HomeMy WebLinkAboutOriginal Townsite Block 4 - Eelgrass Restoration Planting Plan Northwest Maritime Center 2002.03.08Eelgrass Restoration Planting Plan
Northwest Maritime Center (NWMC) Thomas Oil Dock
Community-Based Habitat Restoration
Battelle Marine Sciences Laboratory (MSL) Project #42546
Submitted to the Northwest Maritime Center March 8,2002
Eelgrass (Zostera marinal.) restoration at the Northwest Maritime Center Thomas Oil Dock is
proposed to occur during the summer of 2003. According to recent dive surveys, eelSrass beds
iurrentty exist at the proposed site approximat ely 12 tt (3 .66 m) to the northeast and 4 tt (L .22 m)
to the southeast from the existing dock structure (37 ft [1 1.3 m] and 4 ft U.22ml, respectively
from the proposed doc$ (Diefenderfer ?001). Eelgass will be planted at the site in an area
coveringipproximately 4300 t( (400 m2), essentially connecting the two existing beds. The
proposed ptunting includes a portion of the area in the footprint of the dock slated for removal.
This effort will take three to five divers three to five days to complete.
Figure I shows the existing eelgrass beds on both sides of the dock and the area proposed for
planting. The area outlined in purple shows the area between the beds at the appropriate depth
and slope for planting, while the area outlined in red is the proposed area for planting in a
configuration ionducive to both planting and monitoring (i.e., square and measurable distances
from the dock).
NW M ariti lne.'Gente'r Thomas,O il
a:
Area
planting'drea''
r-estqration
Edgrass
,.8
Existing Doc-k
0,Meters,
N
"w -
S
Figure 1. Proposed eelgtass restoration area at the Thomas Oil Dock, F'urt Townsend, WA.
Within the proposed 4300 tt @OO m21 planting area some areas will not be planted due to the
high proportion of shell hash present in the substrate. According to dive surveys in the fall of
2}Ol,the highest concentrations of shell hash were located beneath the existing dock structure,
Battelle Marine Sciences Laboratory, March 8, 2002, page I of 3
however, observations of shell were noted throughout most of the planting area (Diefenderfer
2001). In addition, planting will occur only in areas without existing eelgrass. Visible
organisms (e.g., clams and macroalgae) will also be avoided during the planting process. While
the exact areas for planting will be determined by divers during a pre-planting site assessment, a
preliminary schematic of the planting plan is presented in Figure 2. Given the 2-year span
between initial surveys on which maps were based, and the expected date of planting, eelgrass
beds are expected to have shifted somewhat.
NW Maritirne Genter Thomas Oil
:i Restoration Area
Proposed area
Prirrrary area
area
Proposed dool
Existing Eelgnss
Existipg Dook
I 0 0 Meters
N-#E
Figure 2. Preliminary schematic of eelgrass planting areas.
The primary planting area to the east of ^the dock(474 tAV3 m211 and the primary planting area
to the west of ttre do-ck (2443 f( 1227 m211 have fewer instances of coarse substrate and shell
hash and will be planted at a density of 16 shootslmz 14 shoots per planting unit [PU] and 4
PU/m2) where feisible. Fonseca and others (1998) recommended plantingZ. marina on 0.5 m
centerj, which is equivalentto 4PlJltr2. In the Pacific Northwest, Thom and others^(2002)have
reported successful eelgrass restoration using planting densities rangrng from 12 to 24 shoots/m'.
Planting the two areas on either side of the dock at this density will require approximately 4250
shoots. The remaining area (1410 ft2 tt:t m21;, located under a portion of the proposed dock,
will be planted as feasible, avoiding pilings and areas of coarse substrate and/or deep shell hash.
The goal is to plant approximately one third of this area at the same density discussed above,
resulting in a shoot requirement of 750 shoots.
Donor material for the planting will come from eelgtass cultured at the Battelle Marine Sciences
Laboratory (MSL). This culture is funded in part through the Washington State Department of
Transportation, which has agreed to donate 5000 shoots to this project. The general planting
procedure will involve removing eelgrass from the MSL stockpile tank with intact rhizomes,
assembling planting units, and placing the units in transplant plots as outlined by Thom and
others (2001).
Battelle Marine Sciences Laboratory, March 8, 2002, page 2 of 3
Once eelgtass donor material is collected, it will be held in cool seawater and only removed for
short periods to construct the planting units and to place the units on slates for the divers. Each
unit will consist of four eelgrass shoots attached at their rhizome to a 6 in (15 cm) wire turf
staple using a paper-wrapped wire twist tie. Thirty units will be attached to each 12-in x 15-in
(3d-cm x fb-cmf flexiglas slate using rubber surgical tubing and ffansported by the divers to the
transplant plots. The slates will be placed in a cooler and floated over the subtidal planting
location. Meter-square quadrats and tapes will be temporarily placed within the study area to
determine density Jpacing. Divers will plant each unit by carefully inserting a trowel to a depth
of 4-6in, angling the fiowel to create an opening in the sediment, and inserting the staple
perpendicular to the sediment surface (rhizome paratlel to sediment surface). The sediment will
itr"n U. pushed back to its original grade over the rhizomes and tamped down lightly by hand to
secure the units.
References
Diefenderfer, H.L. 2001. Thomas Oil Dock Community-Based Habitat Restoration Project
Field Survey Letter Report and Maps: Eelgfass Density, Macroalgae Cover, Bathymetry, and
Substrate. Submitted by Battelle Marine Sciences Laboratory, Sequim, WA, to Northwest
Maritime Center, PortTownsend, WA. November 14,2001.
Fonseca, M.S., W.J. Kenworthy, and G.W. Thayer. 1998. Guidelines for the Conservation and
Restoration of Seagrasses in the United States and Adjacent Waters. U.S. Department of
Commerce, National Oceanic and Atmospheric Adminisfiation.
Thom, R.M., G.D. Williams, A.B. Borde, J.A. Southard, S.L. Blanton, and J. Cordell. 2002.
Habitat Mitigation Monitoring at the Clinton Ferry Terminal, Whidbey Island. Annual Report
Number 5. Prepared for the Washington State Department of Transportation. Battelle, Pacific
Northwest Division, Richland, Washington.
Battelle Marine Sciences Laboratory, March 8, 2002,page3 of 3
11t C1171900++++Eelgrass Restoration AreawEIffiffiFr"qffiJPotential area for restorationProposed area for plantingExisting EelgrassProposed dockExisting Dock1720W2A Meters1 17195011720fi'1172100++_Thomas Oil DockPort Townsend, Washi ngton1290012850280012750e++Data Sources:Battelle Marine Sciences Lab: Shore to 10 m pastthe outer extent of the existing dock or the outerlimit of eelgrass (wtrichever farther); Sep 10-1 1 , 1 8Marine Survela and Assessments: Outer extent ofexisting dock to 20 m beyond existing dock; Sep 18State+++N*+850+9001 171950117200011720fiNorth, NAD 1983'12700
*s* *@1171950&+Aa&*s172000&+"20 Meters&&s_Thomas Oil DockPort Townsend, Washi ngton'l'|'720fi1172100+s12900128501280027506*#&ass+&&++Macroalgae Percent Covero NoneE Low (1-25Yolffi Moderate (26-65%)+ * High (>65%) +Eelgrass Restoration AreawEIffiffiffiPotential area for restorationProposed area for plantingExisting EelgrassProposed dockExisting Dock,k,#&Data Sources:Battelle Marine Sciences Lab: Shore to 10 m pastthe outer extent of the existing dock or the outerlimit of eelgrass (whicheverfarther); Sep 1G11, 18Marine Surveys and Assessments: Outer extent ofexisting dock to 20 m beyond existing dock; Sep 18Stde Plane,NAD 1983**o+s6N$&&++1 1718s01 1719001171950117200011720501172'lOO12700
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EXSTING PROPOSED
Nortnweif Miittiiie cCntei ooit<
in-weter
structure
o\er-water
slructure
in-water
structure
o\,er-water
structure
piles dock piles dock grated
gangway
seasonal
floats
TOTAL
PROPOSED
Land to Odinary High
Water Mark (O.H.W.)4 creosote 350lsf
I
4isteel
I
330 sf 330 sf
O.H.W. to seaward side
of Eelgnss beds 80 creosote 38'l l I
isf
1
steelito:
i
2465 sf sf
seaward side of
Eelgrass beds to deep
water
0
:
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18 steel 1440 sf 1 sf
TOTAL 84 creosote 4161 jsf
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JO steel iI4235sf 1460isf sf
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ETECIRICAL
ED DAVID
J 0mego Engineering
724 Ericksen Ave. Suite 201
Boinbridge lslond, WA 98110
855-4600 tel
855-4601 lox
SIRUCTURAL
Dovid Pierce
PND
811 first Ave. Suite 260
Seottle WA 98104
(206) 624-1J87 ter
(206) 624-1JBB fox
dpierce@pndseo.com
Revisions Date
lssue Doie Morch 2002
Drown BcChecked CC
MIH Pro.iect No. 01J0
Cod File
(206)
(206)
edovid@jomegoengineering.com
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ED DAVID
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724 Ericksen Ave. Suite 201
Boinbridge lslond, WA 98'110
(206) 855-4600 rer
(206) 855-4601 fox
edovid@jomegoengineering.com
STRUCiUML
Dovid Plerce
PNO8ll First Ave. Suite 260
Seottle lt/A 98104
(206) 624-1387 tel
(206) 624-1J88 fox
dpierceOpndseo.com
Revisions Date
lssue Dote Morch 2002Drown 8c
Checked
MIH Project No. 01J0
Cod File
ENLARGED PLAN
& SECTION
41 .3