boat basin protected by two breakwaters. 48. The study was authorized in 1965 and the project approved for construction by the Office of the Chief of Engineers in 1977. The project included an undredged 12-acre mooring basin protected by a 650-ft and a 500-ft breakwater. At the request of local interests, an alternate plan was adopted, 20 including a 5-acre basin protected by a 600-ft main breakwater and a 170-ft stub breakwater. The main breakwater was destroyed by a storm in 1981 and rebuilt and extended to 725 ft in 1983. The basin has a capacity of 125 boats. A chronology of events related to the development and repair of the harbor structures is given in Table 15. Seldovia Harbor, Alaska 49. Seldovia is located near the mouth of Seldovia Bay on the southern shore of Kachemak Bay on Cook Inlet, 140 air miles south of Anchorage and 15 nautical miles southwest of Homer. The project includes a 700-ft by 300-ft boat basin dredged to -12 ft mllw, protected by a 400-ft north breakwater and a 600-ft detached south breakwater. 50. The project was authorized in 1958 and constructed during 1961 to 1962. An earthquake in 1964 caused the basin to subside 3.8 ft. The break- waters were therefore raised 4 ft in 1964. A chronology of events related to the development and repair of the harbor structures is given in Table 16. Seward Harbor, Alaska 51. Seward is located on Resurrection Bay off the Gulf of Alaska, about 120 miles south of Anchorage. The project includes a 17-acre small-boat basin protected by two rubble-mound breakwaters. 52. The original project, authorized in 1930 and completed in 1932, in- cluded a 4.7-acre basin dredged to -12.5 ft mllw, protected by a 580-ft south breakwater. A 950-ft north breakwater was added in 1937 and raised in 1953. During 1955 to 1956, the south breakwater was raised, and two pile breakwaters were added on the eastern side of the basin. 53. The original harbor was completely destroyed in the 1964 earth- quake. The harbor was relocated and rebuilt during 1964 to 1965, including a 4.75-acre replacement basin dredged to -12.5 ft mllw, a 12.45-acre extension dredged to -15 ft mllw, a 1,060-ft rubble-mound south breakwater, and a 1,750-ft rubble-mound east breakwater. 54. A Detailed Project Report and Final Environmental Impact Statement were prepared in 1982 for expansion of the harbor. The study recommended that a 30-acre basin be dredged 2 miles northeast of Seward, protected by a 1,400-ft south breakwater, a 2,500-ft west breakwater, and a 1,700-ft north silt-barrier breakwater. There was no record of action taken since the study was prepared. A chronology of events related to the development and repair of the harbor structures is given in Table 17. 21 Sitka Harbor, Alaska 55. Sitka is located on the western shore of Baranof Island on Sitka Sound in southeastern Alaska. There are three harbors located at Sitka: Crescent Bay, A. N. B., and Thomsen harbors. Crescent Bay harbor is the only harbor under Corps jurisdiction at Sitka. 56. The project, authorized in 1945 and constructed during 1964 to 1965, includes a 15-acre basin dredged to -10 ft mllw protected by a 1,430-ft main breakwater and a 200-ft entrance breakwater. The entrance breakwater was extended by 135 ft during 1972 to 1973 due to damage to small craft within the harbor. A chronology of events related to the development and repair of the harbor structures is given in Table 18. Valdez Harbor, Alaska 57. Valdez is located in the northeastern corner of Prince William Sound in southcentral Alaska, 110 air miles and 305 road miles from Anchorage. It is the southern terminus of the trans-Alaska pipeline and is generally regarded as the northernmost ice-free port in Alaska. 58. The original harbor, authorized in 1938 and completed in 1939, in- cluded a small-boat and seaplane harbor of approximately 3 acres dredged to -12 ft mllw. In 1954, a 475-ft rock and gravel breakwater on the southeastern side, and a 530-ft pile breakwater on the southern and western sides were authorized. The breakwaters were completed in 1957. A protective rock and gravel base was added to the pile breakwater in 1960. 59. The entire basin and facilities were destroyed by the earthquake in 1964. A relocated and enlarged basin was authorized in 1964 and completed in 1965, including a 10-acre basin protected by a 625-ft west breakwater and a 685-ft east breakwater. Local interests expanded the basin to 19 acres in 1985. A chronology of events related to the development and repair of the harbor structures is given in Table 19. Wrangell Harbor, Alaska 60. Wrangell is located at the northern end of Wrangell Island near the northern end of Zimovia Strait in southeastern Alaska, 739 nautical miles northwest of Seattle and 149 miles south of Juneau. The town is situated on the Wrangell Narrows, a Corps-maintained channel through which passes the major portion of all commerce enroute to Alaskan ports. 61. The original project provided for construction of a 300-ft breakwater at Point Shekesti. The breakwater was authorized in 1922 and 22 constructed in 1926. A 600- by 400-ft basin dredged to -10 ft mllw (outer basin) was authorized in 1935 and dredged in 1936. An inner basin, 550 ft long by 325 ft wide (dredged to -10 ft mllw), a connecting channel, and a 320-ft breakwater were authorized in 1945. The basin and connecting channel were dredged during 1956 to 1957; the 320-ft breakwater was deferred. A chronology of events related to the development and repair of the harbor structures is given in Table 20. Portland District Chetco River, Oregon 62. The mouth of the Chetco River is located on the southern Oregon coast, about 4 miles north of the Oregon-California border. The Town of Brookings, Oregon, is situated along the mouth of the river. 63. Authorized in 1945, the original project included an 850-ft north jetty and a 1,550-ft south jetty, both completed in 1957; and removal of rock pinnacles and abandoned bridge piers was completed in 1959. In 1962, the outer 440 feet of the south jetty was repaired and raised. The project was modified in 1965 to include a 450-ft extension to the north jetty and to raise the rest of the north jetty to +16 ft mllw (completed in 1968). Construction of a 1,800-ft protective dike to +18 ft mllw was completed in 1970. Exten- sions of both jetties and deepening of the channel were recommended in 1977 (the General Design Memorandum having been initiated in 1982), but funds have not yet been made available. A chronology of events related to the develop- ment and repair of the jetty structures is given in Table 21. Columbia River at Mouth, Oregon and Washington 64. The Columbia River is the largest river on the Pacific coast of the United States, with a length of 1,210 miles and a drainage basin of 259,000 sq. miles. Extensive and shifting shoals, known as Clatsop Spit, extended north and west from Point Adams on the south side of the river mouth, making navigation into the river hazardous. On the north side of the mouth is Cape Disappointment, about 6 miles north-northwest from Point Adams. Shoals off the southern end of Cape Disappointment are known as Peacock Spit. The ocean bar connects Peacock Spit and Clatsop Spit. 65. In 1882, Congress authorized a board of engineers to develop a plan 23 for improvement of conditions at the mouth of the river. The report, sub- mitted in 1882, recommended a jetty extending from the shore near Fort Stevens (on Point Adams) in a northwest direction toward a point 3 miles south of Cape Disappointment and possibly a jetty on Peacock Spit. Construction on the jetty began in 1885. In 1893 a board of engineers was convened to determine the effects of the work and recommend any changes. The board recommended that four groins be constructed on the north side of the jetty and that the jetty be raised to elevation +12 ft at shore, slope to +10 ft at 1.125 miles from shore, and slope to +4 ft at the outer end (all elevations referenced to a datum of mean low water (mlw)). The total length of the south jetty was 4.5 miles. All recommendations were adopted, and the south jetty was com- pleted in 1895. The jetty was rubble mound and built from trestle work. 66. In 1889 the channel depth was -20 ft mllw and had a bearing west of south. With the construction of the south jetty, the channel shifted to due west and increased in depth to -31 ft mllw by 1895. The channel depth re- mained -30 ft mllw in 1896 and 1897 and then started to decrease as the channel continued to shift to the north. By 1902, the channel ran almost due north and was at -22 ft mllw, while two new channels with about the same depth had formed in the western section of the bar. 67. A new study of the mouth of the river was authorized in 1899. The engineers conducting the study submitted their report in 1903, and they recom- mended extending the south jetty due west for 2.5 miles, constructing a north jetty from Cape Disappointment to a point 2 miles north of the outer end of the 2.5-mile extension to the south jetty, and dredging. 68. The extension of the south jetty was begun in 1903 and completed in 1913. Wave action prevented repair operations by floating plant, so no maintenance was done until the amount of work needed could justify the cost of the trestle and plant. By 1931 the jetty had been lowered to about mean low water. The jetty was restored, except for the outer 3,300 ft, between 1931 and 1936, using 2,200,000 tons of stone. Wave action then started destroying the end face, causing the superstructure to ravel back 300 ft or more during a normal winter season. The outer end was therefore impregnated with 12,737 tons of a mixture of 18 percent asphalt and 82 percent beach sand in 1937. The asphalt failed to secure the end of the jetty, and a concrete terminal was constructed above the low water level during 1941 to 1942. The concrete terminal was about 3,900 ft shoreward from the end of the original 24 jetty as completed in 1913, and it has proven effective. The width of the south jetty crest varies from 45 to 70 ft, with a crest elevation of +26 ft mllw and side slopes of 1:1.5. The jetty is constructed of stones up to 25 tons each, 45 percent having an average weight of 10 tons each. The base width of the outer portion is approximately 350 ft, and the total height ranges up to 76 ft. 69. The design wave on the south jetty is the depth-limited breaking wave and varies from 19 to 22 ft. 70. The north jetty was constructed between 1913 and 1917. The crest elevation was +28 to +32 ft mllw, with a crest width of 25 ft and side slopes of 1:1.5. The jetty started on the west side of Cape Disappointment, extended southwestward for about 2 miles to a point 2 miles north of the south jetty, then turned westward for about 1,700 ft. The jetty contained nearly 3 mil- lion tons of stone. 71. The outer portion of the north jetty was flattened by wave action to mean low water by 1930, but the 2-miles-long southwesterly leg was backed up by a natural sand fill on the northerly side and was thus protected. Some damage resulted along the southeasterly side from river undercutting. The jetty was rehabilitated during 1938 to 1939 and a concrete terminal placed at the end of the southwestward segment. The outer portion extending westerly was not reconstructed and serves as an apron on the sea slope. 72. (In conjunction with the rehabilitation of the north jetty, two spur jetties were proposed to help maintain the channel. Jetty "A" started at Cape Disappointment and extended in a southerly direction for about 1 mile. The jetty has experienced frequent problems with scour at the head of the jetty, and most repair work has been a result of the scour. Jetty "B" was not con- structed and has been classified "inactive". A chronology of events related to the development and repair of the jetty structures is given in Table 22. Coos Bay, Oregon 73. Coos Bay is located on the southern Oregon coast about 200 miles south of the mouth of the Columbia River and 445 miles north of San Francisco Bay. The project includes two jetties at the mouth of the bay and a small- boat mooring basin at the Town of Charleston, about 1 mile from the mouth of the bay. 74. The initial study for navigation improvements, authorized in 1878, recommended that two parallel jetties be constructed seaward from the mouth of 25 Coos Bay to stabilize the channel and that sand fences be constructed to pre- vent windblown sand from extending the spit. Instead, a spur jetty was authorized in 1879. In 1889, a board of engineers recommended that work on the spur jetty be halted and that two parallel jetties be constructed at the mouth of the bay. 75. The north jetty was constructed to a 9,600-ft length between 1891 and 1895 and restored between 1923 and 1929. The south jetty was constructed in 1929 and 1930. 76. A small-boat mooring basin in South Slough at Charleston was authorized in 1948. The project included a 2,100-ft breakwater. The project was constructed during 1956 to 1957 and then expanded by local interests in 1966. A chronology of events related to the development and repair of the jetty and harbor structures is given in Table 23. Coquille River, Oregon 77. The mouth of the Coquille River is located on the southern Oregon coast about 225 miles south of the mouth of the Columbia River and 420 miles north of San Francisco Bay. The town of Bandon, Oregon, is located at the mouth of the river. 78. The project includes a 3,450-ft north jetty and a 2,700-ft south jetty, both of rubble-mound construction, authorized in 1880 and completed in, 1907. 79. The outer 1,600 ft of the north jetty was rerocked and capped with concrete in 1942 and repaired again in 1956. A 750-ft shoreward extension was added to the east end of the north jetty in 1951. The outer 450 ft of the south jetty was repaired in 1954. 80. Currently, the north jetty head is in need of repair but is still functional. The south jetty is in good shape. A chronology of events related to the development and repair of the jetty structures is given in Table 24. Depoe Bay, Oregon 81. Depoe Bay is a small, rock-bound tidal basin on the Oregon Coast about 100 mi south of the Columbia River, measuring roughly 500 ft by 1,000 ft at high tide. The entrance to the bay is a narrow opening between rocky bluffs that connects the bay to an outer cove and the open sea. The entrance is about 300 ft long by as little as 20 ft wide at project depths and 100 ft wide at high waterline. 82. The original project, authorized in 1937 and completed in 1939, 26 included an inner basin 375 by 125 by 5 ft deep at mllw, and an entrance channel 5 ft deep at mllw by 30 ft wide. An expansion to the project was authorized in 1945, including deepening the channel and enlarging the basin, constructing a 160-ft breakwater outside the north entrance to the bay, and constructing a retaining wall along the easterly side of the basin. The expansion was completed around 1950. In 1960, another expansion was autho- rized, including constructing a second breakwater on the northern entrance to the bay and widening the entrance channel. 83. The project is in good condition at this time. There is no record of either breakwater requiring maintenance since its construction. A chronol- ogy of events related to the development and repair of the harbor structures is given in Table 25. Nehalem River, Oregon 84. Nehalem Bay is located at the mouth of the Nehalem River, about 40 miles south of the mouth of the Columbia River, on the Pacific coast of Oregon. In the latter half of the 1800's, local interests repeatedly peti- tioned the Corps for construction of jetties to maintain a channel across the bar. Unfavorable survey reports in 1875, 1884, and 1886 prevented the work from being started. 85. In 1890, the construction of two high-tide jetties at the mouth of the river was authorized at an estimated cost of $326,000. In 1891 the esti- mated cost was increased to $712,000. The project was terminated in 1898 without any construction being started. 86. The existing project was authorized in 1912, including two converg- ing, high-tide, rubble-mound jetties, 700 ft apart at the outer ends, with the north and south jetties being 3,850 and 4,950 ft long, respectively. The south jetty included work begun by local interests in 1910, and local inter- ests would pay one-half the costs of construction of the two jetties. The south jetty was completed in 1915; the north jetty was completed in 1918. 87. No repairs were made to the jetties, and the project was classified inactive in 1934. In 1981, both jetties were given major rehabilitation and are currently in good condition. A chronology of events related to the development and repair of the jetty structures is given in Table 26. Port Orford, Oregon 88. Port Orford is located on the southern Oregon coast, 250 miles south of the Columbia River and 390 miles north of San Francisco Bay. The 27 project, authorized in 1956 and constructed in 1968, consists of a 550-ft extension to an existing, locally-constructed breakwater to protect the harbor from winter storms from the south and southwest. A chronology of events related to the development and repair of the harbor structures is given in Table 27. Rogue River, Oregon 89. The mouth of the Rogue River is located on the southern Oregon coast, 264 mi south of the mouth of the Columbia River and 319 mi north of San Francisco Bay. The town of Gold Beach, Oregon, is located at the mouth of the river. 90. The project includes two rubble-mound jetties. The south jetty, 3,400 ft long, was completed in 1959; the 3,300-ft north jetty was completed in 1960. The north jetty, undercut by river action and damaged during a 1964 flood, was rehabilitated in 1966. 91. Local interests have constructed a small-boat basin on the south side of the river, protected by a breakwater. The Corps provided an entrance channel and turning basin for the basin in 1972. 92. Both jetties show sporadic localized damage but are still func- tional. No repair work is planned for the near future. A chronology of events related to the development and repair of the jetty structures is given in Table 28. Siuslaw River, Oregon 93. The mouth of the Siuslaw River is located on the southern Oregon coast 154 miles south of the mouth of the Columbia River. The town of Florence, Oregon, is located about 5 miles upstream from the mouth of the river. 94. The project provides for a pair of high-tide rubble-mound jetties and a channel extending from the mouth of the river upstream to mile 16.5 near Mapleton, Oregon. The project was originally authorized in 1890 and revised in 1891. It included a 7,500-ft north jetty and a 5,600-ft south jetty, 600 ft apart at the ends. The project was suspended in 1905, at which time the north jetty had been constructed to 4,090 ft, and the south jetty had not been started. 95. The present project was authorized in 1910 and included extension of the north jetty by 3,700 ft and a 4,200-ft south jetty, with the jetties separated by 750 ft at their ends. The jetties were completed in 1917, at 28 which time the north jetty was 7,490 ft long and required 441,237 tons of stone, and the south jetty was 3,945 ft long and required 196,860 tons of stone. Both jetties had a crest elevation of +15 ft mllw, crest widths of 15 to 20 ft, and side slopes of 1:1.5 to 1:2. 96. The north jetty was rehabilitated during 1957 to 1958. A 600-ft extension to the north jetty was authorized in 1958, but it was deferred until, in the opinion of the District Engineer, the extension was advisable. In 1981, the Design Memorandum was prepared for extending the north jetty by 2,000 ft, including the 600-ft extension authorized in 1958, and extending the south jetty by 2,500 ft. The extensions have not been constructed. A chro- nology of events related to the development and repair of the jetty structures is given in Table 29. Tillamook Bay, Oregon 97. Tillamook Bay is located on the Pacific coast of Oregon, about 47 miles south of the Columbia River. The project includes two rubble-mound jetties protecting the entrance to the bay and a dike repairing a breach in a spit on the westerly side of the bay. 98. The 5,700-ft-long north jetty was authorized in 1912 and con- structed during 1912 to 1914 to 5,400 ft. The jetty was reconstructed during 1931 to 1933, including a 300-ft extension, to the full authorized length. The jetty was rehabilitated during 1963 to 1965 to repair damage caused by undermining of the structure. The jetty head has received some damage from extreme wave conditions, but no improvements are planned at this time. 99. The 8,000-ft south jetty was authorized in 1965, and construction of the first 5,000 ft was initiated in 1969. Deep scouring of the bottom ahead of the jetty caused overruns, and construction was halted at a length of 3,695 ft in 1971. The jetty was extended 2,830 ft during 1972 to 1974, and the distance between the jetties was decreased from 1,400 to 1,200 ft. The jetty was extended to the full authorized length of 8,000 ft during 1978 to 1979. The final leg of the jetty has shown some subsidence, but no repair work is planned at this time. A chronology of events related to the develop- ment and repair of the jetty structures is given in Table 30. Umpqua River, Oregon 100. The Umpqua River flows into the Pacific Ocean on the Oregon coast about 178 miles south of the Columbia River. The town of Reedsport, Oregon, is located 12 miles upstream from the mouth of the river. 29 101. The existing project was adopted in 1922, providing a 7,500-ft jetty on the northern side of the mouth by extending a 3,390-ft jetty con- structed by local interests during 1916 to 1919. Construction began in 1923, was halted in 1926 due to lack of funds with the jetty 70 percent complete, and completed during 1928 to 1930. The jetty was restored during 1941 to 1942, including placing a conerete cap on the outer 3,977 ft. 102. A short south jetty was authorized in 1930 and constructed during 1933 to 1934. In 1935, a 1,700-ft extension was authorized. The work was completed in 1938, including a monolithic concrete block, 46 ft long by 30 ft wide by 16 ft high, placed at the head of the extension and flanked by four wing blocks and two end blocks. The south jetty was then 4,200 ft long and terminated 1,800 ft south of the end of the north jetty. A 550-ft shore con- nection was added in 1940. 103. The original jetties did not provide an adequate entrance. In addition, the ebb currents met the south jetty at an abrupt angle, causing deterioration and subsidence of the structure. A hydraulic model study was conducted at the US Army Engineer Waterways Experiment Station (WES) during 1946 to 1948 to determine the best method of improvement. Based on the model study results, a 4,240-ft training jetty was constructed parallel to and along the south side of the entrance channel during 1950 to 1951. The training jetty terminated about one-half mile short of the end of the south jetty. 104. The south jetty was rehabilitated in 1963. In 1964, a second hydraulic model study was initiated at WES which recommended extending the training jetty to the end of the south jetty. The north jetty was rehabili- tated in 1977, and the training jetty was extended during 1978 to 1980. 105. The jetties appear to be in good condition at this time. A chro- nology of events related to the development and repair of the jetty structures is given in Table 31. Yaquina Bay, Oregon 106. Yaquina Bay is located on the Pacific coast of Oregon, 113 miles south of the Columbia River. The town of Newport, Oregon, is located at the mouth of the bay. 107. The original project was authorized in 1880 and included two con- verging high-tide rubble-mound jetties. The north jetty extended 2,300 ft to the present angle in the jetty, and the south jetty was 3,600 ft long, with the ends of the jetties 1,000 ft apart. The orientation of the jetties was 30 intended to direct the channel through a break in a rocky reef located 4,000 ft offshore. 108. Authorization was given in 1919 to restore and extend the jetties. In 1921, the south jetty was extended to 5,800 ft, and an 800-ft spur dike and five groins were added to the channel side of the jetty. Work on the north jetty was completed in 1930 with the jetty extended to 3,700 ft. 109. The southwesterly orientation of the jetties exposes the north jetty to broadside attack by waves from northwest storms. The north jetty has accordingly required frequent rehabilitation, with major work performed during 1933 to 1934, 1939 to 1940 (including extension to 4,700 ft), 1956, 1966 (including extension to 7,000 ft), and 1977 to 1978. The 1977 work included blasting to sandseal the jetty to reduce littoral transport through the structure. 110. The south jetty was restored during 1933 to 1934, and extended 1,800 ft in 1969. 111. Two pile, timber, and stone breakwaters were built in the bay in 1948 to protect a small-boat basin at Newport, Oregon. The main detached breakwater was 2,650 ft long; the shore wing was 400 ft long. Both break- waters were constructed to +14 ft mllw. A second marina was constructed in 1978 at Southbeach, Oregon. The marina was protected by a 1,800-ft west breakwater and a 700-ft north breakwater. Both Southbeach Marina breakwaters were of rubble-mound construction with a crest elevation of +14 ft mllw and crest width of 10 ft. 112. The south jetty and the breakwaters are currently in good con- dition. The outer 400 ft of the north jetty has deteriorated, and studies are being conducted to rehabilitate the structure. A chronology of events related to the development and repair of the jetty and harbor structures is given in Table 32. Seattle District Anacortes Harbor, Washington 113. Anacortes is located on Fidalgo Island on the east side of Puget Sound. The project includes a 2,850-ft-long channel in Capsante Waterway and a mooring basin protected by two pile breakwaters. 114. The project was adopted in 1919 and modified in 1954 to include 31 the boat basin and the breakwaters. The pile breakwaters, one 370 ft long located southeast of the basin and one 350 ft long located south of the basin, were completed in 1957. The southeast breakwater was extended to 440 ft by local interests in 1958, and both breakwaters were extended to 470 ft in 1964. Both breakwaters required rehabilitation in 1976. The Port of Anacortes enlarged the mooring basin in 1982. A chronology of events related to the development and repair of the harbor structures is given in Table 33. Bellingham Harbor, Washington 115. Bellingham is located on the east side of Puget Sound in northern Washington. The project includes three waterways maintained by dredging, a small-boat basin protected by two rubble-mound breakwaters, and an expansion of the basin protected by a rubble-mound breakwater. 116. The small-boat basin was authorized in 1954, including two rubble- mound breakwaters with a combined length of 3,900 ft and the removal of an existing breakwater and dredging and maintenance of an entrance channel. The harbor was expanded in 1980 under authority of the 1960 River and Harbor Act. The expansion included construction of a 1,500-ft rubble-mound breakwater and dredging of entrance and access channels and a turning basin. A chronology of events related to the development and repair of the harbor structures is given in Table 34. Blaine Harbor, Washington 117. Blaine Harbor is located on the US-Canadian border in the north- west corner of the State of Washington. The project includes a 14.7-acre expansion of an existing mooring basin, construction of a 1,500-ft rubble- mound breakwater, and reinforcement and maintenance of an existing 850-ft breakwater. 118. The project was authorized in 1954 and completed in 1957. Local interests established a small-boat basin at the site in 1936 and gradually enlarged it to 11.1 acres by 1956. The basin was protected by a 130-ft un- treated pile breakwater, a 400-ft treated pile breakwater, an 834-ft two-step untreated wood pile and rock breakwater, a 450-ft rubble-mound breakwater, and a 9,260-ft bulkhead. The project converted 3.5 acres of the existing basin into an entrance channel and added 14.7 acres to the basin, protected by construction of a 1,500-ft rubble-mound breakwater extending from the existing rubble-mound breakwater to the existing two-step breakwater. The treated and untreated timber pile breakwaters are maintained by the Port of Bellingham. 32 The project included rock reinforcement of the two-step breakwater and repair of the existing rubble-mound breakwater. A chronology of events related to the development and repair of the harbor structures is given in Table 35. Edmond's Harbor, Washington 119. Edmonds is located on the southeastern coast of Puget Sound, about 15 miles north of Seattle, Washington. The project includes maintenance of two breakwaters and an entrance channel to the basin. 120. The harbor was constructed by local interests in 1962, and it includes a mooring basin, a rubble-mound breakwater 1,850 ft long with a crest elevation of +18.5 ft mllw, a rock-reinforced treated pile and plank break- water about 250 ft long, and an entrance channel. The Corps project, adopted in 1965, provides for maintenance of the two breakwaters and the entrance channel. Condition surveys are made annually, but there is no record of maintenance work being done. Local interests extended the basin to the north in 1968 and are responsible for all maintenance on the extended basin. A chronology of events related to the development and repair of the harbor structures is given in Table 36. Gray's Harbor, Washington 121. Gray's Harbor is located on the Pacific coast of Washington, about 50 miles north of the Columbia River. The project, adopted in 1896 and modi- fied by 13 subsequent Acts, includes a deep-draft navigation channel about 30 miles long in the harbor and the Chehalis River. The outer portion of the channel is protected by a 13,734-ft-long south jetty and a 17,200-ft-long north jetty; the inner portions are maintained by dredging. 122. The south jetty was completed in 1902. The north jetty was fin- ished in 1913, then restored, lengthened, and raised in 1916. The jetties were constructed by end-dumping from railroad cars, which failed to provide a well-keyed section. The jetties therefore deteriorated by displacement of individual stones by wave forces. Further deterioration was caused by sub- sidence due to unstable foundation conditions. The south jetty was recon- structed during 1936 to 1939 and the north jetty during 1941 to 1942. Both jetties continued to deteriorate after the reconstruction. Hydraulic model studies were conducted during 1950 to 1952 and 1969 to 1971. 123. After the reconstruction of the north jetty during 1941 to 1942, a natural channel was maintained across the bar, and no further maintenance dredging has been required. Deterioration of the north jetty allowed the 33 predominantly southerly littoral drift to pass through the jetty, causing shoaling of the inner bar and the Sand Island and Crossover Channel. The deterioration of the jetty also forced the channel southward from 2,000 ft north of the south jetty to along the north side of the south jetty. The channel gradually deepened, reaching depths of -65 to -70 ft mllw and eroding the sand foundation material from the south jetty. 124. In 1966 4,000 ft of the south jetty were reconstructed, and 6,000 ft of the north jetty were reconstructed during 1975 to 1976, both using placed stone construction over the earlier randomly placed stone. The outer 5,600 ft of the south jetty and 1,200 ft of the north jetty are submerged, and there are no plans to restore them to grade. The reconstructed portion of the north jetty has been overtopped on several occasions, threatening or damaging a major roadway that parallels a portion of the jetty. 125. The jetties were inadequate to maintain project dimensions in the bar channel, particularly when in a deteriorated condition. Supplemental dredging was therefore initiated in 1916 and continued at regular intervals until 1926. The bar required almost continual dredging from 1926 until the jetties were reconstructed. The bar has not been dredged since 1942. A chronology of events related to the development and repair of the harbor structures is given in Table 37. Kingston Harbor, Washington 126. Kingston Harbor is a locally maintained small-boat basin located in Appletree Cove on Puget Sound at Kingston, Washington, about 10 miles northwest of Seattle. The project authorized improvements to an existing basin, including construction of a 1,040-ft rubble-mound breakwater and dredging an entrance channel. The project was adopted in 1962 and constructed in 1967. No problems or repairs have been reported. A chronology of events related to the development and repair of the harbor structures is given in Table 38. Lake Crockett, Washington 127. Lake Crockett is located on Whidbey Island, Washington, along Admiralty Bay in Puget Sound. The project includes a 6-acre mooring basin protected by a breakwater. 128. The project was adopted in 1945, providing for a mooring basin and an entrance channel connecting the basin to Admiralty Bay, protected by a rubble-mound breakwater. The project was completed in 1948. 34 129. The breakwater required repairs in 1950 and 1954 then was restored to its design height in 1960. In addition, the breakwater was extended 175 ft northerly, and a 90-ft easterly spur was added to provide additional protec- tion against southeasterly storms. In 1971 the channel was widened to 200 ft to reduce the frequency of dredging. A chronology of events related to the development and repair of the harbor structures is given in Table 39. Neah Bay, Washington 130. Neah Bay is located on the Strait of Juan de Fuca about 5 miles east of Cape Flattery at the northwest tip of the State of Washington. The project includes an 8,000-ft rubble-mound breakwater extending from the west side of Neah Bay to Waada Island and a revetment extending west from Baada Point for 3,000 ft. 131. The breakwater was authorized in 1938 and constructed during 1941 to 1944. The breakwater was repeatedly damaged by displacement of armor stone during winter storms, and by 1949 it had been breached in about ten places. The breakwater was restored in 1949 and again in 1959. By 1978 the breakwater had again been breached in 10 to 12 places. The westerly 4,200 ft of the breakwater were rehabilitated in 1980. 132. Construction of the breakwater resulted in sustained erosion of material from the beach west of Baada Point. The Crown-Zellerbach Corp., the US Coast Guard, and the Indian Agency, therefore, constructed a 2,200-ft revetment to protect the shoreline. In 1956, the Corps of Engineers rein- forced the existing revetment and extended it 800 ft westerly. 133. The breakwater and revetment appear in good condition at this time. A chronology of events related to the development and repair of the harbor structures is given in Table 40. Olympia Harbor, Washington 134. East Bay Marina is located in Olympia Harbor at the southern end of Puget Sound, about 62 miles south of Seattle, Washington. The project in- cludes a marina, an entrance channel, two access channels, and a 656-ft long floating breakwater. 135. Construction of the breakwater was completed in 1983. The break- water is a floating concrete structure consisting of seven hollow rectangular modules 16 ft wide by 5.5 ft deep. The breakwater includes mooring facilities on the marina side, fenders to protect the moored vessels, and access from shore. No repairs or structural problems have been reported. A chronology of 35 events related to the development and repair of the harbor structures is given in Table 41. Port Angeles Harbor, Washington 136. Port Angeles is located on the northern Washington coast along the Strait of Juan de Fuca. The project includes expansion of a small-boat basin and construction of a 1,000-ft breakwater and a 170-ft entrance breakwater. The main breakwater is of rock-reinforced treated timber pile and planking construction. The original breakwater design called for all stone construc- tion. Pressure from local interests to expedite the project resulted in the design modification to timber and stone construction, with the agreement that the locals would be responsible for maintenance once the structure was completed. 137. The expansion of the boat basin and construction of the break- waters were authorized in 1945. The project had authorized removal of a 150-ft length of a shoal in the harbor. This was not done, and the shoal removal was deauthorized in 1977. 138. The harbor is protected by Ediz Hook, a narrow spit extending about 3-1/2 miles into the Strait of Juan de Fuca and forming the north and westerly sides of the harbor. Erosion of the spit has been a problem since about 1910 when various bulkhead erosion control structures further up the coast interfered with the littoral drift. Local interest construction of erosion control measures began in the 1930's but were piecemeal and generally ineffective. 139. The Corps project on Ediz Hook was adopted in 1974 and completed in 1978. The project includes a 13,300-ft-long revetment, a 3, 100-ft-long rock blanket (later upgraded to revetment), beach nourishment, and anticipated additional beach nourishment at 5-year intervals. The structures have suf- fered localized damage, runup and overtopping, and toe instability. A chro- nology of events related to the development and repair of the harbor struc- tures is given in Table 42. Port Townsend Small- Boat Basin, Washington 140. Port Townsend is located on the northern Washington coast at the junction of Admiralty Inlet and the Strait of Juan de Fuca. The small-boat harbor consists of two adjacent basins. The original basin was locally con- structed, covers about 3 acres, and is protected by a 1,150-ft rubble-mound 36 breakwater. The Corp's project added an adjacent 12.5-acre basin, a 1,946-ft rubble-mound breakwater, and a channel through the original breakwater to provide access to the second basin. The Corps is responsible for maintaining the Corps constructed breakwater, the mooring basin, and the entrance channel. A chronology of events related to the development and repair of the harbor structures is given in Table 43. Quillayute River Boat Basin, Washington 141. The Quillayute River project is located on the Washington coast at the town of La Push. The project includes a small-boat basin with a timber training wall on one side and timber breakwaters at each end; a 1,400-ft-long rubble-mound breakwater along the east side of the river's mouth, crest elevation of +15 to +18 ft mllw with a crest width of 18 ft; a 1,050-ft-long rubble-mound dike along the west side of the river between Quillayute Spit and James Island, crest elevation of +8 ft mllw with a crest width of 6 ft; a navigation channel extending from deep water to the small-boat basin; an additional channel extending to the mouth of Smith Slough; and maintenance of Quillayute Spit, a natural spit about 3,400 ft long. 142. The project was authorized in 1930 and constructed in 1931. The jetty and dike were damaged by winter storms and repaired in 1932, 1941, 1946, 1949, 1953, and 1956. In 1956 the Corps assumed responsibility for repairing the spit. The boat basin was dredged in 1957. The jetty was raised in 1957 and again in 1960. 143. The dredged material was deposited on the spit. In 1973 the mate- rial dredged from the river was too fine for replenishing the spit, and seri- ous erosion problems developed. A rock blanket covering the spit was recom- mended. The blanket, with a 10-year life expectancy, was installed in 1974 and replaced in 1978. The spit was breached in 1979 and 1981. 144. In 1982 major rehabilitation of the project was recommended. A chronology of events related to the development and repair of the harbor structures is given in Table 44. Shilshole Bay, Washington 145. Shilshole Bay is on the eastern shore of Puget Sound at Seattle, Washington and at the entrance to the Lake Washington Canal. The project includes a 4,200-ft-long rubble-mound breakwater with a crest height of +20 ft mllw, a 240-ft-long rubble-mound extension at the north end of the breakwater Sif with a crest height of +16 ft mllw, and a 72.8-acre small-boat basin behind the breakwater. A chronology of events related to the development and repair of the harbor structures is given in Table 45. Swinomish Channel, Washington 146. Swinomish Channel is a dredged inland tidal waterway--100 ft wide, -12 ft mllw deep, and 11 miles long--located in the northwestern part of the state of Washington about 60 miles north of Seattle. It connects the deep waters of Saratoga Passage and Padilla Bay and separates Fidalgo Island from the mainland. The project includes dikes along the waterway to protect farmland and three jetties at the southern end of the channel. 147. The project was adopted in 1892. The jetties include a rubble- mound and timber pile north jetty extending west from "Hole in the Wall," a rubble-mound south jetty extending west from Goat Island, and a rubble-mound jetty connecting Goat Island to McGlinn Island. The north jetty was con- structed in 1893 and reconstructed in 1900. The south jetty was constructed in 1908 and rehabilitated and extended in 1973. The Goat-McGlinn Island jetty was completed in 1938 and rehabilitated in 1940, 1946, and 1963. 148. The rehabilitations were required because of settlement due to foundation problems. At the present time, the south jetty and the Goat- McGlinn Island jetty appear to be in good condition, while the north jetty shows obvious deterioration. A chronology of events related to the develop- ment and repair of the jetty structures is given in Table 46, Waterway Connecting Port Townsend and Oak Bay, Washington 149. Port Townsend is located on the northern Washington coast along the Strait of Juan de Fuca. The Oak Bay Canal connects Port Townsend Bay and Oak Bay. The project includes two jetties at the Oak Bay end of the canal, the west jetty being 550 ft long and the east jetty being 600 ft long, and 2,100 ft of bulkheads on the west side of the canal. The jetties were con- structed of brush, pile, and stone; the bulkheads were constructed of brush, pile, and timber. 150. The project was adopted in 1913 and completed in 1916. The east jetty was rehabilitated in 1937; the west jetty was rehabilitated in 1961. Very little information on the project is available. Currently, the west jetty is in good condition, while the east jetty shows some deterioration but is stable and functional. A chronology of events related to the development 38 and repair of the jetty structures is given in Table 47. Westhaven Cove Small- Boat Basin, Washington 151. Westhaven Cove is located on Gray's Harbor on the Pacific Coast of Washington, about 100 miles north of Portland, Oregon. The basin, referred to as West Port Marina, is protected by three main breakwaters (breakwaters A, B, and C), a closure breakwater, a breakwater that existed before the Corps assumed the project, and a stub breakwater. In addition, the Corps maintains a groin field and revetment at the tip of Point Chehalis. 152. Breakwater A is connected to the north end of the basin and is 970 ft long. Breakwater B, 700 ft long, was detached and located near the end of breakwater A. A closure breakwater, 260 ft long, connects the two break- waters. Breakwater C, 1,550 ft long, is connected to a detached 865-ft break- water at the southern end of the basin that existed before the Corps takeover of the project. The stub breakwater is 200 ft long and extends from the south end of the marina toward the detached breakwater. All of the breakwaters are of stone and timber composite construction. 153. Reconstruction of the south jetty at Gray's Harbor, Washington, during 1936 to 1939 blocked the littoral drift feeding Point Chehalis, re- sulting in extensive erosion. A short section of the south jetty was removed to try to restore the littoral transport, but the opening was quickly blocked with sand. A groin field was therefore constructed on the point to trap sediment, and a revetment was constructed to protect the shoreline. A chron- ology of events related to the development and repair of the harbor structures is given in Table 8. Willapa River and Harbor and Naselle Harbor, Washington 154. Nahcotta is located on the west side of Willapa Bay on the Pacific coast of Washington. The project includes an entrance channel to a mooring basin and a rubble-mound breakwater about 1,500 ft long. There have been no structural problems reported since completion of the breakwater in 1958. 155. The project is part of the Willapa River and Harbor project adopted in 1916 and modified by subsequent Acts. The project includes 26 miles of deep-draft channels which were classified "inactive" in 1977. A chronology of events related to the development and repair of the harbor structures is given in Table 49. 39 Date(s) 1935 1938 1964 1964- 1965 1966 1981 1981- 1983 1985 Table 1 Cordova Small-Boat Harbor Cordova, Alaska Construction and Rehabilitation History The small-boat basin was authorized. The project was completed, including 8.26 acres dredged to -10 ft mllw; and a 1,100-ft north breakwater and a 1,400-ft south breakwater were constructed. The area was uplifted 6.4 ft in an earthquake. Expansion was authorized. The basin was rehabilitated by repairing and strengthening break- waters, constructing an access road along the crest of the north breakwater, and dredging the basin plus an additional 10.4 acres to -14 ft mllw. An entrance breakwater was constructed. The harbor at this stage is shown in Figure 4. Expansion was authorized. The basin was expanded by 19.55 acres by removal of the 1,400-ft south breakwater, construction of a 650-ft extension to the existing silt barrier breakwater, and construction of a 1,902-ft rubble-mound breakwater. A rubble-mound breakwater was constructed to crest elevation of +21.5 ft mllw, crest width of 7 ft, and side slopes of 1:1.5. The breakwater was constructed of a 2-ft-thick bedding layer of rock spall, a core of Class "B" rock, and a 4.5-ft-thick layer of Class "A" armor rock extending to 1.5 wave heights below low tide on the north section of the breakwater and to the tidal flats on the other sections. The silt barrier breakwater was constructed of a 2-ft-thick underlayer of rock spall, a core of rock spall, anda protective layer of Class "B" rock. Cross sections of the break- waters are shown in Figure 5. The basin extension was dredged by local interests to -12 to -16 ft mllw; the Corps deepéned the entrance channel to -16 ft mllw. The design wave was 5.6 ft. Class "A" armor rock was 900 to 1,500 1b with 75 percent greater than 1,200 lb. Class "B" rock was 14 to 1,000 1b with 50 percent greater than 100 lb. Rock spall was 6 in. minus. The harbor is illustrated in Figure 5, and an aerial photograph of the harbor is presented in Figure 6. The breakwaters appear in good condition at this time. ute) Beale RS a Snes Saher Figure 4. Aerial photograph of Cordova Harbor, Alaska, 1977 44 T ec = +—60°35'n = ORGA ———>4gea 145°46'00" w 145° 45°30" w FERRY.” HAWKINS INLET ISLAND a0 at as Ss! MUD SPIKE UN ISLAND O CORDOVA EYAK PROJECT ST CAKE 60°32'N y 105550) SADDLE PT 145°40} “ VICINITY MAP SCALE IN FEET s000 ~~ «5000 10000 SCALE IN KILOMETERS tus == a ' fe) | 2 3 4 5 60°33'00"N subpart a = CORDOVA (183') ENTRANCE AND » ACCESS CHANNEL -16 MLLW S o* LZ Uy [_ NEW Vn € BREAKWATER Ys (1902') A HARBOR SICE \: = ‘ *. t %, G ‘. > REPOSE AN REPOSE Pe YS \ BREAK WATER-STA18 «59.87 TO STA 19+59.87 SOY: LIZ : NOT TO SCALE = Z q—HOSPITAL 2 .STORM* Z e Ra > SEWER — : fa OUTLET * ENC OF B/W (sTa 19 659.87) z0' 125° 4 if ENTRANCE CHANNEL - BASEBALL yet | class "B” AocK ASSUMED ORIGINAL a GROUND LINE ROCK SPALLS OG Ev.-160 = ENO MAK PAY LIME “(7 0) BREAKWATER TO ENTRANCE CHANNEL NOT TO SCALE ELEVATIONS AND DEPTHS ORE IN FEET AND RFFER TO MEAN LOWER LOW WATER (MiLLW=0.0) “ ELEV. + 21.5! Lev 218 HARBOR SIDE SEAWARD SIDE SCALE IN FEET 400 800 200 t aT ae SCALE IN METERS ° BREAKWATER-STA 0+00 TO STA 18+59.87 NOT TO SCALE Figure 5. Site layout of Cordova Harbor, Alaska (revised 1985) 42 RO ae na NW Figure 6. Aerial photograph of Cordova Harbor, Alaska, 1984 43 Table 2 Craig Harbor Craig, Alaska Date(s) Construction and Rehabilitation History 1945 The project was adopted, including a dredged mooring basin in South Cove. 1975 The floating dock system was expanded by local interests. 1977 A storm damaged vessels in the expanded portion of the floating dock system. 1981- Two breakwaters were constructed to protect the expanded area of the 1983 dock system. The north breakwater was 160 ft long, and the south breakwater was 300 ft long. Both breakwaters were constructed to a crest elevation of +20 ft mllw, a crest width of 8 ft, and 1:1.5 side slopes. The breakwaters were constructed with a core of quarry-run rock covered by a filter layer of 150- to 1,500-1b rock, and an armor layer of 2,200-lb rock with a range of 1,500 to 3,000 lb. The break- water was designed for a significant wave height of 5.3 ft; the armor rock was designed for the 10 percent wave height of 6.7 ft. 1985 The harbor is illustrated in Figure 7, and an aerial photograph of the harbor is presented in Figure 8. There are no reports of needed repairs or rehabilitation. yy \\ PROJECT DEPTH ees oat \ ot MLLW pee ELEVATIONS AND DEPTHS ARE IN FEET AND REFER TO MEAN LOWER LOW WATER (M.L.L.W. =0.0'). zu 2 z fs) m ° 7 = D = m wo a iP Db 2 ) SCALE IN FEET SUEMEZ oO 'SLAND SCALE IN METERS Figure 7. Site layout of Craig Harbor, Alaska (revised 1985) 45 Figure 8. Aerial photograph of Craig Harbor, Alaska, 1984 46 Table 3 Douglas Small-Boat Basin Douglas, Alaska Date(s) Construction and Rehabilitation History 1958 The project was adopted, including a 5.2-acre basin and a 90-ft rubble-mound breakwater. 1962 The project was completed, including a 5.2-acre basin and a 105-ft rubble-mound breakwater. The breakwater was constructed to crest elevation of +24 ft mllw, crest width of 6 ft, and side slopes of 1:1.5. Core material was 3,548 cu yd of quarry-run rock. The armor layer had a 4-ft thickness of 175- to 275-lb armor rock, with 50 per- cent greater than 225 lb. The armor layer extended to the toe of the breakwater and included the harbor side, requiring 1,203 cu yd of rock. The design wave was 2.4 ft and 2.6 sec. 1985 The harbor is illustrated in Figure 9, and an aerial photograph of the harbor is presented in Figure 10. There are no reports of needed repairs or rehabilitation. 47 VICINITY MAP JETTY 105' LONG aTEET SCALE IN FEET ‘PROJECT DEPTH —l2 FEET Elev. £24.0° ELEVATIONS AND DEPTHS ARE IN FEET i 5 AND REFER TO MEAN LOWER LOW WATER sole Side ae R = (M w. =0.0') (Z S| L.L.W. = i Excev. Line TYPICAL SECTION OF JETTY DOUGLAS BASIN SCALE W FEET Lo) ° 10 20 SCALE IN FEET SCALE IM METERS Y : SCALE IN METERS ° Figure 9. Site layout of Douglas Harbor, Alaska (revised 1978) 48 Bt say Figure 10. Aerial photograph of Douglas Harbor, Alaska, 1984 49 Date(s) Table 4 Haines Small-Boat Basin Haines, Alaska Construction and Rehabilitation History 1958 19ifal 1976 1985 The original breakwater was constructed. The project was adopted. The project was completed, including a 4.2-acre boat basin dredged by local interests to -12 ft and -15 ft mllw, and an entrance channel maintained by the Corps to -15 ft mllw. The seaward leg of the existing breakwater was removed, and a 905-ft crescent-shaped off- shore breakwater was constructed. The crest elevation on the new breakwater was +26 ft mllw, the crest width was 4 ft, and side slopes were 1:2 on the seaward side and 1:1.5 on the harbor side. The breakwater was constructed with a rubble core covered by armor rock. The crest width and outer face of the trunk were covered with 2.5 ft of 300-lb rock. Armor on the ends and first and last 100 ft of the trunk consisted of 3 ft of 400-lb rock. The remainder of the inner face was covered with three ft of 40-lb rock. A gap was left between the offshore breakwater and the older breakwater to protect salmon fry and promote circulation in the basin. The harbor is illustrated in Figure 11, and an aerial photograph of the harbor is presented in Figure 12. There are no reports of needed repairs or rehabilitation. 50 59°14°05"N / y f PROJECT DEPTH Ve MLW a hance CHANNEL (75' TO 100! WIDE) LYNN CANAL ; , AX Ae WS VICINITY MAP 1+ 3,500,000 (22°30') { 135° 26' 20" w SCALE IN FEET ELEVATIONS 8& DEPTHS ARE IN FEET AND REFER TO MEAN LOWER LOW WATER "Caer — per — Soper 02,00 esprit PO 49° (M.L.L.W. =0.0'). SCALE IN METERS 30 2 50 100 Figure 11. Site layout for Haines Harbor, Alaska (revised 1981) 51 Figure 12. Aerial photograph of Haines Harbor, Alaska, 1980 52 Date(s) 1958 1962 1964 1965 1968- 1970 1984- 1985 Table 5 Homer Harbor Homer, Alaska Construction and Rehabilitation History The original harbor plan was adopted. The original harbor was completed, including a 180- by 672-ft basin (2.8 acres), and a 1,260-ft rubble-mound breakwater. The original harbor was destroyed by earthquake, and the breakwater was severely damaged. The harbor was restored and relocated slightly to the northwest. The restored harbor included 2.75 acres at -12 ft mllw and 7.25 acres at -15 ft mllw, protected by a 1,018-ft main breakwater and a 238-ft entrance breakwater. Both breakwaters were constructed of a quarry- run core covered with an armor layer to crest elevation of +29 ft mllw with 1:1.5 side slopes. The main breakwater had a 7-ft crest width and was covered with a 5.5-ft layer of armor rock. The en- trance breakwater had a 9-ft crest width and was covered with a 5.5-ft layer of armor rock on the entrance side and a 3-ft layer on the seaward side. The main breakwater had a rock blanket 3 ft thick extending 10 ft past the toe on the entrance side. The entrance breakwater had a 3-ft-thick rock blanket extending 10 ft past the toe on the seaward side. Armor rock was 700 to 1,100 lb. The entrance channel was dredged to -15 ft mllw and 120 ft wide at project depth, with 1:3 side slopes protected by a 1.5-ft-thick rock blanket. Cross sections of the breakwaters are shown in Figure 13. The basin was expanded to 16.5 acres by local interests by extending basin and protective berm 700 ft to the northwest. The harbor is illustrated in Figure 13, and an aerial photograph of the harbor is presented in Figure 14. The project was expanded to 50 acres by extending the basin 1,040 ft to the southwest and 350 ft to the northeast, yielding a 3,000- by 750-ft harbor. The basin was protected by a rubble-mound berm on the northeast with a 220-ft crest width providing 2-lane vehicular access. The berm had a top elevation of +31 ft mllw with 1:6 side slopes on the seaward side and 1:3 side slopes on the basin side. The harbor at this stage is illustrated in Figure 15. The main breakwater was removed from the expanded harbor and west of the entrance and replaced with a breakwater with crest elevation at +31 ft mllw, crest width of 220 ft, and side slopes of 1:2 on the seaward side and 1:3 on the basin side. The dredged core was covered on the seaward side by a 1-ft gravel layer (12-in. minus), a 3-ft layer of secondary armor rock (Class "B", 100 to 1,100 1b, (Continued ) 53 Table 5 (Concluded) Date(s) Construction and Rehabilitation Histor 15 percent less than 250 1b), and a 4.5-ft layer of primary armor rock (Class "A", 1,100 to 3,000 1b, 50 percent between 1,500 and 1,900 1b). 1985 The breakwaters are in good condition at this time. KACHEMAK BAY ROCK SLOPE PROTECTION CITY PROJECT: Me T\ *s ROCK SLOPE 1 OORING BASIN. _ alee CITY PROVECT *-. PROTECTION =H 400' 1 700! we FEDERAL PROJECT Depth “16 mitw Seat =.. i >. MAIN BREAKWATER: ENTRANCE CHANNEL 120" wioe, Depth -Smilw UPSTREAM LIMIT OF FEDERAL PROJECT: aaa JPROJECT DEPTH -12'minw ee JADWANCE MAINTENANCE b DISPOSAL AREA ELEVATIONS @ OEPTHS ARE "=, pee 1976 THROUGH 1986 QASED OM Mim Oc. TR SECTION A—A BREAKWATERS @& ENTRANCE CHANNEL SCALE IN FEET SCALE IN METERS SCALE IN FEET 600, SCALE IN METERS SCALE IM MILES Figure 13. Site layout of Homer Harbor prior to expansion during 1984-1985 (revised 1978) 54 ol Figure 14. Aerial photograph of Homer Harbor, Alaska, 1977 55 (S861 PestAet) Ggél 4333 M1 29S 186, Sutunp uotsuedxe uaqge eXSETY ‘yoquey sewoy Jo 4ynoAeT a4ts "Gl eun3t 4 (005m 771A) U2LWA BO) 201 MYoR MO OFSvO 4334 MI Jey SH1d30 Gry SwO1LVAITI 56 Date(s) 1972 1979= 1980 1985 Table 6 Hoonah Harbor Hoonah, Alaska Construction and Rehabilitation History The project was adopted. The project was constructed, including a 15.5-acre boat basin, three rubble-mound breakwaters, and two rubble-mound diversion dikes. The main breakwaters were 800 ft and 1,507 ft long, and an entrance breakwater was 140 ft long. The breakwaters were constructed to a crest elevation of +24 ft mllw, crest width of 4.5 ft, and side slopes of 1:1.5. The 4-ft-thick layer of armor rock, 470 to 780 lb, covered a core of quarry spalls. The armor rock extended from the crest to -12 ft mllw on the seaward side and for 150 ft back from the head on the basin side, and to +15 ft mllw over the rest of the breakwater on the basin side. The diversion dikes were constructed of dredged material covered with a 1-ft filter layer and a 3-ft layer of rock spalls. The main purpose of the diversion dikes was to pre- vent ice from entering the basin. Crest elevations were +24 ft mllw for the south dike and +21 ft mllw for the east dike. A gap was left between the dikes for circulation in the basin and protection of salmon fry. Design was based on a 10 percent wave of 4.6 ft, non- breaking. The harbor is illustrated in Figure 16; cross sections of the breakwaters are given in Figure 17. An aerial photograph of the harbor is presented in Figure 18. There are no reports of needed repairs or rehabilitation. Dil CHICHAGOF ISLAND PITT ISLAND 135°27'00" Ww 135°26'30"W ELEVATIONS AND DEPTHS ARE IN FEET AND REFER TO MEAN LOWER LOW WATER (MLLW=0.0) CHICHAGOF ISLAND SCALE IN FEET ° 30 SCALE IN METERS VICINITY MAP ° ° SCALE IN MILES SCALE IN KILOMETERS Figure 16. Site layout of Hoonah Harbor, Alaska (revised 1981) 58 DREDGED ( MATERIAL R TER CORE MATERIAL EI BREAKWATER AND NORTH BREAKWATER STA 6+60 TO STA 7+20. Figure 17. Cross sections of breakwaters at Hoonah Harbor, Alaska (revised 1980) 59 Figure 18. Aerial photograph of Hoonah Harbor, Alaska, 1984 60 Date(s) 1970 1975- 1976 1985 Table 7 Humboldt Harbor Sand Point, Alaska Construction and Rehabilitation History The project was adopted. The project was constructed, including a 16.6-acre mooring basin protected by two rubble-mound breakwaters and a rubble-mound diver- sion dike. The 1,025-ft north breakwater was constructed to a crest elevation of +15 ft mllw, crest width of 6 ft, and side slopes of 1:1.5 on the basin side and 1:2 on the seaward side. The 740-ft south breakwater was of similar construction but with a crest eleva- tion of +13 ft mllw. The breakwaters were constructed of core mate- rial covered with a 4.5-ft layer of secondary armor rock (50 to 500 1b, 130-lb average) or a 2-ft layer of secondary armor rock under a 4-ft layer of primary armor rock (1,000 to 4,000 lb, 1,300-1b aver- age). The primary armor covered the seaward side of the breakwaters and 150 ft from the heads on the basin sides to -13 ft mllw. It also covered the remainder of the basin sides to -3.5 ft mllw. The 1,175-ft diversion dike was constructed to a crest elevation of +12 ft mllw, crest width of 8 ft, and 1:2 side slopes. The core material was covered with a i-ft filter layer and a 3-ft layer of quarry spalls. The entrance channel was dredged to -18 ft mllw with a minimum width of 120 ft. The harbor is illustrated in Figure 19, and an aerial photograph of the harbor is presented in Figure 20. There are no reports of needed repairs or rehabilitation. 61 60° 3000°W SAND POINT \ 4 c JERSION CHANNEL: y 7) NORTH BREAKWATER TOP ELEV. +13' TO +15‘milw 1025' LONG N S ENTRANCE \_S CHANNEL MIN. WIDTH 120° AT \ + ELEV. —18'miw S SOUTH BREAKWATE TOP ELEV. +13'milw 740' LONG ELEV.716 “ (SEE NOTES) BLEW S28, ORES SHUMAGIN ISLANDS 85° 10° TYPICAL BREAKWATER SECTION 160° 30'w NOT TO SCALE VICINITY MAP SCALE IN MILES 10 SCALE IN KILOMETERS NOTES: |, BREAKWATER TOP ELEVATIONS: +13 WORTH BREAKWATER STA. 0+00 TO STA. 2450. +15 WORTH BREAKWATER STA 2450 TO STA 10425. 4+ 13' SOUTH BREAKWATER. . ARMOR STONE: 4000 LB MAXIAUM; 1300 LB. AVERAGE; 1000 LB Manaus, . SECONDARY STOWE: SOO L®. MAXIMUM, /I30LB MIERAGE, 20% TO 100% OVER 50LB ARMOR STOME OM BASIN SIDE OF BREANWATER PLACED TO BOTTOM ELEVATIONS: VARIABLE SLOPES -13 FIRST 150° FROM HEAD. 1V ON GH IN SILT, SAND & LOOSE GRAVEL —35 REMAINDER OF BREAKWATER, 1V ON 2H IM COARSE GRAVEL & BOULDERS, a 1V OM O.5H IN BEDROCK: Lo 0 lOO CONS COMES CORES CO SCALE IN FEET SCALE IN METERS Figure 19. Site layout of Humboldt Harbor, Alaska (revised 1984) 62 Figure 20. Aerial photograph of Humboldt Harbor, Alaska, 1984 63 Date(s) 1937 1938- 1939 1939 1973 1985 1958 1962 1962- 1963 1963- 1964 Table 8 Juneau Harbor Juneau, Alaska Construction and Rehabilitation History Harris Basin The project was adopted. The breakwaters were constructed. The 430-ft south breakwater was constructed as a rock mound to elevation +24 ft mllw, crest width of 8 ft, and 1:1.5 side slopes. The 1,540-ft north breakwater was con- structed to an elevation of +26 ft mllw, a crest width of 8 ft, and side slopes of 1:1.5. The north breakwater was constructed of rubble mound covered with a 2-ft-thick layer of Class "A" armor rock on the crest and on the channel side to elevation -10 ft mllw. The break- waters required 77,349 cu yd of rock. Breakwater cross sections are given in Figure 21. An 11.5-acre basin was dredged to -12 ft mllw. The north breakwater was repaired by reshaping and placing armor stone. The harbor is illustrated in Figure 21, and an aerial photograph of the harbor is presented in Figure 22. There have been no reports of needed repairs or rehabilitation since 1973. Aurora Basin The project was adopted, including a 19-acre basin protected by a 530-ft jetty and a 1,150-ft breakwater. During the design stage, the jetty and breakwater were lengthened to 670 ft and 1,500 ft, respec- tively. The breakwater was originally designed as a rubble mound, but the design was changed to a composite rubble-mound plank and piling breakwater due to unstable soil conditions. The jetty was constructed of rubble mound to elevation +24 ft mllw, with a crest width of 4 ft, and side slopes of 1:1.5. The jetty required 24,000 tons of rock. Jetty cross sections are shown in Figure 21. The 19-acre basin was dredged, 13.1 acres to -12 ft mllw and 5.9 acres to -14 ft mllw. The main breakwater was constructed of a rubble mound to elevation +12 ft mllw and steel pilings with treated planks to elevation +24 ft mllw. The rubble mound included a dredged material blanket 90 ft wide and 1,500 ft long, a core of dredged material to elevation (Continued) 64 Table 8 (Concluded) Date(s) Construction and Rehabilitation History +1.5 ft mllw, and a layer of quarry rock with 50 percent weight of 15 to 500 lb. The quarry rock was covered with a 2-ft-thick layer of armor rock on the crest, channel side, and around the ends, and a 1.5-ft-thick layer of armor rock on the basin side. The armor rock had a 50 percent weight of 40 to 500 lb, with a maximum of 1,000 lb. The rubble mound had a crest width of 4 ft and 1:1.5 side slopes. The rubble mound was placed after the steel pilings were driven to 24-ft penetration. The pilings were driven on 6-ft centers and covered with 3- by 12-in. creosote-treated planks. The planks re- quired a 2-in. thickness to prevent damage from wave action, but 3-in. thickness was used to prevent damage from boats. The maximum expected wind-generated wave was 1.7 ft, the maximum expected boat wake was 2 ft; therefore the design wave was a 2-ft, nonbreaking, short-period wave. The breakwater required 30,450 cu yd of rock and 8,820 linear ft of steel piles. Breakwater cross sections are shown in Figure 21. 1985 The harbor is illustrated in Figure 21, and an aerial photograph of the harbor is presented in Figure 23. There have been no reports of needed repairs or rehabilitation since 1973. 65 (196. PesTAez) eyseTy ‘neeunr Su313m NI 29S ee ees — —= ps) 000) 00s ° 4334 NI 31VI8 ‘syoquey neeunr (OG) 5 ES Y3LVANV 38 anand a aw38 Y3SLVANVSYE NISVA HLNOS JO NOLLDSS WIdAL WISVG § SiduVH DSA SGN» N (0084) (,0°0* ATIF) W3LVM MOT B3MO7 NVIA OL 343U ONV 1334 NI 3¥V SH1d30 ONW SNOILWAI13 ‘suTseg euouny pue STuuey Jo ynofeT agts DS a cE a SS Zz "Le eun3ty Oog og! oO} OS OO OF SUIL9M NI 31VI8 SSS, 1334 MI aTWRs YBLVMMV3NE NISVE HLYON JO NOILD3S TWOIdAL NISV@ SiuuvH = VIA ,OO!- A393 AN ws xD0U BORUY 2 371eenu ZL oT 30IS V3NNVWHD NvaNiisvS TOOemTIN on age misve aI O9Z+ ATS SSS Y3BLVMNVaNa JO NOILDSS WOidAL NISV@ = vuOoUnY 0-203 73 3aiS VaNNWHS doom o31v3uL HAWN ONIdid 1331S SS =F SU3L3MOTIN NI 37V9S SS S37 WI 39S dVA ALINIDIA amet anvidi ALWuInOV GNv1Ss! svi9no0d 14 om A1L13¢ JO NOILDIS WOIIdAL Nisv@ wuoUny ABINVIG TRATED y0'O = mT IN (008'1)” uaivMnvadq 32018 T3NNYHD MOIBMBAX Vd 5 o3Av907a0 ll RS 0300 ow 66 ce BR NN Ni a so SNR oe ee a oN aa ve Na ‘ : Nh a a oe “ Sos ' : we eo Figure 22. Aerial photograph of Harris Basin, Juneau Harbor, Alaska, 1984 Figure 23. Aerial photograph of Aurora Basin, Juneau Harbor, Alaska, 1984 68 Date(s) 1930 1932 1933 1989 1977 1985 1954 1958 1979 1980 Table 9 Ketchikan Harbor Ketchikan, Alaska Construction and Rehabilitation History Thomas Basin The project was adopted. The project was completed, including dredging an 11.35-acre basin to -10 ft mllw and constructing a 940-ft stone breakwater to an eleva- tion of +20 ft mllw with a 4-ft crest width and 1:1.5 side slopes. A conerete cap, 840 ft long, was placed on the breakwater crest. The cap was 3 ft high, 1.5 ft wide at the top, and 4 ft wide at the bottom. Breakwater cross sections are shown in Figure 24. The breakwater was repaired. The concrete parapet on the breakwater was rehabilitated. The harbor is illustrated in Figure 24, and an aerial photograph of the harbor is presented in Figure 25. There have been no reports of needed repairs or rehabilitation since 1977. Bar Point Basin The project was authorized, including an 11.9-acre basin and con- struction of three breakwaters of lengths 700 ft, 1,100 ft, and 450 ft, all of rubble-mound construction with concrete gravity walls on top. During the design stage, the concrete gravity walls were deleted and the rubble-mounds were raised. The project was completed with the exception of the 450-ft break- water, which was deferred for restudy. The breakwaters were con- structed of a core of dredged material covered by quarry rock and armor rock to a crest elevation of +23 ft mllw, a crest width of 4 ft, and side slopes of 1:1.5. Armor rock weighed 900 to 2,000 lb, and the quarry-run rock weighed less than 2,000 lb with 75 percent of the rock greater than 6 in. The project required 133,000 cu yd of dredged material, 59,900 cu yd of quarry rock, and 21,530 cu yd of armor rock. Breakwater cross sections are shown in Figure 24. The 450-ft breakwater was deauthorized, and construction was initiated on the floating breakwaters. The harbor was expanded by 25 acres with the completion of two floating breakwaters, 963 and 120 ft long. The breakwaters were built in the catamaran "Alaskan" style of units that were 40 ft long, (Continued) 69 Table 9 (Concluded) Date(s) Construction and Rehabilitation History 21 ft wide, and 6 ft deep. The 963-ft breakwater was aligned nearly tangential to the expected wave energy to minimize overtopping and transmission. The design wave was 3.15 ft and 3.45 sec; the basin was dredged to -15 ft mllw. 1985 The harbor is illustrated in Figure 24, and an aerial photograph of the harbor is presented in Figure 26. There are no reports of needed repairs or rehabilitation. 70 (LQ6l PestTAda) eyseTy ‘uoquey ueYyTYOJy ‘suTSseg (,002M77M) Y3L¥M MOT U3MO7 NVM O1 Y3434 ONY 1334 wt 3¥V SH1id30 GNY SNOILVAR13 od} On oor 01 cy ‘001 SUBL3M NI 37V98 008 ° 008 41334 NI 39S NISV8 SVWOHL 4 ’ ,7 R008 901) ,-7 / 22 —— 82918W u) 97075 400) 4 e095, UBLVMNVSNB 40 NOILDSS IWOIdAL 0 spueure 2188 (p18 20910 193f0ud 3O LIWIT 33ND NVMIHDLAX NVWIHILAY qutTog seg pue semouy, Jo ynokeT a41S “He auN3Ty [=] — SU3LIN NI 31v2S (14 0011) PEST ONLE] copys mt Fivoo Nena ae z NASI / aT RANT er ei a Q AFOGNAK 3 Us j JP; REANOF STRajy ¢ WHALE ISLAND L SHARATIN ELEVATIONS AND DEPTHS ARE IN FEET AND REFER TO MEAN LOWER LOW WATER (M.L.L.W Figure 40. =0.0'). CORE MATERIAL QUARRY SITE t e Ss £ 94 PROVECT BOUNDARY sTuB RY y BREAKWATER Hy (170') MAIN BREAKWATER (/25') SN) FE TE 9 ge % a 90 SCALE IN FEET 800 Co) 800 1600 2400 SCALE IN METERS 200 i) 200 400 600 Site layout of Port Lions Harbor, Alaska (revised 1984) Figure 41. Aerial photograph of Port Lions Harbor, Alaska, 1984 95 Date(s) 1945 1958 1961- 1962 1964 1985 Table 16 Seldovia Harbor Seldovia, Alaska Construction and Rehabilitation History The original project authorized removal of obstructions in the entrance channel. The basin was authorized, including dredging a 700- by 300-ft basin to -12 ft mllw and constructing a 400- and a 600-ft breakwater. The project was completed. The 400-ft north breakwater had a crest elevation of +28 ft mllw, crest width of 6 ft, side slopes of 1:1.5, and was constructed of a gravel core covered with a minimum 2-ft- thick layer of quarry spalls. It was covered with a 5-ft-thick layer of armor rock on the crest and bay sides and a 4-ft-thick layer of Class "B" rock on the bay side. The 600-ft detached south breakwater had a crest elevation of +25 ft mllw, crest width of 6 ft, side slopes of 1:1.5, and was constructed of a gravel core covered with a minimum 2-ft-thick layer of quarry spalls and a 4-ft-thick layer of Class "B" rock. The basin subsided 3.8 ft in an earthquake. The breakwaters were repaired with a 7.5-ft-thick layer of rock on the basin side and a 4-ft-thick layer of armor rock on the crest, raising the crest eleva- tions 0.2 ft over the original design heights, and widening the crests to 8 ft. The repair work required a total of 26,877 tons of stone. Cross sections of the rebuilt breakwaters are shown in Figure 42. The harbor is illustrated in Figure 42, and an aerial photograph of the harbor is presented in Figure 43. There have been no reports of needed repairs or rehabilitation since 1964. 96 KACHEMAK INLET Ne SELDOVIA BAY CHANNEL 300' WIDE DEPTH AS NOTED \ \ \ \ REEF NO. | ——_|_»¢ PROJECT DEPTH-24 MLLW WZ ~ REEF NO. 2— PENINSULA PROJECT DEPTH-2I' MLLW - - ENTRANCE CHANNEL———>> + 60’ WIDE, DEPTH -(2' MLLW 151° 44° w 151° 42° VICINITY MAP SMALL BOAT BASIN SCACESINEREET AREA 210,000 SQUARE FEET 5000 0 5000 PROJECT DEPTH -!2' MLLW SCALE IN METERS et ————_ ae 1000 () 1000 2000 SELDOVIA BAY BAY SIDE BASIN SIDE GB " MIN, QUARRY ROCK NORTH BREAKWATER SOUNDINGS & ELEVATIONS ARE BASED ON ML.LW. 00’ BAY SIDE BASIN SIDE 4° MIN. CLASS B STONE Ny EARTHQUAKE REHABILITATION SCALE IN FEET ORIGINAL BREAKWATER 500 SOUTH BREAKWATER SCALE IN METERS TYPICAL SECTIONS 100 200 SCALE IN FEET i a 10 SCALE IN METERS Figure 42. Site layout of Seldovia Harbor, Alaska (revised 1981) 97 ae a = ae Figure 43. Aerial photograph of Seldovia Harbor, Alaska, 1984 Date(s) 1930 1931 1932 1935 1937 1953 1954 I955- 1956 1964 1964- 1965 1972 1982 Table 17 Seward Harbor Seward, Alaksa Construction and Rehabilitation History The original harbor was authorized, including a 4.7-acre basin dredged to -12.5 ft mllw and construction of a 580-ft south breakwater. The south breakwater was constructed. The boat basin was dredged. The north breakwater was authorized. The north breakwater (950 ft long) was constructed. The north breakwater was raised to project height. Raising the south breakwater and constructing two pile breakwaters on the east side of the basin were authorized. The south breakwater was raised, and two pile breakwaters were con- structed on the east side of the basin. The harbor was destroyed by an earthquake. Reconstruction and expan- sion of the harbor were authorized. The harbor was relocated and reconstructed, including a 4.75-acre replacement basin dredged to -12.5 ft mllw, a 12.45-acre extension dredged to -15 ft mllw, and construction of a 1,060-ft south break- water and a 1,750-ft east breakwater. The crest elevations of the breakwaters varied but were approximately +18 ft mllw. The south breakwater and the south portion of the east breakwater had crest widths of 6 ft and 1:1.5 side slopes, and these were constructed of core rock covered with a 4-ft layer of armor rock to the toe on the seaward side and to +9 ft mllw on the basin side. The end 200 ft of the east breakwater had armor rock extending to the toe on both sides. The northern portion of the east breakwater had a crest width of 5 ft and side slopes of 1:1.5, and it was constructed of a rock core covered with a 3.5-ft-thick layer of armor rock extending to the toe on the seaward side and to +9 ft mllw on the basin side. The breakwater cross: sections are shown in Figure 44, Quarry spall beach protection was added at the north end of the basin. A Detailed Project Report and Final Environmental Impact Statement recommended expansion of the harbor by construction of an additional (Continued ) 99 Date(s) Table 17 (Concluded) Construction and Rehabilitation History 1985 basin near Nash Road, about 2 miles northeast of Seward. The basin would include 30 acres dredged to depths of -10 to -16 ft and would be protected by a 1,400-ft south breakwater, a 2,500-ft west break- water, and a 1,700-ft north silt barrier breakwater. The design wave height was 5.0 ft. The harbor is illustrated in Figure 44, and an aerial photograph of the harbor is presented in Figure 45. There are no reports of needed repairs or rehabilitations, nor are there reports of action taken on recommendations for an additional basin. ECT 15 MLW VICINITY MAP SCALE IN MILES SCALE IN KILOMETERS 1 3 coror'oo"n| ENTRANCE CHANNEL RESURRECTION BAY / SOUTH ( | BREAKWATER \ 1060" LONG TYPICAL SECTIONS EAST BREAKWATER SCALE IN FEET SCALE IN METERS 2 ADVANCE MAINTEMANCE TYPICAL SECTION — SOUTH BREAKWATER SCALE IN FEET SCALE IN METERS C—O — 0 0 10 20 30 40 50 0 3 ° 3 SOUNOOGS B ELEVATIONS ARE B43E0 SCALE IN FEET OM LL 0.0! SCALE IN METERS Figure 44, Site layout of Seward Harbor, Alaska (revised 1984) 100 La ice) fon) oO x n @ Cs x u ° a & @ = no) u su) = o Yn Gy fo) < a, oy & 00 [e) »p ° & oO. =! oO 4 ss o =x Figure 45, Date(s) 1945 1964- 1965 1967- 1971 Wes 1973 1985 Table 18 Sitka Harbor Sitka, Alaska Construction and Rehabilitation History The project was authorized, including a 13-acre basin protected by a 1,430-ft main breakwater and a 200-ft entrance breakwater. The basin was expanded to 15 acres during the design stage. The project was constructed, including a 15-acre basin dredged to -10 ft mllw and two rubble-mound breakwaters. The breakwaters were constructed to a crest elevation of +19.5 ft mllw, crest width of 8.5-ft, and side slopes of 1:1.5, and these consisted of a rock core with a 4-ft layer of class "B" stone and a 6-ft layer of armor stone. The design wave was 7 ft. Breakwater cross sections are shown in Figure 46. Wave studies of the harbor were conducted due to damage to small craft within the harbor. The entrance jetty was extended 135 ft. The harbor is illustrated in Figure 46, and an aerial photograph is presented in Figure 47. There are no reports of needed repairs or rehabilitation. 102 138°20'00"w BARANOF ISLAND %, NN ps SX pe {CHANNEL eSs OEP EL TH-22MLERE 180 FT. WIDE Bulkhead Line CRESCENT BAY a Indian BASIN . Village ' = nant ManTEe ADANCE MAINTENANCE 2 OEPTH-10 FT.ML t eeueccuuuscng on enna seme — FOREST SERVICE BASIN PROJECT DEPTH -IO FT. 19.5" Crest Elevotion ‘Armor Stone — 2' Min. Bedding Loyer TYPICAL SECTION OF MAIN & ENTRANCE BREAKWATERS SCALE IN FEET nl SCALE IN METERS WESTERN CHANNEL ELEVATIONS AND DEPTHS ARE IN FEET AND REFER TO MEAN LOWER LOW WATER (MLLW =0.0'). Cara i of SCALE IN FEET Deore SCALE IN METERS sT*0rm GALANKIN 1. VICINITY MAP Gir — "lee — fore SCALE IM VARDG Figure 46. Site layout of Sitka Harbor, Alaska (revised 1981) 103 +. © 4 cat AORN Figure 47. Aerial photograph of Sitka Harbor, Alaska, 1985 Date(s) 1938 1939 1954 1957 1960 1964 1965 1985 Table 19 Valdez Harbor Valdez, Alaska Construction and Rehabilitation History The original basin was authorized. The original basin was dredged, including approximately 3 acres at -12 ft mllw. The breakwaters were authorized, including a 475-ft rock and gravel breakwater on the southeast side and a 530-ft pile breakwater on the south and west sides. The breakwaters were completed. A rock and gravel base was added to the pile breakwater. The boat basin and townsite were destroyed by an earthquake. A new basin was authorized at the new townsite, including 10 acres dredged to -12 ft mllw, protected by a 625-ft rubble-mound west breakwater and a 685-ft rubble-mound east breakwater. The new harbor was completed. The breakwaters were constructed to a +19 ft mllw crest elevation, an 8-ft crest width, and 1:1.5 side Slopes, with a rock core covered by a layer of secondary rock and a 5-ft layer of armor rock. A breakwater cross section is shown in Figure 48. The harbor is illustrated in Figure 48, and an aerial photograph of the harbor is presented in Figure 49. The basin was expanded by local interests to 19 acres. There are no reports of needed repairs or rehabilitation at the new harbor. 105 Hi ‘a VALDEZ = PORT VALOEZ VICINITY MAP ° i > SCALE IN MILES st EGAN HAZELET / / WEST BREAKWATER #7 / /| (625') gf ~ EAST BREAKWATER ENTRANCE CHANNEL fA (685') -12' MLLW PORT VALDEZ ELEVATIONS ARE IN FEET AND REFER TO MEAN LOWER LOW WATER (MLLW=0,0') 146° 21° 146° 20° 30" SEA SIDE ARMOR ROCK 18° evey wo CHANNEL SIDE ie ~S Se ORE CRISS S| varies | EXISTING GROUND 2" Rock eLanxer ————/ TYPICAL BREAKWATER SECTION 400 to) 400 800 a eS i-=— | SCALE IN FEET Figure 48. Site layout of Valdez Harbor, Alaska, 1985 106 Figure 49. Aerial photograph of Valez Harbor, Alaska, 1985 107 Date(s) 1922 1926 1935 1936 1945 1956- 1957 1985 Table 20 Wrangell Harbor Wrangell, Alaska Construction and Rehabilitation History A 300-ft-long breakwater was authorized at Shekesti Point. The breakwater was constructed. The breakwater was of rubble-mound construction with a crest elevation of +18 ft mllw, crest width of 4 ft, and side slopes of 1:1.5 with a 5-ft-thick layer of armor stone covering the core material. The breakwater was covered with a monolith concrete cap, 4 ft wide at the base, and rising in a curb wall on the sea side of the breakwater to elevation +23 ft mllw. A breakwater cross section is shown in Figure 50. The outer basin was authorized, including a 600- by 400-ft basin dredged to -10 ft mllw. The outer basin was dredged. The inner basin was authorized, including 325- by 550-ft basin dredged to -10 ft mllw, a 530-ft-long by 120-ft-wide connecting channel dredged to -10 ft mllw, and a 320-ft breakwater. The inner basin and connecting channel were dredged, and the break- water was deferred. The harbor is illustrated in Figure 50, and an aerial photograph of the harbor is presented in Figure 51. There are no reports of repairs or rehabilitation. 108 ALASKA MAINLAND ( WORONKOFSKI ISLAND VICINITY MAP 0 SO SCALE IN MILES ZIMOVIA ‘WOODEN BRIDGE BREAKWATER “B" BREAKWATER °A° \ , 300 FT. LONG \ "CG STRAIT MOORING BASIN & CONNECTING CHANNEL BASIN: 550 FT. LONG, 525 FT. WIDE @ 10 FT. DEEP MOORING BASIN 600 FT. LONG 400 FY. WIDE @ 10 FY. DEEP PEA Sass ee Fe neti aga, TESA eee cae RUM ich as TYPICAL SECTION OF BREAKWATER 800 SCALE IN FEET 6 o 68 10 16 2 2 SCALE IN METERS SCALE IN METERS Figure 50. Site layout of Wrangell Harbor, Alaska (revised 1981) 109 Figure 51. Aerial photograph of Wrangell Harbor, Alaska, 1985 Date(s) 1957 1959 1962 1968 1970 1977 1985 Table 21 Chetco River Brookings, Oregon Construction and Rehabilitation History The jetties were completed. The north jetty was 850 ft long, and the south jetty was 1,550 ft long. The jetties converged to 325 ft apart at the outer ends. Rock pinnacles and abandoned bridge piers were removed. The outer 440 ft of the south jetty was repaired and raised to pre- vent movement of sand and drift into the navigation channel. Select class "A" stone was used on the outer 110 ft. The rest of the repair work placed a 5-ft layer of class "A" stone over a core of class "B" stone. Select class "A" stones weighed more than 12 tons, class "A" stone weighed a minimum of 6 tons and averaged 10 tons, and class "B" stone weighed between 1 and 6 tons and averaged 3 tons. The north jetty was raised to +16 ft mllw and extended 450 ft. The work required an estimated 61,900 tons of class "A", "B", and "C" stone and 14,800 tons of bedding material. Class "B" stone was placed to raise the inner 800 ft of the jetty to +16 ft mllw. An armor layer of class "A" stone was placed over a core of class "B" and "C" stone on the outer portion of the jetty. The final 50 ft of the jetty was composed entirely of select class "A" stone. Based on a unit weight of 160 pef, select class "A" stone weighed a minimum of 11.6 tons; class "A" stone weighed a minimum of 8.1 tons and averaged 9.9 tons, placed in a 10-ft-thick armor layer; and class "B" stone weighed a minimum of 5.2 tons, averaged 6.7 tons, and was placed ina layer with a minimum thickness of 9 ft. The rock was placed by a crane on the jetty. A protective dike was constructed to protect the small-boat basin about 2,500 ft upriver from the jetties. The dike, 1,781 ft long by 18 ft high, was constructed of a gravel embankment covered with a riprap revetment of 12-in. quarry spalls on the river side. An extension of the north jetty by 750 ft and the south jetty by 1,250 ft was recommended. The harbor and jetty cross sections are shown in Figure 52. There have been no reports of repairs or rehabilitation since 1970. 111 WASHINOTON i gWAKE PROTECTIVE DIKE (781_FT LONG, EL./8 ‘DIKE CONSTRUCTED BY LOCAL INTERESTS Upstreom Limit of Federal Project SMALL BOAT ACCESS CHANNEL 100 FT. WIDE BY 12 FT. DEEP SMALL BOAT BASIN 12 FT. DEEP AT ML LW. PROVIDED BY LOCAL INTERESTS HARBOR Cj VICINITY MAP 30 0 oO MILES in BARGE TURNING BASIN = 250 FT. WIDE BY 650 FT. LONG BROOKINGS Ji * AND 14 FT. DEEP AT ML.LW. BARGE SLIP - PROVIDED BY LOCAL INTERESTS BOAT BASIN PROVIDED BY LOCAL INTERESTS SECTION 8-8 OUTH JETTY) 1350" LONG 6 ENTRANCE CHANNEL Chatco Aive~ 8 Entronce Light . 120 FT. WIDE BY /4 FT. DEEP AT MLLL.W. -Clas3'A'Stone lonll/2 SECTION D-—D DEOO/NO MATERIAL GROUND LIME SECTION A-A Figure 52. Site layout of Chetco River, Oregon (revised 1979) 112 Date(s) Table 22 Columbia River At The Mouth Astoria, Oregon Construction and Rehabilitation History 1882 1884 1885 1893 1895 1899 1903 1903- 1913 1913- 1917 1931- 1937 USES 1938- 1939 A study was authorized for improvement of navigation at the mouth of the Columbia River. The study, submitted in 1882, recommended con- struction of a south jetty approximately 4.5 miles long. Construction of the south jetty was authorized. Construction of the south jetty was initiated. The Board of Engineers recommended increasing crest elevation of the jetty to +12 ft mlw at the shore, sloping to +10 ft mlw at a distance of 1.125 miles from shore, then sloping to +4 ft mlw at the outer end. Also recommended was the construction of 4 groins on the north side of the jetty. The south jetty was completed, including the recommendations made in 1893. Jetty length was 22,440 ft and required 945,923 tons of stone. The channel depth decreased as the channel shifted to the north. A new study was authorized for stabilization of the channel at -40 ft mllw. The report authorized in 1899 was submitted for study. The report recommended extending the south jetty 2.5 miles westerly and con- structing a north jetty to extend westerly from Cape Disappointment. The extension to the south jetty was constructed. The extension was 12,514 ft long and required 4,837,311 tons of stone. The north jetty was constructed to a crest elevation of +28 to +32 ft mllw, a crest width of 25 ft, side slopes of 1:1.5, and length of approximately 2.5 miles. The inner 3.3 miles of south jetty were rehabilitated with 2,207,613 tons of stone. The outer 300-ft portion of the south jetty was repaired during 1931-37 with 10,636 tons of stone. The outer 500 ft were impregnated with 12,737 tons of asphaltic mix with 18 percent asphalt and 82 per- cent beach sand. The north jetty was rehabilitated except for the outer 1,700 ft. A concrete terminus was placed at the end of the rehabilitated section. (Continued) 113 Table 22 (Concluded) Date(s) Construction and Rehabilitation History 1939 Jetty "A" was constructed with 233,708 tons of stone weighing a minimum of 6 tons each and averaging 10 tons each. 1940 The south jetty was repaired with 21,392 tons of stone. 1941- The head of the south jetty was repaired with 76,614 tons of stone, 1942 plus 27,960 tons (13,980 cu yd) of concrete for the terminus. 1945- The outer 1,800 ft of jetty "A" was reconstructed with 63,125 tons 1947 of stone. 1948- The outer 300 ft of jetty "A" was reconstructed with 30,000 tons 1949 of stone. 1952 The outer 150 ft of jetty "A" was reconstructed with 6,994 tons of stone. 1953 The outer 400 ft of jetty "A" was reconstructed with 25,005 tons of stone. 1958 Jetty "A" was repaired from sta 41 to sta 79 with 92,400 tons of stone. 1961 The south jetty was reconstructed from shore to "knuckle" with 213,461 tons of stone. The 1,800-ft section in the center of jetty "A" and the outer 1,400 ft of jetty "A" were repaired with 92,399 tons of stone. 1964- The south jetty was repaired from "knuckle" to sta 158+00 with 1965 308,101 tons of stone. 1965 The north jetty was rehabilitated with 136,935 tons of stone. 1982 The south jetty was repaired from sta 38+00 to sta 158+00 by filling of cavities in the structure. 1985 The harbor and cross sections of the jetties are illustrated in Figure 53. The north jetty and training jetty "A" have scour problems at the heads. The south jetty is in need of repair. 114 (6L6| PestAes) uoqZuTyseM pue uoZ2auQ ‘YyqAnow 3e ‘sonsa/ 10 pus s0jn0 61 oboe fo ywr0d or0g 0 a ae a VA L. (a7 7H),603 — mes mi “79: 1u7A ,040/— Mas mIVR 79 "21¥0H zee vivoisY 7. Jb ne cane = SNOILO3S TWOIdAL W, ALLIS os 3 Satin MI FIvIE. VW ALINIDIA ‘ edu! |NOLONIHS WM JaATY ePTQuNTOD Jo ynoheT a4IS “EG eun3Ty SNOILOSS WOIdAL ALL3¢ HiNos ALL3P HLYON 3-3 OL) wijouog 70 yibs97 70/04 04s bupsi47 puo #92019 ‘erq0/104 pia pu vo/joAs/9 404 a-a DUM 811 Z/) PUD deed 448% uUoUD s ‘ spsopoy Aq perisoyiny dalipurg petra) woesitan 5 11 Date(s) 1878 1879 1880 1884 1889 1891- 1895 1923 1923- 1929 1924- 1928 1929- 1930 Table 23 Coos Bay Coos Bay, Oregon Construction and Rehabilitation History A study was authorized for improvement of navigation at Coos Bay, Oregon. The study recommended construction of a half-tide drift wall or jetty extending seaward from Fossil Point, a second wall (parallel to the first) to confine the channel, and sand fences to prevent wind-blown sand from extending the spit. The project was adopted then referred to the Board of Engineers for the Pacific Coast who recommended construction of a spur jetty froma point 250 yd below the northern extremity of Fossil Point. The project was authorized in November 1879. Construction of the spur jetty was initiated. The spur jetty was constructed at half-tide height to a 1,825-ft length. The Board of Engineers recommended that two parallel jetties be con- structed to confine the channel and that work on the spur jetty be stopped. The north jetty was constructed to a 9,600-ft length from the high waterline on the seaward side of the north spit. The jetty was of rubble-mound construction on a foundation mattress of pole and brush. Stone used averaged 2 tons with 25 percent weighing 4 to 10 tons and up to 17 tons at the head. The outer 600 ft quickly subsided and was replaced twice by 1900. No maintenance work has been done on the north jetty since 1900. The outer 1,000 ft were 12 to 20 ft below mean low water. The north jetty fixed the direction of the channel but was unable to maintain satisfactory depths in the channel. The project was therefore modi- fied to restore the north jetty and construct a south jetty in ac- cordance with the project recommended by the Board of Engineers in 1889. The north jetty was restored to design height, using 690,212 tons of stone. The south jetty was constructed. The south jetty was repaired, and a concrete cap was placed on the outer 650 ft of the jetty. (Continued) 116 Date(s) 1930 1938- 1940 1941- 1942 1948 1956- 1957 USBMIS 1958 1962- 1963 1969 1970 Table 23 (Continued) Construction and Rehabilitation History A monolith concrete block was placed at the outer end of the north jetty. Maintenance work on the north jetty required 236,342 tons of stone. At least 45 percent of the stone above the core was class "A" stone weighing between 6 and 25 tons and averaging 10 tons. The stone was placed by dumping from cars on a tramway. The south jetty was restored, and monolith concrete cap was placed on the outer 650 ft. A small-boat mooring basin at Charleston was authorized. The small-boat mooring basin at Charleston was constructed, including a 2,100-ft breakwater and a silt barrier bulkhead. The breakwater had a crest elevation of +14 ft mllw, a crest width of 18 ft, and required an estimated 67,000 tons of stone, of which at least 35 per- cent was class "A" stone weighing 3,000 to 8,000 lb and averaging 5,000 1b. No more than 30 percent was class "C" weighing between 25 and 500 1b, and the rest was class "B" weighing 500 to 3,000 1b and averaging 1,000 lb. The stone was placed by dumping from the hauling vehicle. The outer 2,879 ft of the north jetty was repaired to crest elevation +25 ft mllw and a 30-ft crest width using 246,529 tons of stone. The design specified a minimum of 45 percent class "A" stone weighing at least 6 tons and averaging 10 tons, no more than 20 percent class "C" stone weighing less than 1 ton, and the remaining class "B" stone weighing between 1 ton and 6 tons and averaging 3 tons. The south jetty was repaired between stations 47+57 and 81+80, re- quiring 235,000 tons of stone. The armor layer over the outer 1,880 ft consisted of a 10-ft layer of Class "A" stone above mllw, underlain by a 5-ft layer of Class "B" stone in the outer 330 ft. Below mllw, the armor layer consisted of a 5-ft layer of Class "A" stone. Based on a unit weight of 165 to 170 pef, select class "A" stone weighed a minimum of 16.5 tons, class "A" stone weighed between 9 tons and 16.5 tons and averaged 11 tons, and class "B" stone weighed between 2 tons and 9 tons and averaged 4.5 tons. The rock was placed and keyed by crane. The north jetty was deteriorating at an average rate of 60 ft annu- ally since the 1957-58 repairs. The outer 700 ft of the north breakwater was repaired. Erosion began on the spit adjacent to and north of the breakwater at the small-boat basin. (Continued) 117 Table 23 (Concluded) Date(s) Construction and Rehabilitation History 1975 The breakwater at the small-boat basin was repaired. 1977 The breakwater at the small-boat basin was repaired twice. 1982 The breakwater at the small-boat basin was extended 700 ft and reha- bilitated. The design called for an 800-ft extension, but severe scour ahead of the work caused cost overruns which necessitated deleting the last 100 ft of the extension. 1985 The harbor and cross sections of the jetties and breakwater are illustrated in Figure 54. The south jetty is in good condition, but the outer 200 ft of the north jetty is in a deteriorated condition and has severe scour. The breakwater is in good condition. 118 — 0009 C00 002 4334 MI Twos 4304 MI 3795 AW, WWL30 4900 SYINIINI IO SAHOD % 7 ° oor (616, PastAea) uoseug ‘Aeg soog jo 4nofeT 2471S “HG oun3tTy ‘891140/ Jo pus s24n0 40 p1DM0St 408) COG ogo tt PUD pos 6007 wal) woe.jsumcp ops | 81 BBB IW J0 UIQ) esog (43me0 2330) NOLONITI WOLLVIIAYN 30 OV: 3aIsisva |] N= CLI ° oe 1334 mM 3v9S ALL HLiNOS 1euueyd—/8Yy 810m »¥,, 1VL30 33S @-@ NOIL93S v0149448U090) S x 6 cena, m4 ta L007 ON ~ 79 143A YBLVMAV3YE NOLSSTYVHO G-G NOILO3S TIT SSS LON: ev0is y #80/9—~_ Oorng 119 Date(s) 1880 1907 1942 1951 1954 1956 1982 1985 Table 24 Coquille River Bandon, Oregon Construction and Rehabilitation History The jetties were authorized. Two high-tide, rubble-mound jetties were completed. The north jetty was 3,450 ft long; the south jetty was 2,700 ft long. The outer 1,600 ft of the north jetty was rerocked and capped with concrete requiring an estimated 55,000 tons of stone and 10,000 cu yd of concrete. The stone was 60 percent class "A", weighing between 1 ton and 10 tons with an average of 6 tons, and 40 percent class "B", weighing between 50 lb and 1 ton, with half the class "B" stone weighing over 500 lb. The crest of the concrete cap was at elevation +15 ft mllw, the crest of the jetty was 34 ft wide, and side slopes were 1:1.5. A 750-ft shoreward extension was added to the east end of the north jetty. The outer 450 ft of the south jetty was repaired with 30-35,000 tons of stone. Capstones were of an 8-ton average with a 6-ton minimum, and the core was "B" stone over 2 tons, with select "A" stones up to 10 tons on the west end slope at the outer end of the jetty. The crest was 20 ft wide at elevation +20 ft mllw, and side slopes were 1:2. The design was for an average storm wave height of 10 to 12 ft. The north jetty was repaired, including placing concrete under the jetty cap in voids caused by erosion of the cap foundation stones and placing jetty stone along the north and south sides of the jetty cap. Stones were 50 percent class "A", weighing at least 4 tons and aver- aging 6 tons, and 50 percent class "B", weighing at least 1 ton and averaging 2 tons. The smali-boat basin was constructed at Bandon, Oregon, including construction of a rubble-mound breakwater about 350 ft long with a crest elevation of +14 ft mllw and a crest width of 6 ft. The harbor and cross sections of the jetties are illustrated in Figure 55. The head of the north jetty is in need of repair, but it is still functional. The south jetty is in good condition. 120 Removal of Snogs Mile 1.3 to Stote Highwoy Bridge ot Coquille ©) o ad Upstream Limit f Federal Project Ce ORURINNTnY, 3I7T1NOOI NAVIGATION (Mi 37) VICINITY MAP SCALE IN MILES North Jetty 3450' Lo Cong Channel !3 Feet Deep and suitable Width From the Seo to Mile 1.3. Note: Base Point of mileage is 3600 feet seaward from US. Coast Guord Wharf and is at outer end of jetties. Armor Stone Armor Stone SCALE IN FEET ° 1000 SECTION B-8 SCALES IN FEET 10 ) Figure 55. Site layout of Coquille River, Oregon (revised 1981) 121 Table 25 Depoe Bay Depoe Bay, Oregon Date(s) Construction and Rehabilitation History 1937 The project was authorized. 1939 The project was completed, including basin and channel. 1945 Project expansion was authorized. 1952 Expansion was completed, including expanding the basin, constructing a retaining wall on the easterly side of the basin, deepening the channel, and constructing a 160-ft breakwater on the north entrance to the bay. The breakwater was a concrete gravity type with crest elevation +10 to +14 ft mllw. 1960 Project expansion was authorized. 1966 Expansion was completed, including widening the entrance channel to 50 ft and constructing a second breakwater on the north entrance to the basin. The breakwater was a gravity type, constructed of con- erete. The crest elevation was +16 ft mllw, with an additional 4-ft-high by 2-ft-thick parapet at the westerly end. 1985 The harbor and cross sections of the jetties are illustrated in Figure 56. No needed repairs or rehabilitation are reported. 122 (9161 pastAes) uodaug ‘Aeg aodaq go ynokeT a4TS °9G aun3Ty 00z or ° 0 OO) 4334 NI 31V9S NW 1d SSS s oF Gg ° . 4334 NI 30v9S YSaLVMYV3yua 3-3 NOIL53S ag-d NOIL93S % we Ky Y po eae Fomiyjds 2492009 \ S & SS Wd W3HD. bb“ ee sO rad veppo/ye! 7. iM " ayo ng, palkg jaeped z ee ge 417 vader) 108-79 45a ' 7 1 2 ; eH > = tp Fy ray is 3S 3 Hey = 4 N % 8 48 ib anal E at < i 4 oe ae \ ny eon a a woby salt ets ae ree YBLVMYV3UE ‘W-V NOILDSS (= pemen ieee wuz fog wodkg\\ —_ Wr ay ie A OSE. BIAGIO \ 2) 5 7 EF PASEO sramog (2345-4! Ss BE. FHa} z & | pag S S37" Ka RO _—<——— Zi # sO CNG: " 2204 dVA_ALINIDIA / fi ¥ > ph J 7 } we \ y cs is) \ sy sa) N is) OPI+ 8 OOF AAT Cl = Pail 400/y SPUIMIPAL,. Ae ° ae bora) Fomybiy way psomoas 423 OSP ynogo s/ 26b9/!Lu 40 4Ul0g 2509 123 Date(s) 1890 1898 1910 1912 1915 1918 1919 1934 1979 1981 Table 26 Nehalem River Oregon Construction and Rehabilitation History The initial project was authorized. The initial project was terminated before construction had begun, Local interests began construction of the south jetty. The existing project was authorized, including two high-tide rubble- mound breakwaters 700 ft apart at the outer ends. Construction of the south jetty was completed. The jetty was 4,500 ft long, including the work begun by the local interests in 1910. Crest elevation was +10 ft mllw with a 10-ft crest width and 1:1 side slopes for the first 3,000 ft, and crest elevation was +12 ft mllw with a 15-ft crest width and 1:1.5 side slopes for the outer 1,500 ft. Construction of the north jetty was completed. The jetty was 3,300 ft long. The crest elevation was +10 ft mllw with a crest width of 15 ft for the first 1,600 ft, and crest elevation was +12 ft mllw with crest width of 20 ft for the seaward half of the jetty, all with side slopes of 1:1.5. Jetty subsidence and storm-related damage had lowered the outer 200 ft of both jetties below low water. The project was classified inactive. The seaward 200 ft of the north jetty was below mllw, and the rest of the structure was between +3 and +5 ft mllw, with the highest elevation at +9 ft mllw. The outer 220 ft of the south jetty was below mllw, with the remaining length predominantly below mllw. The outer 200 ft of the north jetty was below mllw, the majority of the structure was below +6 ft mllw, and the maximum elevation was +7 ft mllw. Approximately 700 ft of the north jetty shoreward of the high waterline on the spit was covered with sand. The outer 400 ft of the south jetty was below mllw, the next 1,400 ft was at about +3 ft mllw, and the remainder of the structure was at about +5 ft mllw, with a maximum elevation of +7 ft mllw. Major rehabilitation of 3,500 ft of the north jetty and 4,400 ft of the south jetty was undertaken. The jetties were rebuilt to a crest elevation of +16 ft mllw, crest width of 26 ft, and side slopes of 1:1.5. Estimated stone required for the north jetty included 63,600 tons of class "A", 40,100 tons of class "B", 12,800 tons of core stone, and 9,500 tons of bedding stone. The south jetty (Continued) 124 Date(s) 1981 (Cont) 1985 Table 26 (Concluded) Construction and Rehabilitation History required an estimated 66,900 tons of class "A" stone, 104,000 tons of class "B", 40,300 tons of core stone, and 10,500 tons of bedding stone. Class "A" stone had a minimum weight of 7.0 tons and an aver- age weight of 9.3 tons; class "B" stone had a minimum weight of 4.2 tons and an average weight of 5.6 tons. All weights were based on a unit weight of 170 pef. Stone placement during construction was not as precise as desired due to inexperience of the contractor. However, the stones were sufficiently overweight that the jetties should be stable. The harbor and cross sections of the jetties are illustrated in Figure 57. The jetties are in good condition at this time. wAS HI N\|G TON MEab oF NAVIGATION VICINITY MAP ° a4 3 SECTION B-B NORTH JETTY SECTIONS Beach rad Upstream Limit of SECTION cc Pederal Project SOUTH JETTY SECTIONS EXISTING CONDITIONS SHOWN) Nehalem Base Point of mileoge /s about 530 feet from the outer end of tha jetties. Wheeler to Tillamook Figure 57. Site layout of Nehalem Bay, Oregon (revised 1979) 125 Date(s) Table 27 Port Orford Port Orford, Oregon Construction and Rehabilitation History 1935 1965 1968 1985 Local interests built a combined breakwater-pier of piling, concrete, and stone. The breakwater was rebuilt three times between 1935 and 1965 due to damage from winter storms. An extension to the breakwater was authorized. The breakwater extension was constructed. The extension was 550 ft long with crest elevation of +20 ft mllw and crest width of 30 ft. Side slopes were 1:1.5 on the harbor side and on the ocean side below mlw and 1:2 on the ocean side above mlw. The project required an estimated 79,000 tons of stone as well as 11,000-16,000 tons for the bedding layer. Fifty-eight percent of the stone was class "A" (9 to 15 tons and averaging 12 tons). Twenty-two percent of the stone was class "C" (weighing a minimum of 1,000 lb and averaging 1 ton). The remainder of the stone was class "B" (weighing a minimum of 2 tons and averaging 6 tons). The design wave was the 10 percent wave, estimated at 22 ft. The harbor and cross section of the breakwater are illustrated in Figure 58. No repairs or rehabilitation are reported. 126 VICINITY MAP 800 ° 5 FEET EMISTIMG OQREARWATER BREAKWATER EXTENSION 550 FEET LONG HARBOR eZ, . yy KX FSA) SORA Ks “a 3' THICK BEDDING LAYER TYPICAL BREAKWATER SECTION 50 80 FEET Figure 58. 127 WASH IAN oT SNAKE | REGIONAL MAP SCALE mW MILES 80 $0 100 TURNING BASIN 340 feet long, 100 feet wide, & 16 feet deep EXISTING DOCK (ees) Data within box pertain to Authorized Projec?. LIMITS OF 3° THICK BEDDING LAYER AN Site layout of Port Orford, Oregon (revised 1971) Date(s) 1954 1959 1960 1964 1966 1985 Table 28 Rogue River Gold Beach, Oregon Construction and Rehabilitation History The project was authorized. The south jetty was completed. The 3,400-ft-long jetty was of rubble-mound construction, with 1:1.5 side slopes, and it consisted of 216,069 tons of stone. The seaward 1,700 ft had a crest elevation of +19 ft mllw and a crest width of 26 ft; the rest of the jetty had a +15-ft mllw crest elevation and a 20-ft crest width. Armor stone was greater than 6 tons and averaged 10 tons. The north jetty was completed. The 3,300-ft-long jetty was of rubble-mound construction, with 1:1.5 side slopes, and it consisted of 462,767 tons of stone. The crest elevation was +19 ft mllw with a crest width of 26 ft. The highest flood on record damaged the north jetty. The north jetty was rehabilitated, requiring an estimated 67,500 tons of class "B" stone and 32,000 tons of quarry spalls and bedding mate- rial. The class "B" stone was placed as an 8-ft-thick armor layer on the underwater slope of the jetty in the damaged area, and it weighed between 1 and 6 tons. The harbor and cross section of the jetties are illustrated in Fig- ure 59. There is some localized damage on the jetties. 128 PACIFIC VICINITY MAP SCALE IN MILES ° 10 10 20 Bank Protection Upstream Limit of Federal Project Channel I3ft. deep and 300 ft. wide. |// Wedderburn Breakwater Me as Constructed & Maintained HORIZ. CL.- 200’ PAL By Local Interests Turning Basin I3 ft. deep, SOO ft. wide & 650ft. long a, if les Two Jetties |; {~ GOLD BEACH 1000'apart| = paeaseazen Wy ean TYPICAL JETTY SECTION wide & 600'long wo SCALE IN FEET PACIFIC Channel lOft. deep and 10Oft. wide Bose point of mileage is 0.8 mile down- SCALE IN FEET stream from the highway bridge. Boat ned - APCD Figure 59. Site layout at Rogue River, Oregon (revised 1977) 129 Date(s) 1890 1891 1893 1905 1910 1912 1916- 1917 1917 1955 1957 1958 1961 1969 Table 29 Siuslaw River Florence, Oregon Construction and Rehabilitation History The original project was authorized. The original project was modified. The project included a 10-ft channel maintained by two high-tide rubble-mound jetties that were 600 ft apart at the ends. The north jetty was 7,500 ft long; the south jetty was 5,600 ft long. Construction began on the north jetty. The project was suspended. The north jetty had been constructed to 4,090 ft, and work had not been started on the south jetty. The existing project was adopted. The project included an 8-ft-deep bar channel maintained by two high-tide rubble-mound jetties that were 750 ft apart at the ends. The north jetty would be extended by 3,700 ft, and the south jetty would be 4,200 ft long. Work on the jetties was suspended. The south jetty was repaired and extended. The jetties were completed. The north jetty was 7,490 ft long and included 441,237 tons of stone. The south jetty was 3,945 ft long and used 196,860 tons of stone. Both jetties had crest elevations of +15 ft mllw, crest widths of 15 to 20 ft, and side slopes of 1:1.5 to 1826 The south jetty had been deteriorating since 1917. Deterioration accelerated in 1955 when a portion of the jetty near shore that had been constructed in 1912 was exposed. The north jetty was repaired. Class "A" armor stone used were over 6 tons each and averaged 10 tons. Class "B" stone was over 1 ton and averaged 3 tons. The 600-ft extension to the north jetty was approved but deferred. The outer 300 ft of the south jetty was at mllw. The crest of the rest of the jetty varied from +5 to +10 ft mllw. An aerial photograph of the jetties taken in 1969 is presented in Figure 60. (Continued) 130 Date(s) 1981 1983- 1985 1985 Table 29 (Concluded) Construction and Rehabilitation History The 2,000-ft extension to the north jetty and the 2,500-ft extension to the south jetty were approved. The north jetty extension included the 600-ft extension authorized in 1958. The jetties were extended. A 756-ft length of the north jetty was rehabilitated, and the jetty was extended 2,500 ft. The south jetty was extended about 2,300 ft. Four spur "wings", each 100 ft long, were constructed at a 45-deg angle near the end of each jetty. The project required 1,300,000 tons of rock. Crest elevations of the ex- tensions were +18 ft mllw, except for the seaward 300 ft of the north jetty and the seaward 500 ft of the south jetty, which had crest ele- vations of +20 ft mllw. Crest elevation of the spurs varied from +18 ft to +14 ft mllw. The top width of the extensions was 34 ft, and the side slopes were 1:2 above mllw and 1:1.5 below mllw. Armor layer thickness was typically 14 ft on the extensions, using class "A" stone weighing between 11.5 and 18.9 tons and averaging 15 tons. Select class "A" stone weighing a minimum of 19 tons was used for the armor layer near the end of each extension. Stone weights were based on a unit weight of 165 pcf. The harbor and cross sections of the jetties are illustrated in Figure 61. Both jetties are in good condition at this time. Figure 60. Aerial photograph of jetties at Siuslaw River, Oregon, 1969 131 uoZa1Q ‘4aATY METSNTS Jo ynokeT agTS °19 duNBTy ‘N07 44009 AG 301m 14 00% 48 4330 4491 NISW8 OWINYNL OMILSIXI (9) smi 310 ie — 91 im GL 2ONaLOT’ 201 44061 48 (6920 142) VINNVHD AMON 99 407) N= v N RY x 2 DY 3 / a4 ova | ‘ [ 3 a / » / | a = pen, is f = } ~ Py > | 5 \ 4 + (SI SNI089 NOLS : xe / 7, > 193r0ud 1vu3033 40 OF; Lin. wa4asan / ai -N- NOL3TdUN i {ca} N07 14005 AG 0A 14008 AG q 4334 002% Y 4330 1421 MISva ONINUNL is auaat Minos E r {) Ya 193) 061. he ALLar HuWON 4334 ca & 3 & NOILO3S ALL3P HLNOS TWOIdAL 4334 C3 e by Ey NOILO3S ALL3C HLYON TWOIIdAL _ woveugoyes | A 04 Ud NS Poary | 0 Seor ames —_— rye Ve VA ALINIDIA 132 Date(s) 1912 1914- 1917 1921 1931- 1933 1946 1955 1962 1963- 1965 1965 1969- 1971 1972- 1974 Table 30 Tillamook Bay Tillamook, Oregon Construction and Rehabilitation History The north jetty was authorized to 5,700 ft. The north jetty was constructed to 5,400 ft using 428,672 tons of rock. The north jetty was repaired with 500 tons of rock placed near the shore end of the structure. The north jetty was reconstructed and extended to the full authorized length of 5,700 ft, requiring 320,350 tons of rock. Minor repairs were made to the shore end of the north jetty. Repairs were made to the north jetty near the shore end. Also, a breach at the beachline of the north jetty that had been cut to bring a beached vessel through the jetty was repaired. Repair work used 5,535 tons of rock. A 1955 aerial photograph of the north jetty is given in Figure 62. The beach was built up on the north side of the jetty for 3,500 ft. Seaward of the beachline, the jetty crest was at half tide and the outer 800 ft was below the low water level. The north jetty was rehabilitated. The jetty was raised to a crest elevation of +18 ft mllw from sta 32+60 to 53+00 then increased to +24 ft mllw between sta 53+00 and 55+00, and remaining at +24 ft to sta 57+00. Design wave for the rehabilitation varied from a 16.5-ft breaking wave nearshore to a 23.5-ft breaking wave at the head. The work required an estimated 174,000 tons of class "A", "B", and "Cc" stone, plus 60,000 tons of select class "A" stone. Select class "A" had a minimum weight of 18 tons, class "A" had a minimum weight of 12 tons and an average weight of 15 tons, and class "B" had a minimum weight of 5 tons and an average weight of 8 tons. At least 57 per- cent of the weight was class "A". The south jetty was authorized to 8,000 ft. The south jetty was constructed to 3,695 ft. The contract was for construction of the first 5,000 ft of the jetty, but overruns caused by scour in front of the construction caused the work to be sus- pended. The work required 655,049 tons of stone. The south jetty was extended by 2,830 ft, requiring 783,944 tons of stone. The distance between the north and south jetties was reduced from 1,400 ft to 1,200 ft. (Continued) 133 Table 30 (Concluded) Date(s) Construction and Rehabilitation History 1978- The south jetty was extended to 8,000 ft. 1979 1985 The harbor and cross sections of the jetties are illustrated in Fig- ure 63. The head of the north jetty has received some damage from extreme wave conditions, and the outer portion of the south jetty has shown some subsidence. No repairs or rehabilitation are planned at this time. Figure 62. Aerial photograph of north jetty, Tillamook Bay, Oregon, 1955 134 a ‘[ J Twin Rocks Twin Rocks ; Ocean Lake Park i Watseco \fiot : iss ar Channel : ;, 5700' Long 18 Feet Deep,No L nd Width Specified @ 55° Channel 18 Feet Deep, 200 Feet Wide. Turning Basin 500 Feet Wide. x MORIZ, CL. - 95° AS y VERT. cL. -HI’ =——Aat Miami R. iy VICINITY MAP. SCALE im BLED ° South Jetty 8,000 Feet Long Y Upstream Limit of Federal Project B8edding Layer SECTION B-B 7 ( Hobsonville \ AA EYDEy VAM O08 K: GS © Ym Ww ww aon ie 123°80' oy » 39208 v ) SN Ny y Q : eg \ » SO 45°30 x. Q Boulder Pointy yy, Cape Meares Rock Point Dick Point\ MORIZ. CL. - 115° \ VERT. CL. - 22° Note: Base Point of mileage is in line with shore tine north of Jetty and is 4500 feet seaward (along ronge line) from U.S. Highwoy No./0/. TRUE NOOTH Ee Oceanside HEAD OF WAVIGATION HORIZ. CL. - 03" VERT. CL. - 14.5" HORIZ. CL. - 70° VERT. CL - 24" - Y, SCALE IN FEET Existing stone before reconstruction 2000 ° $000 SECTION A-A 10000 Figure 63. Site layout at Tillamook Bay and Bar, Oregon (revised 1979) Use) Date(s) 1916- 1919 1922 1923- 1926 1928- 1930 1930 1931 1933— 1934 1935 USS 1938 1940 1941 1941- 1942 1946- 1948 1950- 1951 Table 31 Umpqua River Reedsport, Oregon Construction and Rehabilitation History Local interests constructed the north jetty to 3,390 ft. The project was adopted for extending the north jetty to 7,500 ft. The north jetty was extended to 6,495 ft. The project was suspended due to lack of funds. The north jetty was extended to 8,000 ft. The short south jetty was authorized. The north jetty maintenance work required 35,752 tons of stone. The south jetty was constructed. The 1,700-ft extension to the south jetty was authorized. The south jetty extension was completed, terminating in a monolithic concrete block 46 ft long by 30 ft wide by 16 ft high, flanked by four wing blocks each 18 ft long by 14 ft wide by 8 ft high and two end blocks each 20 ft long by 14 ft wide by 8 ft high. The shore end of the south jetty was extended 550 ft to high ground. The seaward end of the south jetty was beaten down or settled into a sand base to mlw for about 400 ft. The seaward 1,000 ft of the south jetty was beaten down or settled into the sand base to mlw. The outer 4,000 ft of the north jetty was rehabilitated with 90,358 tons of stone, and a concrete cap was placed on the outer 3,977 ft of jetty, requiring 28,291 cu yd of concrete. The crest of the concrete cap was at elevation +14 ft mllw. The hydraulic model study at WES recommended construction of a train- ing jetty. The training jetty (4,240 ft long) was constructed parallel to and along the south side of the entrance channel. (Continued) 136 Date(s) 1963 1964 1977 1978- 1980 1985 Table 31 (Concluded) Construction and Rehabilitation History The south jetty was rehabilitated. The crest elevation varied, but it was +26 ft mllw at the head. The crest width was 26 ft, and side slopes were 1:2 above mllw on the ocean side but 1:1.5 elsewhere. The hydraulic model study at WES recommended extension of the train- ing jetty. The north jetty was rehabilitated. The crest elevation was raised to +20 ft mllw with a crest width of 28 ft and side slopes of 1:1.5 on the channel side. Side slopes on the ocean side were 1:2 above mllw and 1:1.5 below mllw. The head of the jetty was at elevation +21 ft mllw with a crest width of 28 ft and side slopes of 1:2 above mllw and 1:1.5 below mllw. The training jetty extended to the end of the south jetty. The extension had a crest elevation of +14 ft mllw, a crest width of 30 ft, and side slopes of 1:1.5. The core stone was covered with armor stone to elevation -10 ft mllw. The armor layer was 12 ft thick on the channel side and on the crest and 6 ft thick on the side of the embayment between the training jetty and the south jetty. The harbor and cross sections of the jetties are illustrated in Fig- ure 64. The jetties appear in good condition at this time. 137 (L861 PastAea) uoseuQ ‘uaaTy enbduy qe 4qnoAeT a9TS “hg OuN3TY o oz ° oz 4334 MI 31W9S Wqod er0g eras psonoes 1905 005'> Sen ooo ee ALLAP ONINIVYEL ee orate iene Se TTC ERED 3-3 Nolloas O00 inoge efoboajurye ned uo “eo Lo e ALL ONINIVYL a-d NOILO3ZS 826] 4enbny 40 60 “poyji90de Wipia ou @ deep 400) 92 feuuoy9 408 9 a S TH ap/s Wwoudogurg ops jeuuoYyD uns Y SSDI Lr) ira rancor oo oa | oF oz ° oz 4334 NI 31V9S SNOILOAS TVOIdAL ALiLaf Hinos a-a woroiiiqoyer esyeq evojs buiyjsixz-. | AT 7W = \ ©) 20/04g josepoy (2 ui? woeysdp dVW ALINIDIA vow ousaoyes 010409 ALL3¢ HLYON T evojs Buysinz VOVAIN PAPO CEC Dey OSE SF) — leer | O Sites aC BINT N fe) 9° 3 u ° OHVOl . Wolojiiqoyes @s0j0q : Cab CUES v-v om = oi "7. —s Gm H visnino, | NoLoNIHS YM 138 Date(s) 1880 1895 1919 1921 1930 19383— 1934 1937 1939- 1940 1948 1956 Table 32 Yaquina Bay Newport, Oregon Construction and Rehabilitation History The original project was authorized. The original project was completed, including two high-tide rubble- mound jetties. The north jetty was 2,300 ft long, the south jetty was 3,600 ft long, and the ends were separated by 1,000 ft. Restoration and extension of the jetties was authorized. An extension of the south jetty to 5,800 ft was completed. An 800-ft spur dike and 5 groins were added to the channel side of the south jetty. An extension of the north jetty to 3,700 ft was completed. The outer 2,200 ft of the north jetty and 2,700 ft of the south jetty were restored to project heights. The estimated stone required was 47,000 tons of class "A" and 23,000 tons of class "B" and "C" com- bined for the north jetty, and 62,000 tons of class "A" and 48,000 tons of class "B" and "C" combined for the south jetty. Class "A" stone averaged 9 tons with a minimum weight of 6 tons; class "B" stone averaged 2.5 to 3 tons with a minimum weight of 1 ton. Stone was placed by dumping from a tramway. A 1,000-ft extension of the north jetty was authorized. The north jetty was rehabilitated and extended 1,000 ft. The work required an estimated 180,000 tons of stone and 6,018 cu yd of con- crete for a terminal cap. Class "A" stone weighed between 6 and 25 tons and averaged 10 tons, and class "B" stone weighed between 1 and 6 tons and averaged 2.5 to 3 tons. Stone was placed by dumping from a tramway. Two breakwaters were constructed for a small-boat basin at Newport. The detached breakwater was 2,650 ft long, and the shore wing was 400 ft long. Both jetties were timber, pile, and stone construction to +14 ft mllw. A cross section of the breakwaters is given in Figure 65. The north jetty was rehabilitated using an estimated 220,000 tons of stone. Class "A" stone weighed more than 6 tons and averaged 10 tons; class "B" stone weighed between 1 and 6 tons and averaged 3 tons. The stone was placed by dumping from a hauling vehicle. Select class "A" stone weighing up to 20 tons was used for the terminus. (Continued) 139 Date(s) 1958 1966 1970- 1972 1976 UY 1978 1983 1985 Table 32 (Concluded) Construction and Rehabilitation History An extension of the north and south jetties was authorized. The north jetty was extended to 7,000 ft. The crest elevation was +20 ft mllw, crest width was 30 ft, side slopes were 1:2 above mllw and 1:1.5 below mllw. Stone weights, based on 165 pef, were a mini- mum of 20.5 tons for select class "A", a minimum of 13.5 tons and an average of 17 tons for class "A", and a minimum of 5.5 tons and an average of 9 tons for class "B". The work required 80,904 tons of select class "A" stone, 274,243 tons of class "A" stone, 192,612 tons of class "B" stone, 116,296 tons of class "C" stone, and 125,024 tons of bedding material. Stones used in the armor layer were individ- ually placed by crane. The south jetty was extended to 7,600 ft. The crest elevation was +20 ft mllw, crest width was 30 ft, and side slopes were 1:2 above mllw and 1:1.5 below mllw. Stone weights, based on 170 pef, were a minimum of 22 tons for select class "A", a minimum of 12 tons and an average of 17 tons for class "A", and a minimum of 6 tons and an average of 9 tons for class "B". Estimated quantities were 66,500 tons of select class "A", 179,300 tons of class "A", 184,000 tons of class "B", 69,700 tons of class "C", and 79,500 tons of bedding material. Stone in the armor layer was individually placed by crane. The design wave was a breaking wave varying in height along the jetty from 18.5 to 27 ft. Rehabilitation of the north jetty was authorized. The outer 500 ft of the north jetty were repaired. The north jetty was sand sealed by blasting between stations 46+00 and 66+00. The small-boat basin was constructed at South Beach, Oregon, in- cluding two high-tide rubble-mound breakwaters with lengths of 1,800 and 700 ft. The breakwaters were designed for a 3-ft wave and a still-water level of +9 ft mllw. Crest elevation was +14 ft mllw with a crest width of 10 ft and side slopes of 1:1.5. The work required an estimated 11,500 cu yd of armor stone, 35,700 cu yd of core and bedding stone for the breakwaters, plus 2,000 cu yd of quarry spalls and 3,000 cu yd of gravel bedding for shore protection. Armor stone weight was between 100 and 1,000 lb, with at least 50 percent of the pieces weighing more than 300 lb. The outer 360 ft of the north jetty subsided to below water surface and required major rehabilitation. The harbor and cross section of the jetties are illustrated in Fig- ure 65. The south jetty shows some damage but is serviceable, and no repairs are planned at this time. Studies are currently being con- ducted for major rehabilitation of the north jetty. 140 (gL61 PesTAea) uoZeuQ ‘4oquey pue Aeg eurnbex ye 4noheT a4TS °Gg aun3Ty 1334 NI 39S SNOILOSS WOIIdAL 000! 005 41334 NI 3790S “080119 101 foayors4 ALLa? HLNOS © HLUON ‘S$ Nwoy woss)sumop o/1W 2u0 s/ 9608//wW 40 juI0d as0g ouinboa \( 420f01g jos9pay 4O jwi7, woansdn \ 2} OO puD daap 607 0098 Auver_yinos 6u07 1004 008 JouuoyD seo20y Avon ands doop 199) g uitog bujs00W J008 |/0WS poaal feaou 13 (a77A) (98/79 3A 685-79 D0 Y S371W AI 3s AVN ALINIOIA Tvinwosirwa Se ise} cow Coan M 0021 01006 ‘d80p 4334 NI 3095 J OF uisog Buuiny NOILOSS YALVMAV3SYE IWOIdAL deap 199) 0) 120dm0N 10 uis0g Ou},00W Jog |1/0WS, nisve ALNNOD NTO9NIT MISOOW buio0yS,,02X,8 141 Date(s) 1919 1954 1957 1958 1964 1976 1982 1985 Table 33 Anacortes Harbor Anacortes, Washington Construction and Rehabilitation History The channel project was completed. The project was modified to include the boat basin and two pile breakwaters. The project originally called for just the 370-ft-long southeast breakwater. The south side of the harbor was protected by log booms owned by a local mill. With the closure of the mill, the log booms were removed, and the south breakwater (350 ft) was required. Construction of the pile breakwaters was completed. The breakwaters were constructed of treated timber pilings that were 14 in. in diam- eter, with a minimum penetration of 16 ft, reinforced with 8- by 10-in. wales. A seven-pile dolphin was constructed at the Capsante Waterway end of each breakwater. A cross section of the breakwaters is shown in Figure 66. During a storm in November 1957, the breakwaters were seen to provide inadequate protection against storms from the southeast. The break- waters left a 100-ft wide channel for the Capsante Waterway. The Seattle District and the North Pacific Division recommended ex- tension of the breakwaters, but federal funds were unavailable. The Port of Anacortes therefore extended the south breakwater to HHO ft (total length). Both breakwaters were extended to 470 ft. The extensions were in the Capsante Waterway. To provide greater stability in the deeper waters of the waterway, the toes of the extensions were protected by a rock cover with a gravel and spalls blanket to a depth of -6 ft mllw and a top width of 8 ft. Both breakwaters were rehabilitated by cleaning and treating the pile heads or replacing the piles. The mooring basin was enlarged by the Port of Anacortes. The harbor is illustrated in Figure 66. There have been no reports of needed repairs or rehabilitation since 1976. 142 TDNoAInooooCoIoe Ley ! Al ls Boa mlalaialeh HOODOOOR Ke poooohkS é] Hononoooo Hood seen sulla mQO0O00R000 IO0G0 MOOOooOoooOooOM\: joo 200000080 1Z (JOO IDbO000R00 CINOoL Ce CI0000 o — aol HE aaPRt A al y ae oc — <8 US 10 STRA,, *6 VICINITY MAP SCALE IN MILES 5 9 5 == =——————! a] ro 54P 5 2 3 8"x10" Wale 4¢ galv. bolt, fittings. Alternate butt down | ani Exist. bottom [) mal CITY INDUSTRIAL PARK 2 OooOC_jooO0000000 OOOLIOUO00noone p | | | | | J] St] Oo | | OO COC _] sx} a a Oo) C) aa Sei] Sa) c 2] ; i ROCK BREAKWATER 500' LONG (NON-FEDERAL) MOORING BASIN 12° DEEP PILE BREAKWATER 470° LONG ow (ET DEEP / PILE BREAKWATER 470! LONG fg! &e—ANACORTES NAVIGATION 4” = CHANNEL. 150' WIDE x 5,/80' LONG BERTHING AREA (NON-FEDERAL) KR v % 9 AG) Y L « SCALE IN FEET 0 1000 2000 3000 EL.Varies TYPICAL BREAKWATER SECTION Figure 66. 143 Revised Sept, 1979 Site layout of Anacortes Harbor, Washington (revised 1979) Date(s) 1954 1958 1960 1980 1985 Table 34 Bellingham Harbor Bellingham, Washington Construction and Rehabilitation History The small-boat basin was authorized, including construction of two rubble-mound breakwaters with a combined length of 3,900 ft and removal of a 1,400-ft-long rubble-mound breakwater constructed by the Port of Bellingham in 1934. Construction of a small-boat basin was completed. The breakwaters were constructed on a gravel mat to compensate for poor foundation conditions. The River and Harbor Act authorized harbor expansion. Harbor expansion was completed, including construction of a 1,500-ft rubble-mound breakwater. The harbor and cross sections of the breakwaters are shown in Fig- ure 67. There are no reports of needed repairs or rehabilitation for the breakwaters. 144 (2861 PesTAdu) uoqyZuTUuseM ‘uoquey mweYZUTT TOG JO qynokeT 9241S IN/7 NOUWONNOS WH/4- ISOIIY 70 T79H' °19 aun3Tt gy ke 422) ur aj025 Q-G NOILISS WWOIIldAL yaLVMyVvaNEe Pamaarl d yavawave OWnon 278804 OM/LSIXI = 423) v1 2/095 9-9 NOMLDAS TWIIdAL YBLVMAV3NE a} VLVALVINE ONUSIXI ai POWs OFBVATYS ¥I0Y-— > W01S Nisve lvoe 4208-8. SSV72 eee a a ar er oe aaa saa) ur aj025 9-8 NOILDSS IWIIdAL y3alVMyVvaNe FOS OyvMEIs FOS N/SWe ivOe FIVIUNS ONNOWD ONL SIXI Me P 1704 2, SSVID 208 8, SSYT / 01s NiSWa 1VOB IOS CawMrIs SK ot Susur rua, Yt. fs \ fi AFI Ld 2 Vile STINNGHD ‘ FINCH LN: aay ul aj025 V-V NOILDSS IWOIIdAL ya LVM Waa bb= 29 SI1YWA FIWINS INNOHD SNIISICT ES SSS Ss EL = Oa=01 2 SIVA X s WVHONITIS8%: TMF 0, SS¥ID7 W204 8, SSVTI/ Bors wisva Ivor ‘ Cavav Is 145 Date(s) 1936 1936- 1956 1950 1954 195if 1985 Table 35 Blaine Harbor Blaine Harbor, Washington Construction and Rehabilitation History Local interests dredged the initial boat basin. The boat basin was expanded several times by local interests. The project document was prepared. The project was authorized, including dredging an additional 14.7 acres to a depth of -12 ft mllw, construction of a 1,500-ft rubble-mound breakwater to a height of +15 ft mllw with side slopes of 1:1.5, and repair of an existing 450-ft rubble-mound breakwater. The planking and bracing of an existing 834-ft two-step untreated wood pile and rock breakwater were removed, and the breakwater was rebuilt as a rubble-mound breakwater. The project was completed. The harbor and cross sections of the breakwater are illustrated in Figure 68. Since completion of the breakwater, local interests have built and maintained additional pile breakwaters at the entrance to the harbor. There have been no reports of needed repairs or rehabil- itation for the Corps maintained structures. 146 (ZL6| PestAes) uoyZuTYyseM ‘soqueH sUTeTY_ 42 qnokeT a4TS °gg aun3Tg Seoward Side Exist. rock breckwoter Exist rae outside the limits of rock Oreokwoter fo be re- ed as intermediate rock. Seaword Side Boot Harbor Side Ie SECTION B-B OF BREAKWATER if > RYN, £l09.0 | & Seoword Side / Intermediate rock i MLL WZ u Existing timber breakwoter i isting k reinfc 1, Intermediote rock Existing rock reinforcemen SECTION A-A OF BREAKWATER Scole in foot 10 o 10 20 a VICINITY MAP Scole in miles o tC) 30 Gy “>~MOORING BASIN 12' DEEP (locally maintained) by local interests Pile breakwoters local) — ‘ constructed and maintained. Ww 2 a 3 xX _ . . Breokwater extended BREAKWATER (Federally maintained) e. a Date(s) 1962 1965 1968 1985 Table 36 Edmonds Harbor Edmonds, Washington Construction and Rehabilitation History The harbor was constructed by local interests, including a 1,850-ft rubble-mound breakwater with a crest elevation of +18.5 ft mllw and a 250-ft rock reinforced treated pile and plank breakwater. The Corps accepted maintenance of the two breakwaters and an entrance channel 610 ft long by 65 ft wide by 13 ft deep mllw. The basin was extended by local interests. The basin extension is maintained by local interests. The harbor and cross sections of the breakwaters are illustrated in Figure 69. The Corps maintained structures are surveyed annually. There are no records of any repairs or maintenance work. 148 (6L6| PestAes) uoqZuTYyseM ‘uoquey spuoulpy 7e qnokeT a4TS °69 BUNTY ae Dae TTT 1334 NINOS 1334 NI aIW>S YILVMAVIVA Jd YIGWAL ‘NOMLDIS TWIIdAL SILVMAVINE NIVW NOILDIS TWIIdAL Twit 2 SHEVA 1D g +4; fi omoasee) A 3 annous aaeeniHiant anno isa | 1 i i 1 1 i 1 ( 1 ABANWTE TZAVED XDIHL OL 1ByNVIG 13A¥H9 81 : Z SUMS Auyn© 40 ~ 32d VIE oz 0 FO OOz 4aad MI 31¥95 “¥31¥M M01 13MO1 NYIW 40 3NVId 3Hi O1 Gau¥ai3u av ONY 1334 NI 3U¥ SNOJLVA313 ONY SHid30 (peujoiujow 4110201) YB LVANV 3S Wald ONIHSI4 91168Nd [peviojuiow A\o10p9y) ~9NO1 0581 YILVMNVING (pevjoyujow 4jj010p9) BALWMANVINE Fd YIGWIL 49 1 Date(s) 1896 1898 1898- 1904 1902 1906 1907 1910 1913 1916 1933 1935 1936- 1939 1939— 1946 Table 37 Gray's Harbor Gray's Harbor, Washington Construction and Rehabilitation History The Rivers and Harbor Act authorized construction of a single jetty extending 18,000 ft seaward from the southerly peninsula at the mouth of Gray's Harbor. Construction of the south jetty commenced. Point Chehalis shoreline accreted and moved westerly a maximum of 3,000 ft just south of the jetty. The south jetty was completed to a height of +8 ft mllw and a total length of 13,734 ft, of which 11,950 ft extended seaward of the high waterline. During construction, the adjacent channel undermined the structure causing material overruns which depleted project funds before the design length of 18,000 ft could be obtained. A groin was constructed 11,952 ft from the high waterline. Construction of the north jetty to a height of mean sea level (+5 ft mllw) and a length of 9,000 ft was authorized. Construction of the north jetty commenced. The north jetty was completed to a length of 10,000 ft. An extension of 7,000 ft was authorized. The north jetty was completed to a midtide elevation of +5 ft mllw with a total length of 16,000 ft. The north jetty was restored to +8 ft mllw. By 1933, the south jetty had subsided to +6 ft mllw at the shoreward end and -10 ft mllw at the outer end. Reconstruction of the north and south jetties was authorized. A 12,656-ft section of the south jetty was reconstructed to an elevation of +20 ft. The reconstruction blocked the supply of sand to Point Chehalis, causing serious erosion. A 32-ft section of the jetty was removed to try to restore the supply of sand, but it was quickly blocked by accretion south of the jetty. The outer 900 ft of the south jetty was destroyed, and crest rock was displaced over the next 2,656 ft. (Continued) 150 Table 37 (Concluded) Construction and Rehabilitation History Date(s) 1940 1941- 1942 1942- 1949 1946- 1951 1949- 1953 1950- 1952 1951- 1953 1953- 1962 1961 1966 1969- 1971 Is 1976 1985 The inner 7,300 ft of the north jetty, shoreward of the high waterline, had sanded in. The north jetty was reconstructed to +20 ft mllw for 7,760 ft seaward of the high water shoreline, then +30 ft mllw for an additional 528 ft. The 412 ft seaward of the reconstructed section was at mllw and was not restored. The outer 325 ft of the north jetty was leveled, and 400 ft of the reconstructed section was lowered 4 ft below grade. An additional 900 ft of south jetty was destroyed, and the next 4,100 ft subsided 10-20 ft below grade. An additional 325 ft of north jetty was leveled, and a 1,000-ft section was lowered to 10 ft below grade. A hydraulic model study was conducted by WES. An additional 900 ft of south jetty was destroyed, and the next 4,500 ft subsided to 18-20 ft below grade. An additional 1,700 ft of south jetty subsided to depths of approxi- mate mllw, leaving less than 5,000 ft of the jetty near grade. Only 2,000 ft of the reconstructed portion of the north jetty remained at or near grade. The south jetty (4,000 ft) was reconstructed to +8 ft mllw. A hydraulic model study of Gray's Harbor was conducted. A 6,000-ft length of the north jetty was rehabilitated. The harbor and cross sections of the jetties are illustrated in Fig- ure 70. The outer 1,200 ft of the north jetty and 5,600 ft of the south jetty are submerged. There is some deterioration of the south jetty, with severe scour along the channel side toe of the jetty. The overtopping conditions on the north jetty in the area of the 1975 rehabilitation work threatens a roadway on the land side of the jetty. 151 uoy3utTysemM ‘uoquey s,Aeuy jo 4ynofkeT a41S “oO, aun3Ty ods! 0000) Ooo O00S 1338 dv0s oe ceeenat notion? 7 Sayin wm ayv38 d¥W ALINIDIA dII0,b/ FIOM OO! NOLL TIGL 74 AII0 Of TINNVHD ALID AVE ALF 996 30IM 009 fi. TINNVHD &ve ATH v nn 7 RK i>) ant = Nod M09 JO ALINIDIA NI : age , = 1008-056 QL GINS TINNYHO yg es A, = a. NOILWLIVIEPHIS SS ALLF SL6l ° YATES, 9 ™ atl nN = ab 009 worntoy 3 (sz ono NYAH3MOS: SNOILI3S WoIdAL PEETIC) JIM ,OS! TINNVHD (I€61 Ul Yidep 2] oF pebpeld. PEE [+ I) RES aR A ee | Me a ee) Ee] | 5 oat] : ALSENNS Cl “930,81 '30/M,00/ INO7,00SI "JOIM,OOS 01,002 > TINNYHD A 2A19 NYINOOH NISUE ONINSNL PEERS 1 O LINY WeF8 eae 9NO7,0001 ‘70/M,0S9 MSVE ONINYAL NOLLVSIAUN JO OVIH 152 Date(s) 1962 1967 1985 Table 38 Kingston Harbor Kingston, Washington Construction and Rehabilitation History The project was adopted. The breakwater was constructed. The breakwater is rubble mound with a gravel or quarry spall core, top elevation of +19 ft mllw, crest width of 7.5 ft, length of 1,040 ft, and side slopes of 1:1.5. The shoreward end of the breakwater was tied into a vertical sheet-pile retaining wall of an existing ferry dock approach fill. Wave reflec- tion off the retaining wall increased the wave action at the landward end of the breakwater. The landward 50 ft of the breakwater was therefore built to an elevation of +20 ft mllw. The harbor and cross section of the breakwater are illustrated in Figure 71. There are no reports of needed repairs or rehabilitation. 153 (616, PastAez) uoysuTYyseM 0001 00s ool 1333 NI 31V9S S31V¥M MO) 83MO1 NV3W 40 3NVId 3Hi 1 93443438 3¥¥ GNY 1334 NI 38¥ SNOILVA313 ONY SHid30 ON3SNI za MOL LYOdS ‘qoquey uoysZuTy 4e 4ynoAheT 94TS “12 eun3Ty or ° or 4334 NI 31VS NOILD39S YALVMAVIYG TVIIdAL w 4208.8 SS¥1D JDVIINS GNNOYD ONILSIXI ET Toy) STivds AvavNO ¥O 13AV8D 20IS OY¥MV3S EEA 2301S NISVE (pPawubjuiow Ajjos0paj) 2NOT,OF01 YIULVMNVINE SONIGNVT Addis (SQNOWQ3-NOLSONIM) (peupyujow 4020)) 3x10 54 1 Date(s) 1945 1947- 1948 1950 1954 1960 1971 1985 Table 39 Lake Crockett Whidbey Island, Washington Construction and Rehabilitation History The project was adopted. The project was constructed, including 28,000 tons of rock for a breakwater, and the basin and entrance channel were dredged. The breakwater was repaired. The breakwater was repaired with 700 tons of rock. The breakwater was restored to design height and lengthened 175 ft, and an easterly spur was added for protection against southeasterly storms. The repair work required 871 tons of rock for the breakwater plus 505 tons of quarry spalls. An additional 606 tons of quarry rock were added to a revetment. The entrance channel was widened to 200 ft to reduce the frequency of dredging. The harbor and cross section of the breakwater are illustrated in Figure 72. No repairs or rehabilitation to the structure have been recorded since 1960. 155 OLYMPIC * PENINSULA VICINITY MAP Scale in miles 10 5 0 1020 [nee STATE FERRY DOGK UPSTREAM LIMIT. E FLOODGATE OF FEDERAL PROJECT. a —BRAMAGE WHIDBEY ISLAND ¢g << - WHARF (ABANDONED) BASIN 18 FT. OEEP. Berry Wa] Weald tanec LM Aa FORT CASEY STATE PARK ___+14 TOP OF BREAKWATER KEYSTONE HARBOR ENTRANCE | Ls SECTION ‘A-A" OF BREAKWATER Scale in feet Nina 2030 4050 SCALE IN FEET 7 oe ee Figure 72. Site layout at Lake Crockett, Washington (revised 1979) 156 Date(s) Table 40 Neah Bay Neah Bay, Washington Construction and Rehabilitation History 1938 1941- 1944 1948 1949 1959 1980 1985 The breakwater was authorized. The breakwater was constructed, and it required 1,195,280 tons of stone, with an average armor stone weight of 4 tons. In October the breakwater was damaged by a storm. In November the worst storm in 27 years caused extensive damage to the breakwater. The storm caused 10 breaks ranging in length from 32 to 175 ft and descending to about elevation +4 ft mllw. The storm caused serious damage to the coast guard dock, damaged 7 homes, and destroyed a bulkhead. Waves passing between Waada Island and Baada Point reached heights of 20 ft. The breakwater was repaired by salvaging and replacing 2,500 tons of displaced stone and placing an additional 15,500 tons with an average weight of 4 tons. The rock quantities are from the design estimate. The breakwater was repaired with 7,000 tons of armor rock with an average weight of 6 tons. The westerly 4,200 ft of the breakwater was rehabilitated. The design specified a crest elevation of +18 ft mllw including a 5-ft- thick single layer armor rock protective cap. The crest width was 25 ft, and side slopes were 1:1.5. The harbor and cross section of the breakwater are illustrated in Figure 73. The breakwater appears in good condition at this time. 157 STRAIT OF JUAN DE Dy Koitlah Point NEAH BAY FISH 0. PIER st Fler 140 cale in feet 1050 10 20 30 40 50 a — SCALE IN FEET 1009 2000 a PACIFIC OCEAN wf, ROAD BETWEEN NEAH BAY + \ ANDU,S.HIGHWAY N2101 Figure 73. Site layout at Neah Bay, Washington (revised 1979) 158 Table 41 Olympia Harbor Olympia, Washington Date(s) Construction and Rehabilitation History 1974 A preliminary investigation for the small-boat basin was requested by the Port of Olympia. 1980 The final project report on East Bay Marina was completed. 1983 Construction of the 656-ft-long floating concrete breakwater was completed in East Bay Marina. 1985 The harbor and cross section of the breakwater are illustrated in Figure 74. No repairs or rehabilitation are necessary. 159 \ \ SUN x \ NY CHANNEL 500 FT. ENS WIDE, 30 FT. DEEP-->---.... o* cere : * LN \ a Cee q ENTRAWCE CHANNEL ( 150 FT. WIDE, ISFT DEEP IMMOIGHZ NT AN CHANNEL SOO FT. WIDE, 30 FY. DEEP Oredging has been Celerred rege ass ss rrson. f 500 TO 960 FT. WIDE, 30 FT. OEEP-~ if UPSTREAM LIMIT OF FEDERAL PROJECT ~ Kg oururia VIL(A HARBOR MEST VICINITY MAP Scale in miles Oo FLOATING CONCRETE ne BREAKWATER . (ELECTRICAL CONDUIT lg “he ary) POST-TENSIONING STRAND SYSTEM: TYP ee SCALE IN FEET {Ea osx swrs900 : pee Ox8 FILLET FLOATING CONCRETE BREAKWATER PILE ANCHOR TYPICAL SECTION TYPICAL DETAIL NOT TO SCALE NOT TO SCALE Figure 74. Site layout of Olympia Harbor, Washington (revised 1982) 160 Date(s) 1945 1946 1958 1959 1985 Table 42 Port Angeles Harbor and Ediz Hook Port Angeles, Washington Construction and Rehabilitation History The project was authorized for expansion of the small-boat harbor and construction of the breakwaters. The breakwater was constructed of earth embankment core held in place by a two-step pile and plank bulkhead with the sides and slopes pro- tected by rock. The top width of the earth embankment was about 100 ft; and the length of the breakwater was 750 ft. Plans for expansion of the boat basin and construction of the break- waters were adopted. Port Angeles Harbor mooring basin was completed, including a 1,026-ft main breakwater and a 145-ft entrance breakwater, both of rock rein- forced treated wood pile construction for a 5-ft design wave. The main breakwater was constructed to a top elevation of +17 ft mllw and left a 100-ft entrance gap between the main breakwater and an exist- ing 750-ft long breakwater, with the gap protected by the entrance breakwater. The main breakwater was originally designed for rubble- mound construction, but it was modified to rock reinforced treated wood pile at the request of local interests to expedite the project. The harbor and cross section of the breakwater are illustrated in Figure 75. There are no records of needed repairs or rehabilitation. 161 JUAN DE FUCA — ROCK B > € BLANKET LIGHTHOUSE Kpierheod Line U.S. Coast Guard _ Station 35am enh - BEACH FEED FILL, EL VARIES FROM VARIES. (Sarat STA 40+00 STA VARIES +15 TO +17 MLLW F £O Fi __ +15 TO +17 MLLW Nu TEL +12 BEACH FEEO FILL, 50+00 — MN QUANTITY VARIES | eee : Sc SS S - ea CE: SS ANGLE OF ( aS \ s ANGLE OF 2 BS os REPOSE z . REPOSE EXCAVATE TO / EL +2 MLLW 7 \.\ TYPICAL_REVETMENT AND BEACH FEED FILL SECTION SCALE IN FEET REPOSE 3 oO oY 10 ———— TYPICAL ROCK BLANKET AND BEACH FEED FILL SECTION Koy BREAKWATER SCALE IN FEET : es g s i) ~~Port Commission LIMIT OF DREDGING Terminal 30' DEEP (Deauthorized Ferry Landing 5 August 1977) ( (Port Angeles Victoria B.C.) \ Rayonier, Inc. LerHeag Line Dock = a : LE ture EL+i70 Al E/.10.0 e — Treated wood plonks Closs“A'rock _ , El varies Treated wood piles — MLLW. E/.0.0 Quarry spal/is— Existing ground line— / sak w / \ “Quarry spalls TEPER Gravel ond/or quarry spalls \ es Uae eh J Class B rock har Onor eS v VICINITY MAP SCALE LES SECTION A-A - — EL + 16.0 BOAT BASIN i HARBOR SIDE SIDE | Treated wood planks Class ‘A’ rock El varies ed FF, Loma Grove! and/or quarry spalls. Treated wood plas MLLWELOO Class ‘C" rock —~ Existing ground line “Quarry spolls Class B rock SCALE IN FEET 2000 3000 4000 SECTION B-B Scale in feet () 20 30 Figure 75. Site layout of Port Angeles, and Ediz Hook, Washington (revised 1979) 162 Date(s) 1958 1962 1964 1985 Table 43 Port Townsend Small-Boat Basin Port Townsend, Washington Construction and Rehabilitation History Improvements to the small-boat basin were authorized. The final design recommendations were submitted. Construction of 1,946 ft of the rubble-mound breakwater and dredging of the adjacent basin were completed. The breakwater was constructed to +18 ft mllw for a 5-ft design wave. An access channel was cut through the existing breakwater to -12 ft mllw with a width of 50 ft at the bottom of the gap and side slopes of 1:2. The harbor and cross section of the breakwater are illustrated in Figure 76. There are no records of needed repairs or rehabilitation. 163 (6161 PestAsr) uojZuTyseM ‘puasUMO], yI0g JO 4noKkeT 94TS *9/ auNn3Ty oF oe r) Oz 199) ul 3/095 V-V NOILD3S WOIdAL visepsesg | — buippeq /2s019 220)105 Sa, / wwe. ‘punaie)Buyte/eZ sejomyouig NISV8 LVO8 T1IVWS 3745384 ONY +— 6 i 2, Lh | | Sunes svoe x ex i ee Ze. (peulojuiow Ajjosapay) TINNVHI Date(s) Table 44 Quillayute River Boat Basin La Push, Washington Construction and Rehabilitation History 1929 1931 1932 1934 1939 1941 1950 1954 1955 1956 1957 1959 1960 1961 1962 Congress authorized a jetty and a dike at the river mouth. The spit was maintained by local interests. Jetty, dike, and bank revetment were constructed using 737 cu yd of rock for the dike and 17,226 tons of rock for the jetty. Storms damaged the jetty and the dike. Both were repaired and ex- tended using 15,411 tons of rock. Settling was detected on the dike and jetty. Maintenance of the jetty and dike required 4,900 tons of rock. Repairs were made to the jetty and dike. The Corps recommended to Congress a deeper and longer channel and a raised jetty. Congress authorized a channel, a boat basin, and a raised jetty (to +15 ft mllw). The spit was breached in November. Port Angeles repaired the breach in the spit. The Corps dredged the channel, placing the dredge deposits on the spit, and assumed respon- Sibility for repairing the spit. The spit was breached again in December, and the Corps performed emergency repairs. The boat basin was dredged, and a channel was dredged from the basin to Smith Slough. Dredged materials were deposited on the spit. The jetty was raised with 39,800 tons of rock, and emergency repairs were made on the dike with 2,000 cu yd of rock. The channel seaward of the basin was dredged. The jetty was raised and extended landward using 7,938 tons of rock. The jetty was repaired with 3,480 tons of rock. The timber training wall was built for the boat basin to help prevent shoaling, and the basin was dredged. In November, 135 ft of the recently completed training wall was undercut by the river and failed. (Continued) 165 Date(s) 1963 1968 1972 1973 1974 1978- ug) 1979 1980 1985 Table 44 (Concluded) Construction and Rehabilitation History The timber training wall was rebuilt, and rock was placed at the foot of the training wall. Logs were cabled and buried in the spit. Gabions were placed along the south basin wall to prevent gravel washing over from the spit. Dredged material was much finer than previously. A rock blanket covering the spit was recommended with a life expectancy of 10 years. The rock blanket was installed using 50,000 tons of rock. The rock blanket on the spit was replaced. The estimate of a 10-year life for the blanket was not met. The spit was breached during a storm in December 1979. The south jetty was repaired. Emergency repairs were made on the spit. The harbor and cross sections of the jetty are illustrated in Fig- ure 77. The outer 250 ft of jetty was lowered to a point that the jetty was awash at high tides. Repair or rehabilitation is not anticipated in the near future. 166 (2861 PastTAed) uozsuTYysem ‘uaATy aqnkeTTInNd ye ynokeT aqts “2, oun3Tg 0001 00s 0001 4333 NI 31V0S > 1018N AVMHOIH'SN GN 39S O01 LON 3-3 NOILD3S 420% AHYND WIN THO"B 3015 Nv320 3W2S 01 10N Q-G NOILD3S oF 3 350034 40 379N¥ FOlS M3AId 30'S Nv320 3WS OL 10n 3-3 NOILD3S UvAwox3X¥N G6 13 2 5 FI = z 1904 HONEY A SS¥D NoILIGNOD qW4 ™208 AWD MON T1UKOV8 NOILIONOD 77 NouLIONOD 4 Jos W3AIH ? 30S Nv320 31v2S 01 LOW @-8 NOILD3S 4208 AuyyND —~NOILIONOD MON ThuOKE Tis 4308 Laiy ig39_NoUvAvoKa HY G+ H-H NOILD3S ee 1 S591) 00H 6 ddd! i “rey ET uSou wonue 7.'5572 4908 ALL soe 01S w3Ale 30s N30 ao DNS BH 37¥9S 01 1ON 9-9 NOILD3S ea al v-v NOILDaS SAG Ce Sk y208 ive ee = JvsUNS ONNOHD ONILSIKI — DI TEGEE) 3 O_LIW/T BE : eae WVJdlsdN N oer ee : 30S Y3AIH 301s NV390 SH4YA 34075 TW Is OL LON SNOILOSS ALLAP TWOIdAL 167 Date(s) 1954 1958 1961 1985 Table 45 Shilshole Bay Seattle, Washington Construction and Rehabilitation History The project was adopted for the boat basin and a 4,200-ft breakwater. The breakwater was completed. The breakwater was constructed of dredged sand-fill between mounds of Class "C" rock which form the breakwater toes. Mounds were 7 ft above the ground line but not higher than -10 ft mllw to avoid disturbances during low tide periods during construction. A 3-ft-thick layer of gravel was placed over the dredged fill and used as a filter between the rock toes and the fill. Class "B" rock was placed over the Class "C" rock to a 1:1.5 finished slope, with a minimum thickness of 5 ft where it is exposed to wave action and 3 ft where it is covered by Class "A" rock. Class "A" armor rock weighing 1,500-3,000 lb was placed on the slopes to -10 ft mllw elevation. The breakwater crest was at +20 ft mllw; the breakwater was designed to withstand a 5-ft, 5-sec wave. A 240-ft-long rubble-mound extension was added to the existing breakwater. The harbor and cross sections of the breakwater are illustrated in Figure 78. There are no reports of needed repairs or rehabilitation. 168 (6161 oose 0002 0081 0001 1334 NI 31v9S 005 pestAds) uoySsuTysem ‘Aeg aToUusTTUusS Jo 4noAeT 94TS (i2efosy oueg dys vojbuIYsm Bx07 ) SHIOT NIGNFLLIHD W WY 0901 (COOs, 0 C001 428) Ul D9S TVNVD dIHS NOLONIHSYM 3yV7 IHVT mM "LAD ory ee VI8 DN IAD 4og vowp NOLONINS “BIHDBS $0 1404 q peplaosd poouring S 330 ,O! NISva- = 430g ss Ia Ta he [bec CRT: NOISNILXI ,Ob2 "gL aun3Tt gy ) ~ ee uovjobiacy DO5N 10) NEN \ aN aN eee) INOT 002% YILVUMHVIYG ——- NOISN3LX3 JO NOILOSS IWOIdAL 2 es ya 94 sree 0 ao praiy "oral o hee fontan Je ae E ooo 3} us ales v-V NOILO3SS 2200s purasd Buys, pooyn/mg Burgi. eps pubrz- | My p2b2010 & (DLS) mine” Y3LVMNVINE JO NOILOIS 04 124019: 69 1 Date(s) 1892 1893 1900 1908 1938 1941 1945- 1946 1962 1963 1973 Table 46 Swinomish Channel Washington Construction and Rehabilitation History The project was adopted. The north jetty was constructed. The jetty was extended west from "Hole in the Wall" to Saratoga Passage. The jetty was of rubble- mound and timber pile construction over brush mattresses with crest elevation of +8 ft mllw, crest width of 4 ft, and side slopes of 1:1. The timber piles were placed in a row along both sides of the crest with 6-ft center-to-center spacing. The north jetty was reconstructed. The south jetty, extending west from Goat Island into Saratoga Pass- age, was constructed of pile and rock. The jetty extended 3,650 ft to deep water with a crest elevation of +8 ft mllw. A 300-ft gap for fish and boat passage was left between Goat Island and the jetty. The Goat-McGlinn Island jetty was constructed of rubble mound over a 30-in.-thick layer of brush mattresses. The crest elevation was +15 ft mllw with a 3-ft crest width and 1:1 side slopes. The Goat-McGlinn Island jetty was reconstructed to a +15 ft mllw crest elevation with 5-ft crest width and 1:1 side slopes using 33,185 cu yd of stone. It was then repaired in September with 197 cu yd of stone and in October with 210 cu yd of stone. The Goat-McGlinn jetty was rehabilitated with side slopes changed from 1:1 to 1:1.5, using 38,812 tons of rock. Navigation hazards at "Hole in the Wall" were removed. The Goat-McGlinn jetty was repaired using 16,408 tons of rock. Major rehabilitation and extension of south jetty were effected. The jetty had originally extended to deep water, but sediment deposits had enlarged the shallow shelf, and the jetty head was 1,000 ft from deep water at this time. The crest elevation of the jetty was +1 to +2 ft mllw, except for the outer 800 ft which was below mllw. The jetty was reconstructed of quarry spall and rock, 4,100 ft long, with crest elevation of +8 ft mllw, crest width of 8.5 ft, and side slopes of 1:1.5. Treated timber piles were placed on 200-ft centers on the Skagit Bay side to mark the structure, which would be submerged at high tide. Two gaps, each 50 ft wide, were left for fish passage, along with the existing 300-ft gap for fish and boat passage. A 3-pile dolphin was placed at each end of the jetty. Construction required 54,310 tons of rock. (Continued ) 170 Table 46 (Concluded) Date(s) Construction and Rehabilitation Histor 1985 The jetty layout and cross sections of the jetties are illustrated in Figure 79. The north jetty shows obvious deterioration, and the south jetty and Goat-McGlinn Island jetty appear in good condition. Ee NORTHERLY LIMIT OF FEDERAL PROJECT PADILLA March Pt. BAY \ea Cone Sl ~Skag O° 8S f 'Slanp -oo PECEPTION S >) CF \ 2 9, S) f \ “+e } _ WHIDBEY ISLAND {SOUTHERLY LIMIT OF } FEDERAL PROJECT xX vt 7) ie) & + sight distance improvement avo. ae Etre SS El +2 3 Foscines of brush mattresses channel widenin. 2 kv Kf Scale in feet SECTION A-A —1 met =0.0 pred = Vert, "Cex 30 | 10.0 Scale in feet ° 1020 Horiz, “ax—— 10. El -l2" e TYPICAL SECTION THROUGH 2 rows of piles, 6'c.c CHANNEL WIDENING Brush mattresses SCALE IN FEET (0000 15000 SECTION 8-B Scole in feet (J 10 Figure 79. Site layout of Swinomish Channel, Washington (revised 1979) ilifal Date(s) 1913 1915- 1916 1925 1937 1961 1985 Table 47 Waterway Connecting Port Townsend and Oak Bay Port Townsend, Washington Construction and Rehabilitation History The project was adopted. The east jetty, west jetty, and bulkheads were constructed. The jetties were constructed of brush, pile, and stone with a 4-ft-wide crest and 1:1 side slopes. The west jetty was 550 ft long; the east jetty was 600 ft long. The bulkheads were constructed of brush, pile, and timber. The jetties and bulkheads were rehabilitated with 1,153 tons of rock. The rehabilitation work was performed on the east jetty by placing 393 tons of rock. The west jetty was rehabilitated with 12,173 tons of jetty rock toa crest elevation of +14 ft mllw, a crest width of 4 ft, and side slopes of 1:1.5. The jetty layout and cross sections are illustrated in Figure 80. There is no record of repairs or rehabilitation since 1961. The west jetty is in good condition. The east jetty shows some deterioration but is stable and functional. 172 PORT TOWNSEND CHANNEL 75 FEET. OE, 15 FEET DEEP VICINITY MAP Scale in Miles _ Ne i Ee OAK / BAY {UPSTREAM LIMIT OF FEDERAL PROJECT 2d ari fh | bolts ~ | 2 courses fascines ¢ 2rows of piling for min. section of 20 4 courses fascines for mox section of 40. ~ ea 4 3 Y of 30! \Hories from z = yorumatotere oS (Ut ae 15 forl2? 1148" max 8! Has Ground fine TYPICAL SECTION WEST JETTY Scale in feet 5 2 Ss 10 15 Figure 80. Site layout of waterway connecting Port Townsend and Oak Bay, Washington (revised 1979) 173 Date(s) 1929 19855 1939 1948 1950 11953 1954 1958 1959 1973 1978 1979 Table 48 Westhaven Cove Small-Boat Basin West Port, Washington Construction and Rehabilitation History The Port of Gray's Harbor dredged a small-boat basin in Westhaven Cove. Reconstruction of the south jetty at Gray's Harbor blocked sand transport to Point Chehalis causing severe erosion. The project was adopted. West Port Marina breakwaters A and B were constructed of treated wood pilings with a top elevation of +17 ft mllw and a minimum penetration of 5 ft. Rock reinforcing was placed along the breakwater to an ele- vation of +4 ft mllw, with the crest extending 4 ft on each side. Creosoted 3- by 12-in. planking was placed along each side of the breakwater between elevations +4.5 and -0.5 ft mllw. Breakwater A was reinforced with rock and planks. Extension to the marina was recommended. Additional planks were installed on breakwater A. The Port of Gray's Harbor closed the opening between breakwaters A and B to lessen the effect of westerly swells entering the basin. The Corps constructed breakwater C with a design similar to that used in breakwaters A and B (1950), except that every twelfth pile was driven to a minimum penetration of 15 ft. A seven-pile dolphin was constructed at the harbor entrance end of the breakwater with a minimum penetration of 10 ft for each of the piles. Gaps of up to 4 in. between the pilings of breakwater C allowed an unacceptable level of wave energy to enter the basin. The breakwater Was therefore modified by adding 3- by 12-in. planking between the top of the rock pile at +4.0 ft mllw and the bottom of the 10- by 12-in. wales at elevation +14.5 ft mllw. The closure breakwater was constructed. Further extensions to the marina were recommended. Extensions to the present design were completed. An existing 350-ft breakwater attached to breakwater C was removed, an 865-ft extension to breakwater C was constructed, and a 200-ft stub breakwater was constructed. The extension to breakwater C was constructed of timber pile with a rock toe, with a 200-ft rubble-mound section to reduce wave reflection back to a commercial pier. Crest elevation was +17 ft mllw. (Continued) 174 Table 48 (Concluded) Date(s) Construction and Rehabilitation History 1983 A detached breakwater at the southerly end of the basin was damaged by a storm. Some rock was displaced, and the decayed planking was damaged. 1984 The damaged breakwater was repaired. 1985 The basin layout and cross sections of the breakwaters are illus- trated in Figure 81. Breakwaters are in reasonably good repair and appear to be functioning properly. AS (6461 PastAe1) uoysuTYseM ‘uUTSeg JeOg-TTeUIS BAO) UaAeYASEM Jo ynokeT 9431S “|g euNSTy 30W9S 01 LON SNOILO3S Y3LVMHV3SYE IWOIldAL 3-3 NOILO3S Q-d NOILO3S WO! LVL aN3d WIM ,02_-—-NOILVUL3N3d ¥90¥ 8. SS¥T n svt z "hob ssvia_-J ZU SHIBVA 12 Tor 0°01 13 svivds Avaynd - W908 .8. SS¥I0— SHE CEE ; NO0U .¥. SS¥T9 W904 .V. SSD O°LI+ 7; Y3LVM MO Y3M07 NV3W JO SNV Id BHL OL O34H359Y 34 ONV 1334 NI 3Y¥ SNOILVA373 ONY SH1d30 8-8 NOILO3S IN17 GWNOHD OWLS 1x3 Wisva ONT NENL WO0¥ YONYY. Othe 19 301S OUvMVaS $3714 00M O31v3aL 01 1938 dVWNOILVDON Sa1vM OHNOW 378an¥ a & O'Lt+ 13 BaLVANV2N8 aN ERIC ELLIBS SITVH3HO ANIOd ALL30 Hino Loaroud yuo o NVIIO WHIVI 4oeuvH savan V-V_NOILOaS AVE HLYON 39V44NS OWNOYD 2 IA _ OWLS 1x3 dVAW ALINID 4208 HOMHY g you wn 30/5 OMyMV3S avaynd OVl+ 3 S314 vl 380d34 40 319H¥: 9-9 NOILO3S oz 73 STivdS Avavnd ¥O 20vdHNS GNNOHD TIAVED 40 L3NNVTE ONL 1SIX3 7 HS"I MO AI 3d! HS"] NO Al 3407S W904 .8. SSV¥19 4334 WI 3199S NV 1d 1092 34Nso19 V USLVMNY3N8 OoL Y3.LVMXV 348 016 V YSLVMXV 388 4d NIOUS no \ \ AY N1089 yngs QNIOYD 9 NIOYD 8 NIOXT —y yIOy9 3 NIOUS 176 Date(s) 1916 1954 1957 1957- 1958 1958 1985 Table 49 Willapa River and Harbor and Naselle River Willapa Bay, Washington Construction and Rehabilitation History Willapa River and Harbor project adopted. The Willapa River and Harbor project was modified to include the mooring basin and the breakwater at Nahcotta. The breakwater design at Nahcotta was modified to conform to requests by local interests. The Nahcotta breakwater was constructed. The 1,500-ft-long break- water was of rubble-mound construction, with the crest at elevation +15 ft mllw, width of 6 ft, and side slopes of 1:1.5. The landward end tied into an existing oystershell mound at the landward end of Nahcotta Wharf. A 2-ft-thick layer of quarry spalls was extended 15 ft from the seaward toe on the channel side of the breakwater to protect against toe scour. The breakwater required 43,700 tons of rock to complete. The Nahcotta mooring basin and channels were dredged. The harbor layout and breakwater cross sections are illustrated in Figure 82. There are no reports of needed repairs or rehabilitation for the breakwater. 177 (6161 Ppestaes) uoqdSUTYSeM *JOATY STTOSEN pue s0quey pue waaTy edeTTTM Jo qnofeT ats 9NO1 OOSI+ 330 ,Ol NISV@ ONIYOOW Y3iLN3) Ave d330 ,92 3d0iM ,OOS TANNVHS vs Gs g aun3t 4 178 ie Pa cna aN ew Kt one Hin Ee a elie a Tea ey i sh if a a ail en) ieee i Th j Ts ie (Re yet Fine 1 RG ea Np a { Hy } ei Gd Pere