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Home My WebLink AboutOriginal Townsite Block 4 - Thomas Oil Eelgrass Survey 1993.12.00a h Y?('i I! THOMAS OIL EELGRASS SURVEY 1993 AQunnc EruvrnouMrNTA[ Srnvlcrs 2730.C WASHTNCTON ST., P.O. BOX 14S, PORT TOWNSEND, WA 98368; 206 . 385 . 7976 n t) THOIT,IAS OIL EEI,GRASS SURVEY 1993 Prepared For: The VERTEX Corporation Prepared By: Dale B. Bonar, Ph.D. Aquatic Environmental Services 2730 Washington Street, Suite C Port Townsend, WA 98368 December, 1993 J ) EXECUTIVE SUMMARY A benthic survey of the littoral zone in the vicinity of the Thomas Oil Site in Port Townsend, Washington was conducted to characterize the eelgrass beds and the algal and macrofaunal communities. Ten transects, established between the Point Hudson Jetty and the City Dock, were surveyed by SCUBA teams. A continuous eelgrass bed is present between Point Hudson Jetty and City Dock. The seaward margin of the this zone is demarcated at a depth of approxim ately -20' MLLW by the dropoff to deeper water. The shoreward margin is quite variable and is affected by the presence of the Jetty, the Thomas Oil Dock and City Dock. The major impacts of the Thomas Oil and City Docks are shading, while the impact of the Jetty appears to be reduced flushing. The existing eelgrass appears healthy and exists primarily in an even distribution that was judged to be dense or very dense. At the shoreward and seaward margins the distribution becomes patchy. A diverse and luxuriant algal community exists in the area, coinciding mainly with the eelgrass zone. Below a depth of approximately -2' MLLW, the algal community covers 75- 100% ofthe bottom area. Seaperch, sole and sculpin were commonly seen during the transect surveys. A variety of other fish species were noted to be present in redtrced numbers. A healthy, though modest, invertebrate fauna was observed in the area. Representative crabs, shrimp, bivalves, starfish and anemones were commonly seen along the transects. These species represent an assemblage that would be expected to occur in areas that are not substantially impacted by pollution. Large debris that was encountered during the survey inoluded many submerged pilings and discarded tires. THOMAS OIL EELGRASS SURVEY INTRODUCTION The VERTEX Corporation has proposed construction of the Kur Ort, a hotel and health spa, on a two-acre site currently occupied by Thomas Oil. The property is located just west of the Point Hudson Marina and east of the City Dock in the Civic District of downtown Port Townsend, Washington. The proposed project includes construction of a public aquarium facility and reconstruction of the existing Thomas Oil dock that extends approximately 200 feet into Port Townsend Bay. A voluntary Environmental Impact Statement (EIS) is being prepared for the project as part of the SEPA process. As part of that EIS, this report provides an environmental assessment of the near-shore benthic environment and examines, in particular, the eelgrass beds that exist on the site. The field survey was designed to quantify the eelgrass, submerged aquatic vegetation and macrofaunal component of the nearshore habitat (to a depth of approximately 50 feet) between the southwestern breakwater of the Point Hudson Marina and the City Dock. Shoreline Description: The shoreline at the Thomas Oil site is composed of coarse sand and fine gravels between the mean higher high water line and a tide level of approximately +3.0 feet above mean lower low water (MLLW). Below the +3.0 feet MLLW level the sediments grade to finer sands. The beach slope is relatively consistent over the 225 foot distance between the extreme high water level (+10.3 feet MLLW) at the bulkhead to the furthest extent of the dock (-9 feet MLLW). The concrete launch ramp of the Port Townsend Salmon Club ocoupies part of the foreshore just past the western boundary of the Thomas Oil property line. Beyond the launch ramp and reaching most of the remaining distance to the City Dock, a rock outcrop in front of Pope Marine Park extends into the intertidal to a tide level of approximately +6.0 feet MLLW. The shoreline is exposed to wave action from flre southeast but is partially protected by the Point Hudson rubble mound jetty. This lateral protection appears to minimize seasonal movements of sand and gravel on the upper shore. METHODS Transect Layout: A series of transects extending outward from the shoreline was established between the Point Hudson Jetty and the City Dock (see Figure 1). A linear baseline oriented at 50o N was established along the approximate mean higher high water line and ten, 300 foot, marked transect lines were established perpendicular to this baseline, extending seaward at an angle 1400 N. Distances between transects ranged from 75' to 1.25', with those on the Thomas Oil property being closest together. 1 II, Wlren SrReerlPore Mmne FanlroTttotns Olu SlreNonrnw@ r*Hsecr #2C'oots(JAAUATIC ENVIRONMENTAL SERVICESPonr routNsEND, WlsnNerou SCUBA Survey: A two-diver team surveyed lO-foot wide swaths of bottom along the length of each transect, beginning at the shoreward edge and continuing to a water depth of approximately 50 feet. Observations and collected data (see below) were noted on underwater plastic writing slates. At the conclusion of each transect survey, data and additional notes or observations were transferred to field forms. Exact times and water depths for each observation were recorded so that actual depths (elevations) in relation to MLLW could later be calculated from tide tables. Eelqrass Evaluation: At each 25-foot mark along the transect divers noted the distribution and density of any visible eelgrass in the following semi-quantitative manner. Distribution was noted as Even (< I m separation), Patchy (l-3 m separation) or Scattered (> 3 rn separation). Density was noted as Very Dense, Dense, Moderate, Low or Sparse. The field determination of density was made by subjective visual evaluation of apparent density Quantification of the visual determinations of density was later performed by analyzing all of the eelgrass turions within triplicate,0.l sq. meter quadrats taken in areas previously scored at very dense, dense and moderate densities. At each site, a quadrat was placed on the bottom and all turions within the quadrat were counted, cut off with scissors at their base, transferred to labeled plastic bags and returned to the surface for later laboratory analysis. In the laboratory, the contents of each bag was blotted on paper towels, weighed and the individual blades counted and measured for length. Results of these analyses were used to produce estimates of eelgrass biomass and density/distribution diagrams for the area. Density/distribution diagrams were created with AutoCAD, which was also used to determine percent coverage. Flora and Faunal Analysis: Qualitative observations were made along the entire length of each transect by noting all species of algae, invertebrates and fish seen in the l0-foot wide swath. Unidentified species were returned to the surface for identification. When appropriate, soms estimation was made of numbers or distribution of species of interest, such as for the many shrimp that were seen in several areas but because of their motility could not be quantified by quadrat analysis. Quantitative analysis of benthic organisms was performed by counting all organisms within a 1.0 sq. meter quadrat placed on each transect line at S0-foot intervals. When possible, mobile organisms within the quadrat area were counted or estimated. Sediment Characterization : At each 1.0 square meter quadrat site, sediment characteristics were noted by estimating the percentages of different grades of mud, sand, gravel or rocks in the quadrat area. 3 { Other Observptions: Additional observations such as evidence of scouring or stagnation, or the presence of pilings, miscellaneous debris, freshwater springs, artifacts, etc., were noted. 4 RESULTS BOTTOM CHARACTERISTICS Sediment characteristics were noted along each of the transects. From a coarse sand/gravel mixture in the lower intertidal the bottom grades to a muddy sand or sandy mud,particularly to the west of the Thomas Oil Dock. An artificial reef is present in approximately 40' of water to the south of the Dock. Throughout the area there are substantial numbers of old creosote pilings and tires lying on the bottom. EELGRASS Transect data on eelgrass characteristics, shown in Table l, were used to produce the graphic representation of eelgrass distribution and density shown in Figure 2. The edge of the eelgrass bed between transect lines and the lines of demarcation between a.rsas of differing density were interpolated, and may in actuality vary slightly from those shown. Distribution: Eelgrass is abundant throughout much of the area between the Point Hudson Jetty and City Dock to a depth of approximately -20 feet MLLW. This seaward edge of the eelgrass bed occurs at the point where the bottom contour steepens and depth increases rapidly. The depth profile of each transect can be seen in Figure l. The nearshore limit of eelgrass distribution is much more variable, ranging from a tide level of -i .2' near the Jetty to +1.8 ' in front of Pope Marine Park. The major discontinuity in the eelgrass bed occurs under, and adjacent to, the Thomas Oil Dock. Throughout most of the eelgrass zone the distribution of individual turions is relatively even. Along both the nearshore and seaward margins, however, distribution becomes patchy and clumps of eelgrass turions are more widely separated. Occasional patchiness seen within the main zone of eelgrass was correlated to small gravelly or rocky areas that were usually covered with attached algae. To the east of transect I the eelgrass bed naffows toward the tip of the Point Hudson Jetty. To the west of transect 10, the eelgrass zone abruptly ends near City Dock. Densitv: An initial, qualitative evaluation of eelgrass density was performed during the transect surveys by assigning subjective judgements of density ranging from low to very dense. This qualitative evaluation, shown graphically in Figure 2, indicated that the majority of the eelgrass zone between the Point Hudson Jetty and the City dock consists of dense eelgrass (60yo), followed by very dense areas (260/o), moderately dense areas (l2Yo), and a small low density area (2o/o). These percentages were determined by calculating the areas delineated in Figure 2. 5 # nssSNVNn,002#$gI,00 il,09AAlSh{eQ ffiox f]::i:tt..!tgsh,lgc A]gavu3eor{ssh{3GE.1UsSmtHfi AUSAffilIiI3r0s lr0 svNoHIOooovHVd 3N$HVh{ 3d0dN '930 09 = SNI]SSVEn4Eoo={33UXS HSIVAA Quantitative determination of eelgrass densities was performed by replicate analysis of 0.1 sq. meter quadrats taken in areas previously scored as very dense, dense and moderate densities. Table 2 presents the turion number, blade number and darnp weight data from these analyses, adjusted to values per square meter. Raw and processed data for these analyses can be found in the Appendix A. TABLE 2. Quantification of Subjective Density Assignments Verv Dense Dense Moderate Turions/sq. M. avg: 177 143 83 range: 130-220 130-160 70-100 Blades/sq. M. Wt (gms/sq. M. avg avg: range: I 170 1720-1260 1330 980-1820 6s0 410-800 I 150 599-1917 t8t2 l16I-2645 t744 I4t8-2195range: Examination of the data in Table 2 reveals the difficulty in subjective field estimations of eelgrass density. While the quantitative difference between moderate and higher densities is clear, there is no significant difference between the dense and very dense delineations that were used in the field. This is due to the wide range of values seen in replicate samples. Additional replicate sampling, or quantification of the epifauna and epiflora present on the eelgrass, would probably reduce this variability. For this reason the graphic depiction shown in Figure 2 was retained. MACROALGAE The quadrat survey sheets included in Appendix B detail the species recorded along each transect. A rich. variety of algal species was observed at this site, particularly in the eelgrass zones. Below a depth of approximately -2'MLLW, 75-90o/o of the eelgrass zone was covered with various algal species, especially Alaria, Agarum. Gigartina. Heteroph]rllum. Laminaria and Ulva. Additional species that were commonly encountered included Costaria. Desma{estia. Gracilaria. Iridaea, Porphyra, Nereocystis and Pterogophera. Many other unidentified species of red algae, as well as diatoms films, were present as epiphytes on the eelgrass blades. There did not appear to be any significant degeneration of algae, probably due to the extended mild weather in the late summer and early fall. 8 MACROFAUNA Qualitative examination of fish and macroinvertebrates during the transect surveys revealed the area between Point Hudson Jetty and City Dock to be sparsely populat.a ','ittt uvariety of species. Most of the macrofauna was observed within the eelgras*on.. Thequadrat survey sheets included in the Appendix detail the species recordid along each transect. The original intent of quantifying invertebrates within the 1.0 square meter quadrats was made very difficult by the extensive algal and eelgrass cover that was encountered overmuch of the site. Consequently, a qualitative presenoe/absence approach was taken, andnotations made as to abundance where possible. Seaperch, sole, and sculpins were seen along most transects. Large sole were particularly common between the Point Hudson Jetty and the Thomas Oil Dock, both in the ..igtus roo. and in deeper water. Other species noted occasionally included gunnels, pipefish, kelp greenlings and poachers. A single ronquil was also seen. The most commonly seen crustaceans were coon-stripe shrimp (PanOalus AaneD ,largenumbers of which were presenet within the eelgrass zone in almost all transects. Helmet crabs (Telmessus chiragonus), hermit crabs (PASUS spp.) and a variety of cancroid crabs, including Cancer magister, Cancer productus, and other small Cancer speoies were also present in most transects. Kelp and decorator crabs (Pup!ti4 sp.other majids) were commonin the algal beds. At several sites with muddy sand bottoms, burrows of ghost or mud shrimp (Callianass4 or Upogebia) were sesn. Horse clams (Tresus capax) and chitons (Crvtptochiton stetld, and Mopalia lignosa) were the most commonly seen molluscs in the area, however several pink scallops (Chla$ys rubidd and the nudibranchs Dirona and Phidiana were ssen within several transects. None of these species were present in substantial numbers, however. Tho large sunstar, Pycnopodia helianthoides, was the most commonly seen echinoderm in the area and individuals were seen in almost every transect. Other starfish, including Evasterius troschelii and Pisaster brevisoinus were present in several transects, as were the sea cucumbers Cucumaria miniata, Leptosynapta clarki and Paraqtichopus californicus. All of the annelids seen during the transect surveys were sedentary, infaunal species including members of the terebellid, maldanid, cirratulid, sabellid and serpulid families. Large masses of spionid tubes were seen at several sites, although it was not ascertained if they were inhabited. Spionids are common in the region, however, and it is likely these tube masses represent active colonies. Other invertebrates which were present, but seen in only a few transects include several tunicate and coelenterate species. 9 ) DISCUSSION The subtidal area between Point Hudson Jetty and the City Dock contains a healthy eelgrass bed that appears to be relatively productive. The luxuriant algal growth that is present in the eelgrass zone attests to this productivity, and suggests there rnay be significant nutrient loading occurring in the area. Any number of factors could contribute nutrients at the site, including the Point Hudson Marina, the stormwater outfall at the end of Monroe Street adjacent to the boat ramp, or undocumented outfalls west of the site. The proximity of deeper water relatively close to shore and the lack of backwater areas containing lighter bottom debris indicates most of the area is well flushed. This is another characteristics that has been noted to contribute to good produotivity in many Puget Sound sites. The distribution of eelgrass is clearly demarcated to seaward by the dropoff to deeper water that occurs at approximately -20' MLLW. On the shoreward side of the eelgrass zone, the most obvions limitation to eelgrass growth is the presence of the Thomas Oil Dock. The effects of shading structures on littoral zone marine vegetatiou have been well documented (Pentilla and Doty, 1990), and eelgrass distribution at this site corresponds to that seen at other similar sites; e.g., no eelgrass grows beneath or immediately adjacent to shading structures. Native eelgrass (Zostera marina) typically occurs up to tidal levels of approximately +1.0 feet MLLW, as it does to the west of the Thomas Oil Dock. The reason eelgrass is not present in the intertidai area east of the Dock may be a result of reduced flushing due to the presense of the Point Hudson Jetty, whieh creatos a flow barrier . As shown in Figure 2, the densest areas of eelgrass are near the end of the Thomas Oil Dock and extending toward the tip of the Point Hudson Jetty. This is the area that attained the highest current velocities we noted during the 4 days of diving along the transects at this site. The fish and invertebrate populations seen during this survey suggest it is a relatively healthy, productive area. Although the numbers of species and individuals seen in the qualitative ovaluation was modest, they represent an assemblage that would be expected to occur in areas that are not substantially impacted by pollution. REFERENCES Pentilla, Dan and Dan Doty. 1990. Results of 1989 eelgrass shading studies in Puget Sound. Washington Department of Fisheries Progress Report. (Draft), 41 pp. 10 APPENDD( A Quantitative Analysis of Eel Grass Density 11 THOMAS OIL EELGMSS DATAQuantiative Analysis$ample CodeDateDensity#Turions/O.1 sq.M.# BladesE.l sq.M,Wt. (gmsllO.1 sq.M.Avg. Blad LengthBladesffurionAvg. Wt.ffurionPer Square Meter# Tur{ons# BladesWt. (gms)M3c10/9/93Moderate8.0(Averaqe: 8.3374,4OAverage: 65.00191.68Average: 115.05M3b10/9/93Moderate7.0041.0059.90M3a10t9t93Moderate10.0080.0093.57D2c1019/93Dense16.00AveraEe: 14.33182.00219.48Averaqe: 174.3!D2b10/9/93Dense13.00119.00Averaqe: 133.00141.76D2a10/9/93Dense14.0098.00161.81VD-1c10/9/93V. Dense13.00Averaqe: 17"67112.00Average: 117"O02M.48Average: 181"25VD-b11t1t93V. Dense18"00126"00116^O711t1t93V. Dense22.00113.00163.2022.73Average: 18.249.257.7023.96Average: 13.9618.495.868.5613.498.009.3619.55Average: 17.4511.389.13.72Average: 12.0615.899.1510,9016.907.0011.5621.Q8Averaqe: 18.518.62Average: 6.9220.34Average: 11-4016.037.OO6.4518.415.147.42740916.8410650.001I118202194117.6141618.1171112026M.811160.72111170.001181 ) ) APPENDX B Benthic Survey Transect Data 13 THOMAS OIL EELGRASS SURVEY Date: Sept.26, 1993 TRANSECT#Bearing: gLength (ft) 225 Transect Area TotalArea (sq. (sq.M.) M.): Shore ReferencrAdiacentto Pt. Hudson Jettv Distance from Baseline: Depth in Feet (adj. to MLLW) Sediment Type Mud Sandy Mud Muddy Sand Sand-fine Sand-medium Sand-coarse Gravel-fine Gravel-medium Gravel-coarse Rocks-small Rocks-medium Rocks-Large Woody Debris ShellDebris Bacterial Mat (Beggiatoa| Algae Agarum Alaria Conaline (Crustose) Costaria Desmarestia Gigartina Gracilaria Heterophyllum lridaea Laminaria Nereocystis Porphyra Prionitis Pterogophera Ulva Other Reds Other Browns Diatom Films Eelgrass (Zostera) Fish Seapereh Sole/flounder Kelp Greenlings Pipefish/Tubesnouts Gunnels Poacher Ronquil(?) Sculpins Shiner Seaperch 1_0 t Eelgrass Band Totals No. per Area100150200225254 -1.5 -7.5 -47.5 3o/o 1 Oo/o 3o/o 7Oolo 909a 3o/o 300/o 3Ao/o )OYo ++ + + ++ + ++ + +++ + ++ ++++ +++ + M ry M ffi ++ + ++ ++ Crustacea Cancer magister Cancer productus Telmessus Other Cancer Crabs Decorator Crabs Kelp Crabs Hermit Crab Coon-Stripe Shrimp (Pandalus) Bunowing Shrimp (Mud/Ghost) Bamacles Mollusca Tresus Nucella Lacuna Limpets Cryptochiton Mopalia Scallops Ceratostoma Dirona Pododesmus Phidiana Echinodermata Pycnopodia Evasterius Lepasterias Pisaster brevispinus Cucumaria Parastichopus Leptosynapta Annelida Spionid worm tubee Terebellids Maldanids Cinatulids Sabellids Serpulids Goelenterates Halcampa (bunowing) Epiactus Metridium Anthopleura Urticina Tunlcates Halocynthia Cnemidocarpa Boltenia (Hairy; Other Tunicates Sponges Halocynthia + ++ ++ +++ + +ffi Fmmffiffire + + + + ++ + M ffi + re++w tw + + ++ + ffiW ++ + ffi ffi wffi ++ ffi @ @ @ @ww NOTES: a. Below -10 feet about 90o/o of the bottom was covered with macroalgae THOMAS OIL EELGRASS SURVEY Date: Sept.29, 1993 TRANSECT#2 Bearino: 140 Lenoth (ft) 250 Shore Referenq Between JetW and Thomas Oil Dock Distance from Baseline: Transect Area (sq. M.l TotalArea (sq. M.): Depth in Feet (adJ. to MLLW) Sediment Type Mud Sandy Mud Muddy Sand $and-fine Sand-medium Sand-coarse Gravel-fine Gravel-medium Gravel-coarse Rocks-small Rocks-medium Rocks-Large Woody Debris ShellDebris Bac'terial Mat (Beggiatoa) Algae Agarum Alaria Conaline (Crustose) Costaria Desmarestia Gigartina Gracilaria Heterophyllum lridaea Laminaria Nereocystis Porphyra Prionitis Pterogophera Ulva Other Reds Other Browns Diatom Films Eelgrass (Zostera) Fish Seaperch Sole/flounder Kelp Greenlings Pipefish/Tubesnouts Gunnels Poacher Ronquil(?) Sculpins Shiner Seaperch io. M.)Eelgrass Band Totals No. per Area101150200225250 -4.2 -7.2 -16 .43.5 9Oo/o 950/o 95Yo 9506 5o/o do/a 5o/o io/o 5o/o +++ + ++ +++++ + ++++ ++ ++++ ++++ +++ +++ ++++ ++ + Grustacea Cancer magister Cancer productus Telmessus Other Cancer Crabs Decorator Crabs Kelp Crabs Hermit Crab Coon-Stripe Shrimp (Pandalus) Bunowing Shrimp (Mud/Ghost) Bamacles Mollusca Tresus Nucella Lacuna Limpets Cryptochiton Mopalia Scallops Ceratostoma Dirona Pododesmus Phidiana Echinodermata Pycnopodia Evasterius Lepasterias Pisaster brevispinus Cucumaria Parastichopus Leptosynapta Annellda Spionid worm tubes Terebellids Maldanids Cinatulids Sabellids Serpulids Coelenterates Halcampa (bunowing) Epiactus Metridium Anthopleura Urticina Tunicates Halocynthia Cnemidocarpa Bolienia (Hairy) Other Tunicates Sponges Halocynthia + +++ ++ + +++ + + +@ +w M +# ffi EM +@ + + f,M @ wffi t,' I ri: r,i.;: i ;i : :tr i.i, i it;;jirtiili;i1r1 NOTES: a. Dense algal cover (100o/o) to approx -14' depth, then rapidly thins as slope steepens. THOMAS OIL EELGMSS SURVEY date: Sept.29, 1993 TRANSECT#3 Bearino: 140 Lenoth (ft) 25O Shore Referencr Between Pt. Hudson Jetty and Thomas Oil Dock Transect Area (sq. M.l TotalArea (sq. M.): -) Distance from Baseline: Depth in Feet (adJ. to MLLW) Sediment Type Mud Sandy Mud Muddy Sand Sand-fine Sand-medium Sand-coarse Gravel-fine Gravel-medium Gravel-coarse Rocks-small Rocks-medium Rocks-Large Woody Debris ShellDebris Bac{erial Mat (Beggiatoa) Algae Agarum Alaria Conaline (Crustose) Costaria Desmarestia Gigartina Gracilaria Heterophyllum lridaea Laminaria Nereocystis Porphyra Prionitis Pterogophera Ulva Other Reds Other Browns Diatom Films Eelgrass (Zostera) Fish Seaperch Sole/flounder Kelp Greenlings Pipefishffubesnouts Gunnels Poacher Ronquil(?) Sculpins Shiner Seaperch QUADRATS (1.0 Sq. M.)Eelgrass Band Totals No. per Area1001502001 22sl 250 -o -€-19.8M -40.8 ffireffi ffiffi 507o 75o/o 9070 ffiffigs%re 25o/o 12o/o 4o/o ry2o/o 25o/o 13o/o 4o/o W2o/o2o/o ffi17offi ffi NE@ESmffi +re + +ffi + ffi +M + +ffi +ffire +re +ro +++w + ffi + Gffirc ffi +++ru + ++ffi+ffi ffi ++ffi ++m 1 +EEGWI++++ryEryM +ffi 1 ffi ffi +m+Iffi++ ) Crustacea Cancer magister Cancer producfius Telmessus Other Cancer Crabs Decorator Crabs Kelp Crabs Hermit Crab Coon-Stripe Shrimp (Pandalus) Bunowing Shrimp (Mud/Ghost) Bamacles Mollusca Tresus Nucella Lacuna Limpets Cryptochiton Mopalia Scallops Ceratostoma Dirona Pododesmus Phidiana Echinodermata Pycnopodia Evasterius Lepasterias Pisaster brevispinus Cucumaria Parastichopus Leptosynapta Annellda Spionid worm tubes Terebellids Maldanids Cinatulids Sabellids Serpulids Coelenterates Halcampa (bunowing) Epiactus Metridium Anthopleura Urticina Tunicates Halocynthia Cnemidocarpa Boltenia (Hairy) Other Tunicates Sponges NOTES: a. algae dense to -13', then thin b. No eelgrass under docks c. many large flounder ++ + + +++++ ++ ffi rtru[ ++ + ++ ++ + ffi @++ + + + ++ ++ ++ + ++ ++ THOMAS OIL EELGMSS SURVEY Date: Sept.29, 1993 TMNSECT#4 Shore Referenct East of Thomas OilDock Bearino: 14O Lenoth (ft) 200 Ttansect Area (sq. M.l'TotalArea (sq. M.): Distance from Baseline: Depth in Feet (adj. to MLLW SedimentType Mud Sandy Mud Muddy Sand Sand-fine Sand-medlum Sand-coarse GraVel-fine Gravel-medium Gravel-coarse Rocks-small Rocks-medium Rocks-Large Woody Debris ShellDebris Bac'terial Mat (Beggiatoa) Algae Agarum Alaria Conaline (Crustose) Costaria Desmarestia Gigartina Gracilaria Heterophyllum lridaea Laminaria Nereocystis Porphyra Prionitis Pterogophera Ulva Other Reds Other Browns Diatom Films Eelgrase (Zostera) Fish Seaperch Sole/flounder Kelp Greenlings Pipefish/Tubesnouts Gunnets Poacher Ronquil(?) Sculpins Shiner Seaperch Eelgrass Band Totals No. per Area'lOO 150 200 225 250 -7.6 41.4 -32.6 42.7 lOOo/o lOOo/o 95Vo 2.5o/o 2.50/o W+W+W W + ++ + + +f + +++ + + +++ ++++ + + + m m +m ++ + ++++ Crustacea Cancer magister Cancer produc,tus Telmessus Other Cancer Crabs Decorator Crabs Kelp Crabs Hermit Crab Coon-Stripe Shrimp (Pandalus) Bunowing Shrimp (Mud/Ghost) Bamacles Mollusca Tresus Nucella Lacuna Limpets Cryptochiton Mopalia Scallops Ceratostoma Dirona Pododesmus Phidiana Echinodermata Pycnopodia Evasterius Lepasterias Pisaster brevispinus Cucumaria Parastichopus Leptosynapta Annelida Spionid worm tubes Terebellids Maldanids Cinatulids Sabellids Serpulids Coelenterates Halcampa (bunowing) Epiactus Metridium Anthopleura Urticina Tunicates Halocynthia Cnemidocarpa Boltenia (Hairy) Other Tunicates Sponges NOTES: a. algae density/distribution from -0.5 to -13,5 rich; then drastic drop off b. artificial reef at 225' c. No eelgrass under dock ++ + + + ffi ffi+ ffi ++ ffi ++ ++eoo case + + + ++ + M @ @+++ ++ m +ru 6tE mm + + + + + + @ ilM wd M trFffi THOMAS OIL EELGRASS SURVEY Date: Sept.30. 1993 TMNSECT#5 Bearing: -___llqLength (ft) 250 Transect Area (sq. M.) TotalArea (sq. M.): Shore Referencr West of Thomas Oil Dock Distance from ) Depth in Feet (adj. to MLLW) Sediment Type Mud Sandy Mud Muddy Sand Sand-fine Sand-medium Sand-coarse Gravel-fine Gravel-medium Gravel-coarse Rocks-small Rocks-medium Rocks-Large Woody Debris ShellDebris Bacterial Mat (Beggiatoa) Algae Agarum Alaria Conaline (Crustose) Costaria Desmarestia Gigartina Gracilaria Heterophyllum lridaea Laminaria Nereocystis Porphyra Prionitis Pterogophera Ulva Other Reds Other Browns Diatom Films Eelgrass (Zostera) Fish Seaperch Sole/flounder Kelp Greenlings Pipefish/Tubesnouts Gunnels Poacher Ronquil(?) Sculpins Shiner Seaperch ;o. M.) 100 150 200 225 250 Eelgrass Band Totals No. per Area -4.5 -5'2 -20 -41 lOOo/o lOOo/o 957o 50o/o 5Oo/o 5o/o + W mil#xffiwslw + ++ +++ +++ ++ +++ ++ ++ + + ++ +++ + + +++ Grustacea Cancer magister Cancer productus Telmessus Other Cancer Crabs Decorator Crabs Kelp Crabs Hermit Crab Coon-Stripe Shrimp (Pandalus) Bunowing Shrimp (Mud/Ghost) Bamacles Mollusca Tresus Nucella Lacuna Limpat$ Cryptochiton Mopalia Scallops Geratostoma Dirona Pododesmus Phidiana Echinodermata Pycnopodia Evasterius Lepasterias Pisaster brevispinus Cucumaria Parastichopus Leptosynapta Annelida Spionid worm tubes Terebellids Maldanids Cinatulids Sabellids Serpulids Goelenterates Halcampa (bunowing) Epiactus Metridium Anthopleura Urticina Tunicates Halocynthia Cnemidocarpa Boltenia (Hairy) Other Tunicates Sponges Halocynthia 1 3 ++ 1l ++ 2 @ ffire nffiryffi 2 2 1 1 mrc ++ ++ mre + Mre mW ffi NOTES: a: Dense algae to about 100'where eelgrass begins. THOMAS OIL EELGRASS SURVEY Date: Seot.30. 1993 - TRANSECT #o Bearinq: 140 Lenoth (ft) 250 TransectArea (sq. M.) TotalArea (sq. M.): Shore Referenq Just East of Salmon Club ramo Distance from Baseline: ) Depth in Feet (adj. to MLLW) Sediment Type Mud Sandy Mud Muddy Sand Sand-fine Sand-medium Sand-coarse Gravel-fine GraveFmedium Gravel-coarse Rocks-small Rocks-medium Rocks-Large Woody Debris ShellDebris Bacterial Mat (Beggiatoa) Algae Agarum Alaria Conaline (Crustose) Costaria Desmarestia Gigartina Gracilaria Heterophyllum lridaea Laminaria Nereocystis Porphyra Prionitis Pterogophera Ulva Other Reds Other Browns Diatom Films Eelgrass (Zostera) Fish Seaperch Sole/flounder Kelp Greenlings Pipefish/Tubesnouts Gunnels Poacher Ronquil(?) Sculpins Shiner Seaperch 100 150 200 225 250 Eelgrass Band Totals No. per Area -4 -8 -15 -38.8 8Oo/o lOOo/o 9590 50o/o 5oo/o 18o/o 5o/o to/o (25o/o\ aw + ffi ffi ++ + ++ ++ ++++ ++ +++ +++ +++ ++ +++ ++ ++ + + ++++ ) Crustacea Cancer magister Cancer productus Telmessus Other Cancer Crabs Decorator Crabs Kelp Crabs Hermit Crab Coon-Stripe Shrimp (Pandalus) Bunowing Shrimp (Mud/Ghost) Bamacles Mollusca Tresus Nucella Lacuna Limpets Cryptochiton Mopalia Scallops Ceratostoma Dirona Pododesmus Phidiana Echinodermata Pycnopodia Evasterius Lepasterias Pisaster brevispinus Cucumaria Parastichopus Leptosynapta Annelida Spionid worm tubes Terebellids Maldanids Cin:atulids Sabellids Serpulids Coelenterates Halcampa (bunowing) Epiac'tus Metridium Anthopleura Urticina Tunicates Halocynthia Cnemidocarpa Boltenia (Hairy) Other Tunicates Sponges NOTES: a.: Dense Algae from 75'-150', then tapers off quickly to none. b.: Lots of tires and pilings at approx. 45' depth ++ ++ ++ ++ +++ Tffi + ffi ffi + + + ++ ffi +w++m++ M M +++ ffi+ IM ffi+m rc m em @ tffi ++ THOMAS OIL EELGMSS SURVEY Date: Sept.30, 1993 TRANSECT #7 Bearino: 140 Lenoth (ft) 2250 Transect Area (sq. M.) TotalArea (sq. M.): Shore Referencr East of Salmon Club Ramo Distance from Baseline: Depth in Feet (adj. to MLLW) Sediment Type Mud Sandy Mud Muddy Sand Sand-fine Sand-medium Sand-coarse Gravel-fine Gravel-medium Gravel-coarse Rocks-small Rocks-medium Rocks-Large Woody Debris ShellDebris Bacterial Mat (Beggiatoa) Algae Agarum Alaria Conaline (Crustose) Costaria Desmarestia Gigartina Gracilaria Heterophyllum lridaea Laminaria Nereocystis Porphyra Prionitis Pterogophera Ulva Other Reds Other Browns Diatom Films Eelgrass (Zostera) Fish Seaperch Sole/flounder Kelp Greenlings Pipefish/Tubesnouts Gunnels Poacher Ronquil(?) Sculpins Shiner Seaperch M. 1 Eelgrass Band Totals No. per Area -2.4 -5.8 -10.7 95o/o 1$OVo OOo/o 2Oolo 80o/o 5o/o (5olol + +++ +++++ + +++ ++++ + ++ ++++ ++1 1 +1 +++ ) Crustacea Cancer magister Cancer productus Telmessus Other Cancer Crabs Decorator Crabs Kelp Grabs Hermit Crab Coon-Stripe Shrimp (Pandalus) Bunowing Shrimp (Mud/Ghost) Bamacles Mollusca Tresus Nucella Lacuna Limpets Cryptochiton Mopalia Scallops Ceratostoma Dirona Pododesmus Phidiana Echinodermata Pycnopodia Evasterius Lepasterias Pisaster brevispinus Cucumaria Parastichopus Leptosynapta Annelida Spionid worm tubes Terebellids Maldanids Cinatulids Sabellids Serpulids Goelenterates Halcampa (bunowing) Epiactus Metridium Anthopleura Urticina Tunicates Halocynthia Cnemidocarpa Boltenia (Hairy) Other Tunicates Sponges Halocynthia + + +++ ++ ++ ++ ++ ggffi sffi++ + + + + ++ ++ ++ + + +M IEMM M NOTES: THOMAS OIL EELGMSS SURVEY Date: Sept.30, 1993 TRANSECT#8 Bearino: 140 Lenoth (ft) 250 Shore Referenc. Distance from Baseline: Depth in Feet (adj. to lttLLW) Sediment Type Mud Sandy Mud Muddy Sand Sand-fine Sand-medium Sand-coarse Gravel-fine Gravel-medium Gravel-coarse Rocks-small Rocks-medium Rocks-Large Woody Debris ShellDebris Bacterial Mat (Beggiatoaf Algae Agarum Alaria Conaline (Crustose) Costaria Desmarestia Gigartina Gracilaria Heterophyllum lridaea Laminaria Nereocystis Porphyra Prionitis Pterogophera Ulva Other Reds Other Browns Diatom Films Eelgrass (Zostera) Fish Seaperch Sole/flounder Kelp Greenlings Pipefish/Tubesnouts Gunnels Poacher Ronquil(?) Sculpins Shiner Seaperch Transect Area (sq. M.) TotalArea (sq. M.): OUADMTS (1.0 So. M.)Eelgrass Band Totals No. per Area1001502001 225 250 -3.7 -7.7 -14.7 40.7 1$OVo IOOVo 1O0o/o 907o 5o/o 5o/o ffi ffi ffi ffi w + + ++++ + + + ++++ +++ +++ +++ m +++ ++ ++ + Crustacea Cancer magister Cancer productus Telmessus Other Cancer Crabs Decorator Crabs Kelp Crabs Hermit Crab Coon-Stripe Shrimp (Pandalus) Burrowing Shrimp (Mud/Ghost) Barnacles Mollusca Tresus Nucella Lacuna Limpets Cryptochiton Mopalia Scallops Ceratostoma Dirona Pododesmus Phidiana Echinodermata Pycnopodia Evasterius Lepastedas Pisaster brevispinus Cucumaria Parastichopus Leptosynapta Annellda Spionid worm tubes Terebellids Maldanids Cinatulids Sabellids Serpulids Goelenterates Halcampa (bunowing) Epiac'tus Metridium Anthopleura Urticina Tunicates Halocynthia Cnemidocarpa Boltenia (Hairy) OtherTunicates Sponges ++ ++ ++ TW ffi ++ @ @ ffi ffi ffi8Mw ++++ +++ ++ M M M w + ffi NOTES: a. algae dense to -23'depth, thins quickly THOMAS OIL EELGRASS SURVEY Date: Oct.9. 1993 TRANSECT#9 Bearino: 140 Lenoth (ft) 25O Transect Area (sq. M.) TotalArea (sq. M.): Shore Referencr ln front of Pope Marine Park Distance from Baseline: Depth in Feet (adj. to MLLW) Sediment Type Mud Sandy Mud Muddy Sand Sand-fine Sand-medium Sand-coarse Gravel-fine Gravel-medium Gravel-coarse Rocks-small Rocks-medium Rocks-Large Woody Debris ShellDebris Bacterial Mat (Beggiatoal Algae Agarum Alaria Conaline (Crustose) Costaria Desmarestia Gigartina Gracilaria Heterophyllum lridaea Laminaria Nereocystis Porphyra Prionitis Pterogophera Ulva Other Reds Other Browns Diatom Films Eelgrass (Zostera| Fieh Seaperch Sole/flounder Kelp Greenlings Pipefish/Tubesnouts Gunnels Poacher Ronquil (?) Sculpins Shiner Seaperch Eelgrass Band Totals No. per Area100150200225250 4.2 €.4 -13.4 41. 9Oo/o lOOo/o lOOo/o 49o/o 49Vo lOVo 2o/o ffi ru ffi ffi ffi + + + +++ ++ ++++ + ++++ ++++ +m+ +tm+ +ffi+R m++m Htffi ++++ 1 +1 +3 Crustacea Cancer magister Cancer productus Telmessus Other Cancer Crabs Decorator Crabs Kelp Crabs HermitCrab Coon-Stripe Shrimp (Pandalus) Bunowing Shrimp (Mud/Ghost) Bamacles Mollusca Tresus Nucella Lacuna Limpets Cryptochiton Mopalia Scallops Ceratostoma Dirona Pododesmus Phidiana Echinodermata Pycnopodia Evasterius Lepasterias Pisaster brevispinus Cucumaria Parastichopus Leptosynapta Annelida Spionid worm tubes Terebellids Maldanids Cinatulids Sabellids Serpulids Coelenterates Halcampa (bunowing) Epiactus Metridium Anthopleura Urticina Tunicates Halocynthia Cnemidocarpa Boltenia (Hairy) Other Tunicates Sponges NOTES: a. pilings @ 50'& 125' b. tire @ 75' + + w ffi +m !M M +EE+ffi ru + +w++ffi+m nmffi + M M ffi THOMAS OIL EELGMSS SURVEY Date: Oct.9, 1993 TRANSECT#10 Bearino: 140 Lenoth (ft) 25O Tnansecl Area (sq. M.) TotalArea (sq. M.): Shore Referencr Just East of Citv Dock Distance from Baseline: Depth in Feet (adJ. to MLLW| Sediment Type Mud Sandy Mud Muddy Sand Sand-fine Sand-medium Sand-coarse Gravel-fine Gravel-medium Gravel-coarse Rocks-small Rocks-medium Rocks-Large Woody Debris ShellDebris Bacterial Mat (Beggiatoa) Algae Agarum Alaria Conaline (Crustose) Costaria Desmarestia Gigartina Gracilaria Heterophyllum lridaea Laminaria Nereocystis Porphyra Prionitis Pterogophera Ulva Other Reds Other Browns Diatom Films Eelgrass (Zostera) Fish Seaperch Sole/flounder Kelp Greenlings Pipefish/Tubesnouts Gunnels Poacher Ronqull(?) Sculpins Shiner Seaperch Eelgrass Band Totals No. per Area100150200225250 -3.5 -6.4 -12.4 -45.3 98o/o lOOo/o lOOo/o 90o/o lOVo 2o/o ffi w w ffi ++ ++ + ++ +++ +++++ ++ ++++++ ++++++ + + + + + +m++ffi ffi +++t + ++ Grustacea Cancer magister Cancer productus Telmessus Other Cancer Crabs Decorator Crabs Kelp Crabs Hermit Crab Coon-Stripe Shrimp (Pandalus) Burrowing Shrimp (Mud/Ghost) Bamacles Mollusca Tresus Nucella Lacuna Limpets Cryptochiton Mopalia Scallops Ceratostoma Dirona Pododesmus Phidiana Echinodermata Pycnopodia Evasterius Lepasterias Pisaster brevispinus Cucumaria Parastichopus Leptosynapta Annelida Spionid worm tubes Terebellids Maldanids Cinatulids Sabellids Serpulids Coelenterates Halcampa (bunowing) Epiactus Metridium Anthopleura Urticina Tunicates Halocynthia Cnemidocarpa Boltenia (Hairy) OtherTunicates Sponges NOTES: a. algae fades quickly @2OO' when slope starts b. pilings at about 50' intervals along bottom c. eelgrass ends - 5' west of linel + ++ + ++ + ++ + +w E ffi m ffi re + +@+ + ffi +ffi ffi wru ++ M M ffi + @ + + TABLE 1. Eelgrass Dislribution/Density Data THOMAS OIL SITE Eelgrass (Zostera) Bed All Depths Relative to Mean Lower Low Water (MLLW = 0.0) Distance From Baseline ') 50 75 12s 150 175 225 2soTransect No.Dcpth Oensrty Distr,b.DeDth Dengty Disnb.Deoth Densily Distnb.Oepth Densty Distrib.Depth Densitv Distob.Deoth Dens[v Distrib Depth Oensily Distnb Depth Density Distnb.Deplh Densitv Distrb.DeDih Dgnsitv Disirib. Shoreward Edoe (Ft) Seaward Edoe (Ft)Breadth (Ft) 1 2 3 4 5 6 7 8 9 10 3.8 P M 1.8 -1.5 M D P P -1.8 -2.8 -1,2 -2.5 ; M D D ; P EV E -4.2 -2.8 -3.8 -4.2 -3.5 ; D M M D EV EV P P E -7 -5.2 -5 -3.8 -4.8 -5.2 -5.5 VD \ID D D D M D E EV P EV EV P E -t.5 -7.2 -8 -12 -7.2 -8 -5.8 -7.8 -o-z -6.5 VD VD VD VD VD D D D D VD EV EV E E EV P P P P E -14 -14 -11 -13 -12 -9 -6.8 -9.8 -9.2 -8.5 D VD L VD VD VD D D D D P EV P E EV EV P EV P E -20 -16 -20 -33 -20 -15 -11 -15 -'13 -13 V' SP D VD D D ML M : P P P EV P P P P -48 -28 -26 -43 -34 -29 -24 -28 -25 D P -41 -39 -35 -42 -42 -35 -44 -41 140 100 115 150 90 110 75 80 30 50 165 200 200 180 2',lo 200 225 220 210 210 4b 100 85 30 120 90 150 140 180 160 J