HomeMy WebLinkAboutLincoln Beach - Coastal Processes and Flood Hazard Impact Analysis 2001.07.31I
COASTAL Ggorocrc SgauTCgS, INC.
July 31 ,2001
tMs. Judy Surber
Port Townsend Building and Community Development Dept
Waterman & Katz Building
Port Townsend, WA
Re: Coastal Processes and Flood Hazard lmpact Analysis for Lincoln Beach Protective
Berm Proposal at John & Sylvia Thies, Springstead, Martin, and Lynn Families
Lincoln Beach Rd. Area, Port Townsend, WA
This brief report is intended for documentation of my assessment of coastal geologic conditions
and changes in the flood hazards due to the proposal at the shoreline area at Lincoln Beach. The
project area is defined as starting at the Springstead property on the SE end and including the
Lawrence Street right of way (RO\A/), the Martin property, the Thies property, and the Lynn
property at the NW end, for a total length of approximately 375 ft. Specifically, this report
addresses the need for protection of the homes from coastal erosion and coastalflooding.
The proposal, based on analysis performed in the winter of 2000-2001 but not fully documented
priortothis report, isto construct a protective berm of gravel landward of the mean higherhigh
water (MHHV\| line. Details of the proposal are included in the Shoreline Permit Application and
the SEPA checklist.
Goastal Processes
The net shore-drift (long-term littoral drift) along the proposal area shore is to the NW (Keuler,
1988). However, this net shore-drift cell has been significantly altered by urban development in
the City of Port Townsend. The natural net shore-drift system in the area brought littoral sediment
from the eroding bluffs at Fort Townsend State Park and the Glenn Cove area past the shore of
Port Townsend, Point Hudson, and on towards Point Wilson (Keuler, 1988; Figure 1). The earliest
available maps of Port Townsend show a portion of the Lincoln Beach area as a spit fronting a
large wetland. Point Hudson and the entire low shore that includes Lincoln Beach appears to
have been an accretion landform under natural conditions, that is, prior to the development of the
Port Townsend waterfront.
The amount of net shore-drift sediment reaching the Lincoln Beach area has been substantially
diminished by the extensive modifications to the shore in the city. The Port Townsend Boat
Haven Marina is one example of a development that runs across the tidelands and almost
completely blocks net shore-drift. The very large breakwater and channel at the marina act as a
near total barrier to net shore-drift. The fill at lndian Point also acts to decrease whatever small
amount of northward net shore-drift may have been in this part of the system. The extensive
revetments along the downtown area of Port Townsend preclude the input of sediment to the
coastal drift system and may still be trapping sediment in the voids between the ubiquitous rocks.
The marina at Point Hudson also is also a major interruption of natural net shore-drift.
There is likely some amount of seasonal shore drift from the north (originating from bluff retreat)
along Lincoln Beach, but the net littoral drift is driven by southerly quadrant windstorms and that
drive the net shore-drift system in most areas of the Puget Sound and Northwest Straits.
Therefore, urban development up-drift (south of) Lincoln Beach area appears to have
substantially impacted the Lincoln beach area such that the beach is no longer an actively
accreting landform, and is likely erosional overthe long-term now. This explains why the upper
beach has been incrementally receding in the late 1980's and more recently. The upper beach
and berm/dune experienced significant retreat in the December 15, 2000 NW windstorm, further
7ot Wilson Ave., Bellingham, WA gBzzS-ZS4B G6o) 642-tB4S Fax: 67t.6694 coastalgeo@home.com
Mr. Jack Thies; Lincoln Beach
July 31, 2001
Page 2 of 3 Coesret GEoLoGIC Snnvtcns, twc,
decreasing the volume of the berm/dune buffer that acts to protect the houses from coastal
erosion and damage, and the low elevation area from coastal flooding.
The protective berm proposal is intended to add more resistant material (gravel) to the berm and
dune area and to address the apparent shortage of net shore-drift sediment in the system by
augmenting the property beaches in the backshore area. This addition of gravel and placement of
sand would enhance the beaches ability to absorb storm wave energy through the berm
reshaping itself to have an active storm berm at an elevation slightly higher than the still water
level. Dunegrass, once reestablished, would also help anchor sand and gravel and should reduce
coastal erosion.
Coastaland Upland Source Flooding Analysis
An analysis of coastal and upland source flooding hazards was carried out at the request of the
City of Port Townsend Public Works Department. The question that is addressed in this analysis
is:
Witt the proposed protective berm/dune negativety impact the surrounding low elevation
area in terms of upland flooding?
One source of floodwatertolhe lowelevation area could bethe lowelevation area around Lincoln
Beach Rd. could occur as a result of substantial precipitation coupled with overland flow from a
significant area west and south of the study area.
The second source of floodwater entering the two-street "basin" could be coastal flooding. One of
the conclusions of the analysis done prior to the completion of the proposed design is that the
higher elevation finished berm/dune would significantly decrease the risk of coastal flooding due
to wave overtopping. This is simply because a higher elevation berm/dune will act as a barrierto
coastal water during times with an elevated still water level (due to a storm surge). The proposal
would have a finished berm/dune elevation of +15.0 ft MLLW. The current elevation of the
berm/dune in the project area is greater than +13.0 ft MLLW except at the SE end of the
Lawrence St. ROW, where minimum elevations are +12.65 ft MLLW. Therefore, without the
proposed work, the ROW would be the source of coastal floodwater entering the immediate area
if and when the waters of Admiralty lnlet rise to a sufficient level to allow wave runnup to exceed
+12.65 ft MLLW.
The low elevation area landward of berm/dune was surveyed on July 27,2001 (see attached
topographic map). Most of the effort was concentrated on the street ROWs and the low elevation
ditch and wetland areas along the Lawrence St. ROW, Conditions in the "basin" (volumes under
hypothetical flood conditions) including the lower elevation portions of Lincoln St. and Lawrence
St, ROW areas were determined using survey data with AutoCAD 2000 Land Development
Desktop. The volume in the basin up to elevation +12.65 ft MLLW (elevation of the berm/dune top
under existing conditions) is 2,282 cy (61 ,614 cubic ft or 1 .42 acre-ft). The volume of the two-
street area basin up to elevation +15.0 ft MLLW (elevation to the berm/dune top under proposed
conditions) is 3,844 cy (103,788 cubic ft or 2.38 acre-ft). lt is important to note that these 2
computed volumes are significantly lower than the total basin volumes since the recent survey
work did not include much of the fenced yard areas. The total volumes including the rest of the
yard areas in the low elevation area may be on the order of twice the above stated volumes.
The "basin" landward of the berm represents room for a very significant amount of floodwater.
Witnesses to the 1982 flooding (including Jack Thies) have stated that there was no more than
approximately 8-10 inches of standing water on the streets in the project area during flooding.
This would be equivalent to approximately elevation +10 ft MLLW, which is 2.65 ft below the
existing berm elevation.
Mr. lack Thies; Lincoln Beach
July 31, 2001
Page 3 of 3 CoesrII GgoLOcTC SERVICES, INC,
Floor elevations were surveyed in the project area. The waterfront houses in the project area
have floor elevations of between approximately +12.9 ft MLLW and +14.0 ft MLLW (the Lynn floor
elevation was not measured). The Curnow house, which is located landward of Lincoln Beach
Road, has a surveyed floor elevation of approximately +11.2f|MLLW. The elevation of Lincoln
Beach Rd. nearthe Curnow house ip +9.0 to +10.0 ft MLLW, and lower Lawrence St. is at +8.2to
+8.5 ft MLLW. Therefore, there would have to be 3 ft of standing water on the low elevation
portions of the streets to reach the floor elevations of the lowest house (Curnow). Additionally, the
Curnow floor elevation is 1.4 ft below the existing minimum berm/dune elevation, meaning that
the proposed raising of the berm/dune would not change the occurrence of coastal flooding at the
Curnow house.
Street drainage upgrades have been completed at the portions of Lincoln St. that is west and up-
slope of the project area. City staff and local residents agree that these upgrades have decreased
the amount of runoff that reaches the Lincoln Beach Rd. area. Although the last few winters have
not been particularly stormy, no flooding has occurred in the area since these upgrade have take
place.
ln conclusion, given the street drainage improvements, the fact that the Lawrence St. ROW
berm/dune is already at minimum elevation +12.65 ft MLLW, and that the worst flooding on
record was at a much lower elevation than the existing berm/dune, it is highly unlikely that that
proposal will increase the hazard posed by flooding from upland sources in the area in any way. lt
is also concluded that the proposal will decrease the hazard of coastal flooding and coastal
erosion significantly, which should decrease the overall hazard in the houses in the project area,
and should not effect the surrounding houses.
Please call if there are any questions at (360) 647-1845. Thank you.
References
Keuler, R.F., 1988, Map showing coastal erosion, sediment supply, and longshore transport in the
Port Townsend 30- by 60-minute quadrangle, Puget Sound region, Washington: U.S.
Geological Survey Miscellaneous lnvestigations Map l-1198-E, scale 1:100,000.
Coastal Geologic Services lnc.
Jim Johannessen, MS
Principal Geologist
ATTACHMENTS:
Net shore-drift on the Port Townsend area (from: Keuler, 1988)
Topographic map of the Lincoln Beach berm project area.
Mr.JilkThis; LirwlnWt
luly 31, 2001
attachment COASTAL GEOLOGIC SER INC.
MHHW +E.45'LynnHousePropertylineScale: 1" = 50'Vertical Datum: MLLW (NOS)Date: Surveyed: 4ll7 /AIDrawn: 612510lNOTE: All property lines areapproximate (Based on TAASSurvey Associates 1983 and MLSanstrom 1976 survevs)Adrnirclty lnletAProperty line(old Meonder line)SpringsteodHouseFloor Ehv. -+13,4 MLLWTBMlThiesHouseFloor Bcv. =+l,Lo MLLWFence/Rood edgeMortlnHouseFloor Elcv. =+12.9 MLLWPropertylines12'TBMS+12.26MLLW+12.73MLLWPropertylinesCurnowHouseFloor Elsv. =+11.2 MLLWConcreteWollWolkwoyTopogrophic SurveyClients: Jack Thies, LymyMartr4 Springstead, andCity of Port Townsend2LtncolnBeach Rd.Port Townsend, WA 98368TBM2Elev.=+9.46MLLW701 Wilson AveBellingham, W498225(w) (360) 647-1845(fax) (360) 671-6654coastalgeo@home.com\n Beoch-l