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Bacteria Results for Nearshore Marine Areas in Puget Sound, 2010-2015
Regional Stormwater Monitoring Program
March 2017 Publication No. 17-03-004
Publication information This report is available on the Department of Ecology’s website at https://fortress.wa.gov/ecy/publications/SummaryPages/1703004.html The Activity Tracker Code for this study is 02-502.
Contact information For more information contact: Publications Coordinator Environmental Assessment Program P.O. Box 47600, Olympia, WA 98504-7600 Phone: (360) 407-6764 Washington State Department of Ecology - www.ecy.wa.gov o Headquarters, Olympia (360) 407-6000 o Northwest Regional Office, Bellevue (425) 649-7000 o Southwest Regional Office, Olympia (360) 407-6300 o Central Regional Office, Yakima (509) 575-2490 o Eastern Regional Office, Spokane (509) 329-3400 Cover photo: Puget Sound (photo credit: Brandi Lubliner, Department of Ecology)
Any use of product or firm names in this publication is for descriptive purposes only and does not imply endorsement by the author or the Department of Ecology.
Accommodation Requests: To request ADA accommodation including materials in a format
for the visually impaired, call Ecology at 360-407-6764. Persons with impaired hearing may call Washington Relay Service at 711. Persons with speech disability may call TTY at 877-833-6341.
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Bacteria Results for Nearshore Marine Areas
in Puget Sound, 2010-2015
Regional Stormwater Monitoring Program
by
Debby Sargeant and Julianne Ruffner
Environmental Assessment Program Washington State Department of Ecology
Olympia, Washington 98504-7710
Water Resource Inventory Area (WRIA) and 8-digit Hydrologic Unit Code (HUC) numbers for the study area: WRIAs • 1 Whatcom • 3 Lower Skagit/Samish • 5 Stillaguamish • 6 Island • 7 Snohomish • 8 Cedar\Sammamish • 9 Duwamish/Green • 10 Puyallup/White • 11 Nisqually • 12 Chambers/Clover • 13 Deschutes • 18 Elwha/Dungeness HUC numbers • 17110002 • 17110019 • 17110020
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This page is purposely left blank
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Table of Contents
Page
List of Figures ......................................................................................................................4
List of Tables .......................................................................................................................6
Abstract ................................................................................................................................7
Acknowledgements ..............................................................................................................8
Background ..........................................................................................................................9
Methods..............................................................................................................................10 Data Collection ............................................................................................................10 Data Analysis ...............................................................................................................10
Results ................................................................................................................................13 Data Sources ................................................................................................................13 Summary Statistics Results by Sub-Region .................................................................18
South Puget Sound .................................................................................................18 East Central Puget Sound.......................................................................................22 West Central Puget Sound .....................................................................................26 North Puget Sound .................................................................................................30 Strait of Georgia .....................................................................................................34 Strait of Juan de Fuca .............................................................................................39
Discussion ..........................................................................................................................43 Data Coverage and Gaps ..............................................................................................43
Sub-region data gaps, 2010-2015 ..........................................................................45 Summary Statistics.......................................................................................................46
Recommendations ..............................................................................................................48 Additional Analysis for this Data Set ..........................................................................48 Design Options for a Status and Trends Bacteria Study ..............................................48
Appendices .........................................................................................................................49 Appendix A. Nearshore Marine Bacteria Data Availability for 2010-2015 ...............50 Appendix B. Glossary, Acronyms, and Abbreviations ...............................................54
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List of Figures Page
Figure 1. Key to box plot of summary statistics presented in this report. ........................11
Figure 2. Distribution of sampling locations for fecal coliform bacteria. ........................15
Figure 3. Distribution of sampling locations for enterococci bacteria..............................16
Figure 4. Distribution of sampling locations for E-coli bacteria. .....................................17
Figure 5. South Puget Sound nearshore marine sampling sites, 2010-2015. ....................19
Figure 6. South Puget Sound sub-region summary statistics for fecal coliform and enterococci data, 2010-2015. ............................................................................20
Figure 7. South Puget Sound sub-region summary statistics by year for fecal coliform data, 2010-2015. ................................................................................................20
Figure 8. South Puget Sound sub-region summary statistics by year for enterococci data, 2010-2015. ................................................................................................21
Figure 9. South Puget Sound sub-region summary statistics by wet and dry season for fecal coliform and enterococci data, 2010-2015. ..............................................21
Figure 10. East Central Puget Sound nearshore marine sampling sites, 2010-2015. .......23
Figure 11. East Central Puget Sound sub-region summary statistics for all data and data separated by entity for fecal coliform and enterococci, 2010-2015. ........24
Figure 12. East Central Puget Sound sub-region summary statistics by year for all fecal coliform data, 2010-2015. .......................................................................24
Figure 13. East Central Puget Sound sub-region summary statistics by year for all enterococci data, 2010-2015. ...........................................................................25
Figure 14. East Central Puget Sound sub-region summary statistics by wet and dry season for fecal coliform and enterococci data, 2010-2015. ...........................25
Figure 15. West Central Puget Sound nearshore marine sampling sites, 2010-2015. ......27
Figure 16. West Central Puget Sound sub-region summary statistics for all fecal coliform, fecal coliform data by entity, as well as all enterococci data, 2010-2015. .......................................................................................................28
Figure 17. West Central Puget Sound sub-region summary statistics by year for all fecal coliform data, 2010-2015. .......................................................................28
Figure 18. West Central Puget Sound sub-region summary statistics by year for all enterococci data, 2010-2015. ...........................................................................29
Figure 19. West Central Puget Sound sub-region summary statistics by wet and dry season for fecal coliform and enterococci data, 2010-2015. ...........................29
Figure 20. North Puget Sound nearshore marine sampling sites, 2010-2015. ..................31
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Figure 21. North Puget Sound sub-region summary statistics for all fecal coliform data, fecal coliform data by entity, as well as all enterococci data and enterococci data by entity, 2010-2015. ............................................................32
Figure 22. North Puget Sound sub-region summary statistics by year for all nearshore marine fecal coliform data, 2010-2015. ...........................................................32
Figure 23. North Puget Sound sub-region summary statistics by year for all nearshore marine enterococci data, 2010-2015. ...............................................................33
Figure 24. North Puget Sound sub-region summary statistics by wet and dry season for fecal coliform and enterococci data, 2010-2015. .......................................33
Figure 25. Strait of Georgia nearshore marine sampling sites, 2010-2015. .....................35
Figure 26. Strait of Georgia sub-region summary statistics for all fecal coliform data and fecal coliform data by entity, 2010-2015. .................................................36
Figure 27. Strait of Georgia sub-region summary statistics for all enterococci data and enterococci data by entity, 2010-2015. ............................................................36
Figure 28. Strait of Georgia sub-region summary statistics for all E-coli data and E-coli data by entity, 2010-2015. ....................................................................37
Figure 29. Strait of Georgia sub-region summary statistics by year for all nearshore marine fecal coliform data, 2010-2015. ...........................................................37
Figure 30. Strait of Georgia sub-region summary statistics by year for all nearshore marine enterococci data, 2010-2015. ...............................................................38
Figure 31. Strait of Georgia sub-region summary statistics by year for all nearshore marine E-coli data, 2010-2015. .......................................................................38
Figure 32. Strait of Georgia sub-region summary statistics by wet and dry season for fecal coliform, enterococci, and E-coli data, 2010-2015. ................................39
Figure 33. Strait of Juan de Fuca nearshore marine sampling sites, 2010-2015. .............40
Figure 34. Strait of Juan de Fuca sub-region (Port Angeles) summary statistics for nearshore marine enterococci data and enterococci data by entity, 2010-2015. ................................................................................................................41
Figure 35. Strait of Juan de Fuca sub-region (Port Angeles) summary statistics by year for all nearshore marine enterococci data, 2010-2015. ............................41
Figure 36. Strait of Juan de Fuca sub-region (Port Angeles) summary statistics by wet and dry season for enterococci data, 2010-2015. ......................................42
Figure 37. Department of Health (DOH) Shellfish Program Safety Map, November 2016. ................................................................................................................47
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List of Tables Page
Table 1. Bacteria criteria used for summary statistics box plots. .....................................12
Table 2. Percentage of nearshore bacteria data collected by entity and bacteria indicator type, 2010-2015. .................................................................................13
Table 3. Percentage of nearshore bacteria data collected by sub-region and fecal indicator bacteria (FIB) type. .............................................................................14
Table 4. South Puget Sound sub-region bacteria data sources, period sampled, and bacteria type. ......................................................................................................18
Table 5. East Central Puget Sound sub-region bacteria data sources, period sampled, and bacteria type. ................................................................................................22
Table 6. West Central Puget Sound sub-region bacteria data sources, period sampled, and bacteria type. ................................................................................................26
Table 7. North Puget Sound sub-region bacteria data sources, period sampled, and bacteria type. ......................................................................................................30
Table 8. Strait of Georgia sub-region bacteria data sources, period sampled, and bacteria type. ......................................................................................................34
Table 9. Strait of Juan de Fuca sub-region (Port Angeles) bacteria data sources, period sampled, and bacteria type. ................................................................................39
Table 10. Marine nearshore monitoring entities, sample period, FIB, and sampling objective. ............................................................................................................44
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Abstract The Status and Trends in Receiving Waters element of the Regional Stormwater Monitoring Program (RSMP) contains nearshore marine monitoring focused on urban growth areas (UGAs) along the Puget Sound shoreline. The goal of this element is to measure changes in the Puget Lowland streams and Puget Sound urban shoreline areas as a result of stormwater management. The RSMP Stormwater Work Group decided that the RSMP pooled-funds monitoring would not be used to collect bacteria samples but instead to conduct a data and gap analysis based on existing marine bacteria monitoring programs for Puget Sound. An assessment was conducted on recent nearshore marine bacteria data available for Puget Sound. This assessment included: • Requesting nearshore data collected during 2010-2015. • Determining locations of sample sites. • Determining entities that collected data. • Summarizing data by sub-region. • Identifying data gaps. Recommendations for developing a status and trends monitoring program for bacteria include:
• When designing a stormwater-related nearshore bacteria monitoring program, the goals and objectives of the program need to be well thought out.
• Focus on specific sites to consistently monitor. Because there is such a large area to cover (Phase I and II permittees in the Puget Sound area as well as the Strait of Georgia and Strait of Juan de Fuca), it is not possible to monitor all areas. One approach is to develop a list of core sites that are monitored consistently over time.
• Focus on monitoring nearshore sites adjacent to small stream discharges or large stormwater discharge areas. Sampling for the Washington State Department of Ecology BEACH Program has shown that these areas have higher bacteria levels during and immediately after storm events, especially in densely populated urban areas.
• Ensure consistent sampling methodology (i.e., wade-in versus from-a-boat) to ensure that the depth of the sample obtained is consistent for all sample events.
• Consider co-locating sites with Washington State Department of Health Shellfish Program sites and BEACH Program sites with large population areas.
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Acknowledgements The authors of this report thank the following people for their contributions to this study:
• Regional Stormwater Monitoring Program (RSMP) Stormwater Work Group
• Jim Simmonds, King County
• Wendy Eash-Loucks, King County
• Kimberle Stark, King County
• Jean Snyder, Washington State Department of Health, Shellfish Program
• Cami Apfelbeck, City of Bainbridge Island, Water Resources
• Peg Wendling, City of Bellingham, Waste Water Lab
• John Franz, City of Anacortes, Public Works
• Carol Creasey, Clallam County
• Shawn Ultican, Kitsap Public Health District
• Jeremy Freimund, Lummi Natural Resources Department
• Jezra Beaulieu, Nooksack Indian Tribe
• Franchesca Perez, Stillaguamish Tribe
• Ed Chadd, Clallam County Streamkeepers
• Washington State Department of Ecology staff o Brandi Lubliner, Water Quality Program
o Susan Wood, Padilla Bay National Estuarine Research Reserve
o Joan LeTourneau and Cindy Cook, Publications, Environmental Assessment Program
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Background The Status and Trends in Receiving Waters element of the Regional Stormwater Monitoring Program (RSMP) contains nearshore marine monitoring focused on urban growth areas (UGAs) along the Puget Sound shoreline. The goal of this element is to measure changes in Puget Lowland streams and Puget Sound urban shoreline areas as a result of stormwater management. For this element: • Eighty-one of 84 eligible Western Washington Phase I and II Municipal Stormwater
Permittees chose to participate via the cost-sharing program. • The Washington State Department of Transportation chose to participate via their permit
option in 2014. • Two municipal stormwater permittees chose to conduct status and trends monitoring similar
to the RSMP in their jurisdictional areas. Information on the RSMP Status and Trends Program can be found at: http://www.ecy.wa.gov/programs/wq/stormwater/municipal/rsmp/status.html In June 2014, the RSMP Stormwater Work Group (SWG) decided that the RSMP pooled-funds monitoring would not be used to collect bacteria samples, but instead to conduct a data-and-gap analysis based on existing marine bacteria monitoring programs in Puget Sound. This decision was recommended by the SWG Pooled Resources Oversight Committee based on (1) the number of groups collecting fecal indicator bacteria data for Puget Sound, and (2) the high cost estimates of a regional probabilistic monthly bacteria monitoring program for the RSMP. The RSMP contracted with the Washington State Department of Ecology (Ecology) Beach Environmental Assessment, Communication, and Health (BEACH) program staff1 to conduct an assessment of recent bacteria data collected in the Puget Sound nearshore marine environment. This assessment included: • Requesting nearshore bacteria data collected during 2010-2015. • Determining locations of sample sites and assessing coverage. • Determining entities that collected data. • Summarizing data by sub-region. • Identifying data gaps. The purpose for this compilation of existing fecal indicator data report is to provide the SWG information on the prevalence of 2010-2016 nearshore bacteria data. This report summarizes bacterial concentrations, shows monitoring site locations, and provides ideas on how to move forward with a regional monitoring program. This report is not intended to evaluate compliance with criteria for the regions assessed; the various bacteria criteria are used solely for context and comparison.
1 Within Ecology’s Environmental Assessment Program.
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Methods
Data Collection BEACH staff contacted over 80 organizations and governmental entities that have collected recent nearshore marine bacteria data. “Recent” was defined as the period from 2010 to 2015 (six years). The following information was requested (metadata): • Fecal indicator type (fecal coliform, enterococcus, and E.coli) and analytical method. • Location of sampling (sub-regions). • Sampling period (e.g., seasons). • Sampling objectives (e.g., bacterial source tracking, storm events). • Data quality. • Data location. • Data availability for the six years. Responses from each entity were recorded and, data when available, compiled in an Excel spreadsheets (Appendix A). This report provides a summary of the metadata and analysis of the data gathered. All working files and maps were provided to Ecology’s RSMP Coordinator, Brandi Lubliner.
Data Analysis Once compiled, the bacteria data were summarized by the following sub-regions: • South Puget Sound: Puget Sound from the Tacoma Narrows bridge south. • East Central Puget Sound: From north of the Tacoma Narrows bridge to south of the city of
Everett, including Vashon Island and the west and east shoreline of Colvos Passage. • West Central Puget Sound: Kitsap County including Bainbridge Island. • North Central Puget Sound: Everett to south of Anacortes including Whidbey Island. • Strait of Georgia: Anacortes north including the San Juan Islands. • Strait of Juan de Fuca: Port Angeles area. Data were analyzed by sub-region, not by jurisdictions or sites, to limit this first glance at the region’s bacteria data. Bacteria criteria are two-part: • Calculation of the geometric mean. • Either an estimated 90th percentile2 or determining if 10% of the samples exceed a criterion.
2 To calculate the estimated 90th percentile, he following was used: X=µ+Zơ Z=1.282. (U.S. Food and Drug Administration, 2009. Guide for the Control of Molluscan Shellfish).
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Both criterion must be met to meet the bacteria standard. The statistical analysis was limited to calculations of the geometric mean and estimated 90th percentile for each type of bacteria indicator for the following data sets. • All data and all data for each entity for 2010-2015. • All data by year for 2010-2015. • All data for the wet (October – April) and dry (May – September) periods, 2010-2015. The reporting limit value was used to analyze data below the detection limit. For graphing purposes, the minimum was set at 0 if the minimum was below detection limits. Data for summary statistics are displayed by sub-region. Figure 1 presents a key for the box plots. The box plots may include the geometric mean and 90th percentile criteria for the bacteria standard.
Figure 1. Key to box plot of summary statistics presented in this report. Maximum values are included as text at the upper end of the box plot.
0
10
20
30
40
50
Bac
teri
a Ty
pe #
/100
mL
Box Plot Key
10th %tile Minimum Geometric Mean Maximum 90th %tile
Bacteria Datan=x
90th %tile
GM criteria
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Bacteria criteria used for this report are described in Table 1. Currently, Washington State does not have criteria for E-coli. Bacteria criteria include a duration and frequency component. For example, for the Washington State Department of Health Shellfish Program (DOH Shellfish), the geometric mean and 90th percentile should meet criteria for the last 30 sample events to be Approved for shellfish harvest. For summary statistics included here, the geometric mean and 90th percentile were calculated for very large data sets and varying time periods. Therefore, criteria are shown for illustrative purposes and do not represent a compliance assessment. Table 1. Bacteria criteria used for summary statistics box plots.
Bacteria Beneficial Use Geometric Mean
Estimated 90th percentile
Fecal Coliform Shellfish Harvest (Ecology, 2006) 14 43 Enterococci Recreational Water Contact (1986 criteria) 35 276 Escherichia Coli n/a n/a n/a
Ecology 2006: WAC 173-201A-210: http://www.ecy.wa.gov/programs/wq/swqs/criteria-marine/wac173201a_210-bacteria.html EPA 1986: Ambient Water Quality Criteria for Bacteria: https://www.regulations.gov/document?D=EPA-HQ-OW-2007-0808-0001
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Results
Data Sources Ecology’s BEACH staff contacted the entities listed in Appendix A to determine (1) if nearshore marine bacteria data were available for 2010-2015 and (2) the purpose for their monitoring efforts. Table 2 describes the entities, bacteria type, and percentage of data points from each entity from 2010-2015. During this period, over 42,000 bacteria data points were collected in the nearshore marine environment including 27,050 for fecal coliform, 14,750 for enterococci, and 848 for E-coli. Maps of all the nearshore monitoring sites can be found at: http://www.ecy.wa.gov/programs/wq/stormwater/municipal/rsmp/rsmpdocs/deliverables/BacteriaTask2Maps.pdf
Table 2. Percentage of nearshore bacteria data collected by entity and bacteria indicator type, 2010-2015.
Entity Monitoring Purpose
Fecal Coliform Enterococci E-coli
WA State Department of Health – Shellfish Programs 1 73.6% 0.0% 0.0% WA State Department of Ecology – BEACH Program 1 0.6% 84.5% 0.0% Counties 1, 2 21.6% 8.7% 0.0% Tribes 1, 3.5% 6.8% 100.0% Cities 2, 3, 4 0.4% 0.0% 0.0% Marine Resource Committees 5 0.3% 0.0% 0.0% Wastewater Treatment Plants 2 0.0% 0.0% 0.0%
Conservation Districts No data available 0.0% 0.0% 0.0%
1: Ambient monitoring 2: Determining bacteria levels after a sanitary overflow 3: Storm event sampling 4: Baseline monitoring 5: Trend monitoring
Most of the fecal coliform data were collected by the DOH Shellfish Program. Most of the enterococci data were collected by Ecology’s BEACH Program. All of the E-coli data were collected by the following tribes: Nooksack, Lummi Nation, and Samish in the Whatcom, Skagit, and Snohomish County areas. After the state agencies, Puget Sound counties collected most of the fecal coliform and enterococci data. Volunteer organizations collected data under other programs such as the BEACH Program; these data were included in the BEACH data set. Data from some volunteer organizations did not meet quality control limits (i.e., no monitoring plan, samples not analyzed by an accredited laboratory); these data were not included in this analysis.
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The percentage of nearshore bacteria data by sub-region, as well as bacterial indicator type, are presented in Table 3. Figures 2 through 4 present maps showing the distribution of sampling locations for each fecal indicator bacteria (FIB) type. Table 3. Percentage of nearshore bacteria data collected by sub-region and fecal indicator bacteria (FIB) type.
Sub-region Fecal Coliform Enterococci E-coli
South Puget Sound 11.6 % 7.5% 0.0 % East Central Puget Sound 10.1 % 31.4% 0.0 % West Central Puget Sound 42.0 % 24.3 % 0.0 % North Puget Sound 18.8 % 17.2 % 0.0 % Strait of Georgia 17.5 % 17.0 % 100% Strait of Juan de Fuca 0.0 % 2.6 % 0.0 %
Data collection for this project was focused on marine nearshore areas adjacent to urban growth areas and also Phase I and Phase II permittees. Thus the sub-regions have varying amounts of data included in the data set, potentially due to recreational beaches, shellfish beds, or how many permittees are located there. For example, the Strait of Juan de Fuca sub-region has one Phase II stormwater permittee, the city of Port Angeles; while the West Central Sound sub-region includes two Phase II permittees, Bainbridge Island and Kitsap County. Most of the fecal coliform data were obtained for the West Central Puget Sound sub-region (Kitsap County and Bainbridge Island). The majority of the enterococci data were from the East Central Puget Sound sub-region (Tacoma Narrows bridge to south of Everett, including Vashon Island and Colvos Passage).
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Figure 2. Distribution of sampling locations for fecal coliform bacteria.
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Figure 3. Distribution of sampling locations for enterococci bacteria.
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Figure 4. Distribution of sampling locations for E-coli bacteria.
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Summary Statistics Results by Sub-Region South Puget Sound The South Puget Sound sub-region includes Puget Sound south of the Tacoma Narrows Bridge. Sample sites are presented in Figure 5. Available data sources and number of data point for each source are included in Table 4. Phase I and II permittees in this sub-region include Thurston County, portions of Pierce and Kitsap Counties, and the Cities of Olympia, Lacey, DuPont, Steilacoom, and University Place. Data Summary
Table 4. South Puget Sound sub-region bacteria data sources, period sampled, and bacteria type.
Lead Entity Collecting Data
Number of Individual Samples
Period Sampled
Type of Bacteria
WA State Department of Health 3751 2010-2015 Fecal Coliform WA State BEACH Program 1110 2010-2015 Enterococci
Figures 6 through 9 present box plots summarizing data analysis for the South Puget Sound sub-region. Summary statistics are well below criteria for both fecal coliform and enterococci for all periods examined. No definitive patterns are seen in the data.
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Figure 5. South Puget Sound nearshore marine sampling sites, 2010-2015.
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Figure 6. South Puget Sound sub-region summary statistics for fecal coliform and enterococci data, 2010-2015.
Figure 7. South Puget Sound sub-region summary statistics by year for fecal coliform data, 2010-2015.
0
10
20
30
40
50Fe
cal C
olifo
rm (F
C) #
/100
mL
2010-2015 Nearshore Bacteria Data for South Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
BEACH Enterococci Datan=1,110
Ent
eroc
occi
#/1
00m
L
DOH FC Datan=3,751
90th %tile criteria
GM criteria
GM criteria
Max>2400 Max>2900
0
10
20
30
40
50
Feca
l Col
iform
(FC
) #/1
00 m
L
2010-2015 Fecal Coliform Data by Year for South Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
2010n=616
90th %tile criteria
GM criteria
2011n=637
2012n=684
2013n=618
2014n=672
2015n=524
Max>2400 Max=170 Max=350 Max=540 Max=130 Max=350
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Figure 8. South Puget Sound sub-region summary statistics by year for enterococci data, 2010-2015.
Figure 9. South Puget Sound sub-region summary statistics by wet and dry season for fecal coliform and enterococci data, 2010-2015.
0
20
40
60
80
100E
nter
ococ
ci #
/100
mL
2010-2015 Enterococci Data by Year for South Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
2010n=146
GM criteria
2011n=263
2012n=146
2013n=180
2014n=210
2015n=165
90th %tile criteria for BEACH 276/100 mLMax=410 Max=2900 Max=2200 Max=1000 Max=930Max=480
0
10
20
30
40
50
Feca
l Col
iform
#/1
00 m
L
2010-2015 Wet and Dry Season Bacteria Data for South Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
DOH FC Data May-Sept (dry period)
n=1595
DOH FC Data Oct - April (wet period)
n=2156
BEACH Program Enterococci Data (dry period)
May-Sept n=1110
90th %tile
GM criteria
GM criteria
Ent
eroc
occi
#/10
0 m
L
Max>2400 Max=2900Max=540
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East Central Puget Sound The East Central Puget Sound sub-region includes sample sites on the eastern shore of Puget Sound from north of the Tacoma Narrows bridge to south of Everett, including Vashon Island and the east side of Colvos Passage. Sample sites are presented in Figure 10. Available data sources and the number of data points for each source are included in Table 5. Phase I and II permittees with Puget Sound shorelines in this sub-region include King County, portions of Pierce and Snohomish Counties, and the Cities of Tacoma, Seattle, Burien, Federal Way, Des Moines, Normandy Park, and Shoreline.
Table 5. East Central Puget Sound sub-region bacteria data sources, period sampled, and bacteria type.
Lead Entity Collecting Data
Number of Individual Samples
Period Sampled
Type of Bacteria
WA State Department of Health 3751 2010-2015 Fecal Coliform King County 1282 2010-2015 Fecal Coliform WA State BEACH Program 12 2010-2012 Fecal Coliform WA State BEACH Program 3386 2010-2015 Enterococci King County 1243 2010-2015 Enterococci
Data Summary Figures 11 through 14 present box plots summarizing data for the East Central Puget Sound sub-region. Fecal coliform data from King County had a higher geometric mean and 90th percentile (above the 90th percentile criterion) than other data sources. Fecal coliform data from other entities met criteria. The enterococci levels for 2010-2015 were within (met) Recreational Water Contact criteria. Fecal coliform levels increased from 2011-2014 and decreased in 2015. Enterococci levels varied by year with the highest levels in 2013. There was no notable difference between wet and dry season levels of fecal coliform, but enterococci levels were higher during the wet season.
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Figure 10. East Central Puget Sound nearshore marine sampling sites, 2010-2015.
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Figure 11. East Central Puget Sound sub-region summary statistics for all data and data separated by entity for fecal coliform and enterococci, 2010-2015.
Figure 12. East Central Puget Sound sub-region summary statistics by year for all fecal coliform data, 2010-2015.
0
20
40
60
80
100B
acte
ria
#/1
00 m
L2010-2015 Nearshore Bacteria Data for East Central Puget Sound
10th %tile Minimum Geometric mean Maximum 90th %tile
All FC Data
DOH FC Data
n=1373
King Co.FC Datan=1282
BEACH FC Data
n=12
All Enterococci Data n=4629
90th %tile
BEACH Enterococci Data n=3386
King Co. Enterococci Data n=1243
GM criteria
Max=2500
GM criteria
Max=2500Max=1600 Max=8700 Max=8700 Max=690
0
20
40
60
80
100
Feca
l Col
iform
#/1
00 m
L
2010-2015 Fecal Coliform Data by Year for East Central Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
2010n=423
90th %tile criteria
GM criteria
2011n=437
2012n=457
2013n=436
2014n=480
2015n=434
Max=920 Max=230 Max=810 Max=660 Max=2500 Max=1200
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Figure 13. East Central Puget Sound sub-region summary statistics by year for all enterococci data, 2010-2015.
Figure 14. East Central Puget Sound sub-region summary statistics by wet and dry season for fecal coliform and enterococci data, 2010-2015.
0
20
40
60
80
100E
nter
ococ
ci #
/100
mL
2010-2015 Enterococci Data by Year for East Central Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
2010n=647
GM criteria
2011n=898
2012n=719
2013n=786
2014n=675
2015n=904
90th %tile criteria for BEACH 276/100 mL
Max=1390 Max=1960 Max=1790 Max=8700 Max=2255 Max=690
0
20
40
60
80
100
Feca
l Col
iform
#/1
00 m
L
2010-2015 Seasonal Bacteria Data for East Central Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
FC Data May-Sept
n=1130
FC DataOct-Apr n=1537
90th %tile criteria
GM criteria
Enterococci Data May-Sept
n=3817
GM criteria
Enterococci Data Oct-Apr
n=812
Ent
eroc
occi
#/1
00 m
L
Max=2500 Max>1600 Max=8700 Max=690
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West Central Puget Sound The West Central Puget Sound sub-region includes sample sites on the western shore of Puget Sound including Kitsap County and Bainbridge Island. Sample sites are presented in Figure 15. Available data sources and the number of data points for each source are included in Table 6. Phase I and II permittees in this sub-region include Kitsap County, Bainbridge Island, and the Cities of Bremerton, Port Orchard, Gig Harbor, and Poulsbo.
Table 6. West Central Puget Sound sub-region bacteria data sources, period sampled, and bacteria type.
Lead Entity Collecting Data
Number of Individual Samples
Period Sampled
Type of Bacteria
WA State Department of Health 6565 2010-2015 Fecal Coliform Kitsap County 4421 2010-2015 Fecal Coliform WA State BEACH Program 135 2011-2013 Fecal Coliform City of Bainbridge Island 14 2014 Fecal Coliform WA State BEACH Program 3588 2010-2015 Enterococci
Data Summary Figures 16 through 19 summarize data for the West Central Puget Sound sub-region. For 2010-2015, data from the City of Bainbridge Island had the highest fecal coliform levels, with both the geometric mean and 90th percentile above the criteria. The BEACH fecal coliform data set also had high bacteria levels with the 90th percentile exceeding the criterion. Both of these data sets are smaller than the DOH Shellfish Program and Kitsap County data sets that had more than 3,500 samples. The enterococci BEACH data were well within (met) the Recreational Water Contact criteria. Fecal coliform levels by year were consistently low, meeting fecal coliform criteria. Bainbridge Island fecal coliform data were high, but the sampling objective was to capture storm events as opposed to ambient monitoring (Figure 16). Enterococci levels by year varied with higher levels in 2010 and 2011; all years met Recreational Water Contact criteria. There was no notable difference between wet and dry season levels of fecal coliform. Enterococci bacteria sampling occurred only during the dry period.
Page 27
Figure 15. West Central Puget Sound nearshore marine sampling sites, 2010-2015.
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Figure 16. West Central Puget Sound sub-region summary statistics for all fecal coliform, fecal coliform data by entity, as well as all enterococci data, 2010-2015. Note y axis is in log scale.
Figure 17. West Central Puget Sound sub-region summary statistics by year for all fecal coliform data, 2010-2015.
0
1
10
100
1000
10000Fe
cal C
olifo
rm #
/100
mL
2010-2015 Nearshore Bacteria Data for West Central Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
Kitsap Co. FC Datan=4421
Bainbridge Is. FC Data
n=14
BEACH FC Data
n=66
DOH FC Data
n=6565
90th %tile criteria
BEACH Enterococci Data
n=3588
Ent
eroc
occi
#/1
00m
L
All FC Data
n=11,066
90th %tile criteria
GM criteria
GM criteria
Max=3000 Max=817 Max=3000 Max=135 Max>2400 Max=24200
0
10
20
30
40
50
Feca
l Col
iform
#/1
00 m
L
2010-2015 Fecal Coliform Data by Year for West Central Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
2010n=1854
90th %tile criteria
GM criteria
2011n=1881
2012n=1743
2013n=1890
2014n=1937
2015n=1761
Max=350 Max=240 Max=240 Max=350 Max=3000 Max=350
Page 29
Figure 18. West Central Puget Sound sub-region summary statistics by year for all enterococci data, 2010-2015.
Figure 19. West Central Puget Sound sub-region summary statistics by wet and dry season for fecal coliform and enterococci data, 2010-2015.
0
20
40
60
80
100E
nter
ococ
ci #
/100
mL
2010-2015 Enterococci Data by Year for West Central Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
2010n=426
GM criteria
2011n=766
2012n=507
2013n=705
2014n=563
2015n=621
90th %tile criteria for BEACH 276/100 mLMax=2235 Max=9140 Max=2420 Max=13000 Max=24200 Max=24200
0
10
20
30
40
50
Feca
l Col
iform
#/1
00 m
L
2010-2015 Wet and Dry Season Bacteria Data for West Central Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
Fecal Coliform Data May-Sept (dry period)
n=4862
Fecal Coliform Data(wet period) Oct-April
n=6204
Enterococci Data (dry period) May-Sept
n=3588
90th %tile criteria
GM criteria
GM criteria
Ent
eroc
occi
#/1
00 m
L
Max>2400 Max=3000 Max>24000
Page 30
North Puget Sound The North Puget Sound sub-region includes Everett north to south of Anacortes including Whidbey Island in Island County. Sample sites are presented in Figure 20. Available data sources and the number of data points for each source are included in Table 7. Phase I and II permittees in this sub-region include portions of Snohomish and Skagit Counties and the Cities of Everett and Oak Harbor.
Table 7. North Puget Sound sub-region bacteria data sources, period sampled, and bacteria type.
Lead Entity Collecting Data
Number of Individual Samples
Period Sampled
Type of Bacteria
WA State Department of Health 4922 2010-2015 Fecal Coliform WA State BEACH Program 25 2010 Fecal Coliform WA State BEACH Program 2378 2010-2015 Enterococci Tulalip Tribe 156 2010-2013 Enterococci
Data Summary Figures 21 through 24 present box plots summarizing data for the North Puget Sound sub-region. For fecal coliform data sources (2010-2015), the BEACH Program had the highest geometric mean and 90th percentile values above (not meeting) the criteria. The enterococci levels for 2010-2015 were within (met) Recreational Water Contact criteria for the BEACH data but did not meet the 90th percentile criterion for the Tulalip Tribe data set. In looking at bacteria levels by year, fecal coliform were well below criteria each year. Enterococci levels varied by year with the highest levels in 2010; all years were within Recreational Water Contact criteria. There was no notable difference between wet and dry season fecal coliform levels, but higher levels of enterococci were seen in the wet season.
Page 31
Figure 20. North Puget Sound nearshore marine sampling sites, 2010-2015.
Page 32
Figure 21. North Puget Sound sub-region summary statistics for all fecal coliform data, fecal coliform data by entity, as well as all enterococci data and enterococci data by entity, 2010-2015.
Figure 22. North Puget Sound sub-region summary statistics by year for all nearshore marine fecal coliform data, 2010-2015.
0
50
100
150
200
250
300Fe
cal C
olifo
rm #
/100
mL
2010-2015 Nearshore Bacteria Data for North Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
All Enterococci Data n=2534
90th %tile criteria
All FC Data
n=4947
BEACH FC Data
n=25
BEACH Enterococci
Data n=2378
GM criteria
90th %tile criteria
DOH FC Data n=4922
Tulalip Tribe Enterococci Data n=156
Ent
eroc
occi
#/1
00 m
L
Max=540 Max=540 Max=490Max=24200 Max=24200 Max=8164
0
10
20
30
40
50
Feca
l Col
iform
#/1
00 m
L
2010-2015 Fecal Coliform Data by Year for North Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
2010n=855
2011n=864
2012n=819
2013n=854
2014n=809
90th %tile criteria
GM criteria
2015n=746
Max=490 Max=170 Max=350 Max=240 Max=540 Max=110
Page 33
Figure 23. North Puget Sound sub-region summary statistics by year for all nearshore marine enterococci data, 2010-2015.
Figure 24. North Puget Sound sub-region summary statistics by wet and dry season for fecal coliform and enterococci data, 2010-2015.
0
20
40
60
80
100E
nter
ococ
ci #
/100
mL
2010-2015 Enterococci Data by Year for North Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
2010n=443
2011n=445
2012n=426
2013n=436
2014n=370
90th %tile criteria for BEACH 276/100 mL
GM criteria
2015n=414
Max=24200 Max=2006 Max=2382 Max=2100 Max=1210 Max=1850
0
50
100
150
200
250
300
350
400
Feca
l Col
iform
#/1
00 m
L
2010-2015 Wet and Dry Season Bacteria Data for North Puget Sound
10th %tile Minimum Geometric Mean Maximum 90th %tile
Fecal Coliform Data May-Sept dry period)
n=2273
Fecal Coliform Data(wet period) Oct-April
n=2674
Enterococci Data (dry period) May-Sept
n=2433
90th %tile criteria
GM criteria
90th %tile criteria
Ent
eroc
occi
#/1
00 m
L
Enterococci Data (wet period) Oct-April
n=101
Max=490 Max=540 Max=24200 Max=8164
Page 34
Strait of Georgia The Strait of Georgia sub-region includes Anacortes, the shoreline north to the US border, and the San Juan Islands. Sample sites are presented in Figure 25. Available data sources and the number of data points for each source are included in Table 8. Phase I and II permittees in this sub-region include portions of Skagit County, all of Whatcom County, and the Cities of Anacortes and Bellingham.
Table 8. Strait of Georgia sub-region bacteria data sources, period sampled, and bacteria type.
Data Summary Figures 26 through 32 present box plots summarizing data for the Strait of Georgia sub-region. Numerous entities collected nearshore bacteria during 2010-2015. The City of Anacortes data set (n=6) did not meet marine fecal coliform criteria, exceeding both the geometric mean and 90th percentile criteria. The BEACH, Lummi Nation, and Whatcom Marine Resource Committee (MRC) fecal coliform data sets did not meet the 90th percentile portion of the criterion. The enterococci data sets all were within (met) Recreational Water Contact criteria. Two tribal entities collect E-coli data, but there is no Washington State criterion for E.coli for comparison. In analyzing bacteria by year, fecal coliform levels were well below (met) criteria. Enterococci levels were higher in this sub-region than some of the other sub-regions. E-coli levels varied by year with the highest levels in 2010. There was no strong differences between wet and dry season bacteria levels, but fecal coliform and E-coli levels were slightly higher during the wet season. Enterococci levels were higher in the dry season. High enterococci levels for this sub-region, and high levels during the dry season (also the swimming season), may be due to very high bacteria levels during the swim season at Bayview State Park beach.
Lead Entity Collecting Data
Number of Individual Samples
Period Sampled
Type of Bacteria
WA State Department of Health 3478 2010-2015 Fecal Coliform Lummi Nation 573 2010-2014 Fecal Coliform Nooksack Indian Tribe 273 2012-2015 Fecal Coliform City of Bellingham 78 2010-2013 Fecal Coliform Samish Indian Nation 78 2011-2015 Fecal Coliform Whatcom Marine Resource Committee 75 2015 Fecal Coliform WA State BEACH Program 58 2010-2011, 2013-2014 Fecal Coliform City of Anacortes 6 2015 Fecal Coliform WA State BEACH Program 1658 2010-2015 Enterococci Lummi Nation 573 2010-2014 Enterococci Nooksack Indian Tribe 273 2012-2015 Enterococci Lummi Nation 573 2010-2014 E-coli Nooksack Indian Tribe 275 2012-2015 E-coli
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Figure 25. Strait of Georgia nearshore marine sampling sites, 2010-2015.
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Figure 26. Strait of Georgia sub-region summary statistics for all fecal coliform data and fecal coliform data by entity, 2010-2015. Data displayed in log scale.
Figure 27. Strait of Georgia sub-region summary statistics for all enterococci data and enterococci data by entity, 2010-2015.
0
1
10
100
1000Fe
cal C
olifo
rm #
/100
mL
2010-2015 Nearshore Fecal Coliform Data for Strait of Georgia
10th %tile Minimum Geometric Mean Maximum 90th %tile
All FC Data
n=4620
Lummi Nation
FC Datan=573
Nooksack Tribe FC
Datan=273
BEACH FC Data
n=58
90th %tile criteria
GM Criteria
DOH FC Data
n=3478
Samish Nation FC
Datan=78
City of Bellingham
FC Datan=78
Whatcom MRC
FC Datan=75
City of AnacortesFC Data
n=6
Max>2400 Max>2400
0
50
100
150
Ent
eroc
occi
#/1
00 m
L
2010-2015 Nearshore Enterococci Data for Strait of Georgia
10th %tile Minimum Geometric Mean Maximum 90th %tile
All Enterococci Data
n=2504
Lummi Nation
FC Datan=573
Nooksack Tribe FC
Datan=273
BEACH Enterococci
Datan=1658
90th %tile criteria for BEACH 276/100 mL
GM criteria
Max=5475 Max=5475 Max=2005 Max=4611
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Figure 28. Strait of Georgia sub-region summary statistics for all E-coli data and E-coli data by entity, 2010-2015.
Figure 29. Strait of Georgia sub-region summary statistics by year for all nearshore marine fecal coliform data, 2010-2015.
0
20
40
60
80
100E
-col
i#/1
00 m
L2010-2015 Nearshore E-coli Data for Strait of Georgia
10th %tile Minimum Geometric Mean Maximum 90th %tile
All E-coliData
n=848
Lummi Nation E-coli Data
n=573
Nooksack Tribe E-coli Data
n=275
Max=2400 Max=2400 Max=230
0
10
20
30
40
50
Feca
l Col
iform
#/1
00 m
L
2010-2015 Fecal Coliform Data by Year for Strait of Georgia
10th %tile Minimum Geometric Mean Maximum 90th %tile
2010n=686
2011n=807
2012n=878
2013n=771
2014n=778
90th %tile criteria
GM criteria
2015n=699
Max=920 Max=2400 Max=340 Max=460 Max=920 Max=920
Page 38
Figure 30. Strait of Georgia sub-region summary statistics by year for all nearshore marine enterococci data, 2010-2015.
Figure 31. Strait of Georgia sub-region summary statistics by year for all nearshore marine E-coli data, 2010-2015.
0
50
100
150E
nter
ococ
ci #
/100
mL
2010-2015 Enterococci Data by Year for Strait of Georgia
10th %tile Minimum Geometric Mean Maximum 90th %tile
2010n=304
2011n=464
2012n=476
2013n=456
2014n=443
GM criteria
2015n=361
90th %tile criteria for BEACH 276/100 mL
Max=1725 Max>2005 Max>2005 Max>2005 Max4610 Max=5475
0
10
20
30
40
50
E-c
oli
#/10
0 m
L
2010-2015 E-coli Data by Year for Strait of Georgia
10th %tile Minimum Geometric Mean Maximum 90th %tile
2010n=115
2011n=126
2012n=176
2013n=199
2014n=195
2015n=40
Max=660 Max=2400 Max=340 Max=480
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Figure 32. Strait of Georgia sub-region summary statistics by wet and dry season for fecal coliform, enterococci, and E-coli data, 2010-2015.
Strait of Juan de Fuca The Strait of Juan de Fuca sub-region includes the Port Angeles area. Sample sites are presented in Figure 33. Available data sources and the number of data points for each source are included in Table 9. Phase I and II permittees in this sub-region include Port Angeles.
Table 9. Strait of Juan de Fuca sub-region (Port Angeles) bacteria data sources, period sampled, and bacteria type.
Data Summary Figures 34 through 36 present box plots summarizing data for the Strait of Juan de Fuca sub-region (Port Angeles). There were very few fecal coliform data for the Port Angeles area (n=3). More data were available for enterococci; however, all sites are near Hollywood Beach and nearby Peabody Creek.
0
20
40
60
80
100
120B
acte
ria
#/1
00 m
L2010-2015 Wet and Dry Season Bacteria Data for Strait of Georgia
10th %tile Minimum Geometric Mean Maximum 90th %tile
FC May -September
n=1948
FC Oct - April
n=2672
90th %tile criteria
GM criteria
Enterococci May -September
n=1971
Enterococci Oct - April
n=533
E-coli May -September
n=350
E-coliOct - April
n=498
GM criteria
Max=2400 Max=920 Max=5475 Max=4610 Max=2400 Max=640
Lead Entity Collecting Data
Number of Individual Samples
Period Sampled
Type of Bacteria
WA State BEACH Program 339 2010-2015 Enterococci Clallam County 46 2011, 2013, 2015 Enterococci
Page 40
Enterococci data from the BEACH Program met Recreational Water Contact criteria. Data from Clallam County did not meet the geometric mean or 90th percentile portion of the criteria. This is largely due to an additional sample site near the mouth of Peabody Creek which had high bacteria levels. Data by year showed the highest enterococci levels in 2015, with all years meeting Recreational Water Contact criteria. Wet season enterococci levels were much higher than dry season levels. Wet season levels did not meet Recreational Water Contact criteria.
Figure 33. Strait of Juan de Fuca nearshore marine sampling sites, 2010-2015.
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Figure 34. Strait of Juan de Fuca sub-region (Port Angeles) summary statistics for nearshore marine enterococci data and enterococci data by entity, 2010-2015.
Figure 35. Strait of Juan de Fuca sub-region (Port Angeles) summary statistics by year for all nearshore marine enterococci data, 2010-2015.
0
100
200
300
400
500E
nter
ococ
ci #
/100
mL
2010-2015 Nearshore Enterococci Data for Strait of Juan de Fuca (Port Angeles)
10th %tile Minimum Geometric Mean Maximum 90th %tile
90th %tile criteria
GM criteria
All Enterococci Data
n=385
Clallam County Enterococci Data
n=46
BEACH Enterococci Data
n=339
Max=3875 Max=3873 Max=1616
0
50
100
150
200
250
300
Ent
eroc
occi
#/1
00 m
L
2010-2015 Enterococci Data by Year for the Strait of Juan de Fuca (Port Angeles)
10th %tile Minimum Geometric Mean Maximum 90th %tile
90th %tile criteria
GM criteria
2011n=85
2012n=50
2013n=49
2014n=56
2015n=88
2010n=57
Max=1616 Max=528 Max=3875Max=601
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Figure 36. Strait of Juan de Fuca sub-region (Port Angeles) summary statistics by wet and dry season for enterococci data, 2010-2015.
0
100
200
300
400
500E
nter
ococ
ci #
/100
mL
2010-2015 Wet and Dry Season Enterococci Data for Strait of Juan de Fuca (Port Angeles)
10th %tile Minimum Geometric Mean Maximum 90th %tile
90th %tile criteria
GM criteria
May - Septembern=318
Oct - Apriln=67
Max=3875 Max=1616
Page 43
Discussion
Data Coverage and Gaps To measure changes in bacterial water quality in the nearshore environment, sampling sites should be monitored consistently over a period of time. Table 10 describes the sampling objectives for 2010-2015 monitoring during by sub-region. Puget Sound wide, the most consistent ambient monitoring programs are state-led: the DOH Shellfish Program and Ecology’s BEACH Program (during the May-August period). The Shellfish Program data made up 74% of the available fecal coliform data, and the BEACH Program made up 85% of the enterococci data. While the Shellfish Program data set is part of a consistently funded monitoring program, the BEACH monitoring is funded by grants, an inconsistent funding source which leads to both spatial and temporal data gaps. Counties that collected nearshore marine bacteria data were Kitsap and King Counties. Generally cities, even Phase I and II permittees, did not collect nearshore bacteria data. In the Strait of Georgia sub-region, the Lummi Nation and Nooksack Indian Nation conducted some ambient monitoring during the periods detailed in Table 10. While the DOH Shellfish Program collects most of the marine nearshore bacteria data, their monitoring efforts are focused in shellfish areas that are usually located in non-urban areas. Figure 37 presents a portion of the DOH Shellfish area map, including areas closed due to pollution. Much of the densely populated urban areas, such as the eastern central shoreline of Puget Sound from Tacoma to Everett, and Budd Inlet, are closed to shellfish harvesting due to sewage treatment outfalls and concerns about contamination from urban stormwater runoff. While these areas are important to monitor for the stormwater program, they are not sampled by the DOH Shellfish Program.
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Table 10. Marine nearshore monitoring entities, sample period, FIB, and sampling objective. Sub-region and Entity Years Months (general) Bacteria Type Sampling Objective
South Puget Sound DOH Shellfish Program 2010-2015 Jan-Dec Fecal coliform Ambient BEACH Program 2010-2015 May-Aug Enterococci Ambient East Central Puget Sound DOH Shellfish Program 2010-2015 Jan-Dec Fecal coliform Ambient King County 2010-2015 Jan-Dec Fecal coliform Ambient BEACH Program 2010-2015 May-Aug Enterococci Ambient King County 2010-2015 Jan-Dec Enterococci Ambient West Central Puget Sound DOH Shellfish Program 2010-2015 Jan-Dec Fecal coliform Ambient Kitsap County 2010-2015 Jan-Dec Fecal coliform Ambient BEACH Program 2011-2013 May-Sept Fecal coliform Source ID
City of Bainbridge Island 2014 Jan-March Fecal coliform Storm Event/Source Identification
BEACH Program 2010-2015 May-Aug Enterococci Ambient North Puget Sound DOH Shellfish Program 2010-2015 Jan-Dec Fecal coliform Ambient BEACH Program 2010-2011 May-Aug Fecal coliform Source ID BEACH Program 2010-2015 May-Aug Enterococci Ambient BEACH Program 2015 Apr-Oct Enterococci Source ID Tulalip Tribe 2010-2013 Jan-Dec Enterococci Source ID Strait of Georgia DOH Shellfish Program 2010-2015 Jan-Dec Fecal coliform Ambient
BEACH Program 2010-11, 2013-14 Various dry season months Fecal coliform Source ID
City of Anacortes 2015 Jan, Nov Fecal coliform Sanitary Overflow City of Bellingham 2011-2014 Jan-Dec Fecal coliform Baseline Lummi Nation 2010-2014 Jan-Dec Fecal coliform Ambient, some storm event Nooksack Indian Nation 2012-2015 Jan-Dec Fecal coliform Ambient Samish Indian Nation 2011-2015 Varying months Fecal coliform Ambient Whatcom MRC 2015 Feb-Nov Fecal coliform Trend Monitoring BEACH Program 2010-2015 May-Aug Enterococci Ambient BEACH Program 2010-2015 Additional months Enterococci Source Identification Lummi Nation 2010-2014 Jan-Dec Enterococci Ambient Nooksack Indian Nation 2012-2015 Jan-Dec Enterococci Ambient Lummi Nation 2010-2014 Jan-Dec E-coli Ambient Nooksack Indian Nation 2012-2015 Jan-Dec E-coli Ambient Strait of Juan de Fuca BEACH Program 2010-2015 May-Aug Enterococci Ambient Clallam Co. Streamkeepers 2011, 2013, 2015 Wet season months Enterococci CSO Monitoring
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Sub-region data gaps, 2010-2015 For the South Puget Sound sub-region, there were very few data points for the Budd Inlet marine shoreline. All data for this sub-region were from the DOH Shellfish Program or the BEACH Program. The Phase II entities in this sub-region – the cities of Olympia, Lacey, Steilacoom, DuPont, and University Place and also Thurston County – did not have nearshore marine bacteria data for this period. The East Central Puget Sound sub-region had good data coverage from Federal Way to Des Moines, but no data were available for a majority of the Tacoma Narrows shoreline or the Port of Tacoma area. From north of Des Moines to Everett, portions of the nearshore have data but coverage is sparse. Data sources in this sub-region include state programs and King County (Table 10). Phase I and II permittees in this sub-region include: King County, portions of Pierce and Snohomish counties, and the cities of Tacoma, Seattle, Burien, Federal Way, Des Moines, Lynnwood, Normandy Park, and Shoreline. For the West Central Puget Sound sub-region, there is good nearshore bacteria-data coverage for Kitsap County and Bainbridge Island. Both the DOH Shellfish Program and Kitsap County have ongoing sampling programs in this area. There are data gaps along the northern shoreline of Sinclair Inlet. No data were available from Gig Harbor, Poulsbo, or Port Orchard (Phase II cities); Kitsap County samples these areas. For the North Puget Sound sub-region, some areas such as Similk Bay and portions of Skagit Bay had good data coverage. There are few data for the City of Everett area. The northern portion of Snohomish County and Oak Harbor in Island County has good data coverage. Data were collected by the state programs and the Tulalip Tribe. No data were available from North Puget Sound Phase II cities, Everett and Oak Harbor, or from Snohomish and Island Counties. For the Strait of Georgia sub-region, there are some data available from the Phase II permittee cities, Anacortes and Bellingham. Bellingham has some minimal data coverage (n=78); most of their bacteria data are available through the BEACH Program. Many of the Skagit and Whatcom County shellfish bays have good data coverage (e.g., Samish, Lummi, and Birch Bays and Drayton Harbor). Padilla Bay has minimal data coverage. A variety of entities collected bacteria data for 2010-2015, with the state programs collecting the majority of data for this period. The Lummi Nation collected data in northern Bellingham Bay. Some data were also available from the Nooksack Tribe, Lummi Nation, City of Bellingham, City of Anacortes, and Whatcom marine resource committee. No data were available from the Phase II permittees, Skagit and Whatcom Counties. For the Strait of Juan de Fuca Data sub-region, only data for the area around the Phase II permittee, Port Angeles, was gathered. Bacteria data for Port Angeles are clustered around the Hollywood beach, Peabody Creek area. Most data were collected for the BEACH Program and are for the dry period. Some wet season data from Clallam County are available. Better coverage of the nearshore area, along with wet season data, are desirable. No data were available from the City of Port Angeles or Clallam County for the Phase II permit area.
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Summary Statistics Summary statistics were calculated for all available bacteria data for each sub-region. While this information is interesting, it is not definitive in determining nearshore marine bacteria concentrations. There may be several reasons for this:
• The amount of data varied between entities and sub-regions.
• The goal of the sampling may be different for each entity’s sampling program. For example, the DOH Shellfish Program and Ecology’s BEACH monitoring are ambient monitoring programs; bacteria levels for these programs tended to show lower levels in each sub-region. Some monitoring programs are to locate bacterial pollution sources; these programs tended to have higher bacteria levels. For example, the City of Bainbridge Island monitoring targeted storm events, and bacteria results were much higher than the ambient monitoring programs.
• The DOH Shellfish Program data set for each sub-region had the lowest bacteria levels. These lower bacteria levels could be due to the large data set, or because shellfish harvest areas are generally in rural, less populated areas. It may also be due to their sampling methodology; most of the DOH Shellfish Program sampling was done from a boat and may not be as representative of the nearshore as entities that sample using wading techniques.
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Figure 37. Department of Health (DOH) Shellfish Program Safety Map, November 2016. Brown area represents areas closed due to pollution. Key presented below.
Page 48
Recommendations
Additional Analysis for this Data Set
As a result of this analysis, the following are recommendations for Stormwater Work Group (SWG) consideration with the compiled dataset:
• Conduct additional statistical analysis on the current data set: o Classify each site as urban or rural, and conduct summary statistical analysis on those
two groups. o For sites with sufficient data, conduct individual site analysis. Determine which sites
have high bacteria levels.
• Compare the Kitsap County fecal coliform data set and the DOH Shellfish Program data set for the same areas to determine if there is a significant difference between the sampling regimes. Work with Kitsap County on this. In addition, conduct data review to determine average water depth of the DOH Shellfish Program stations.
Design Options for a Status and Trends Bacteria Study 1. When designing a status and trends nearshore bacteria monitoring program for stormwater,
the goals and objectives of the program need to be well thought out. Is this an ambient monitoring program or will it target specific stormwater sources and periods?
2. Focus on specific sites to consistently monitor. Because there is such a large area to cover (Phase I and II permittees in Puget Sound and the Straits), it is not possible to monitor all areas. One approach is to choose core monitoring sites that are monitored consistently over time.
3. Ensure consistent sampling methodology (i.e., wade-in versus from-a-boat) to ensure that the depth of the sample obtained is consistent for all sample events.
4. Focus on monitoring nearshore sites adjacent to small stream discharges or large stormwater discharge areas. In sampling for Ecology’s BEACH Program, these are the areas that have higher bacteria levels during and immediately after storm events, especially in densely populated urban areas.
5. Consider co-locating sites with DOH Shellfish Program sites and BEACH Program sites with large population areas.
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Appendices
Page 50
Appendix A. Nearshore Marine Bacteria Data Availability for 2010-2015
Agency Contacts Comments Sampling Objectives
Federal\State
USGS Tacoma Office Ken Frasl, Rick Dincola No nearshore marine data collected. n/a WA State Department of Natural Resources (DNR) Blain Reeves, Abby Barnes Does not have data with the exception of data they
collect for DOH which is entered into the DOH database. n/a
WA Department of Fish & Wildlife (WDFW) Camille Speck, Jennifer Lanksbury No surface water (SW) bacteria monitoring data
collected. n/a
WA State Department of Agriculture Joel Demory, Virginia Prest No nearshore marine data collected. n/a WA State Department of Transportation (WSDOT) Richard Gersib No nearshore marine data collected. n/a
WA State Department of Health (DOH), Shellfish Program Lawrence Sullivan, Jean Snyder Has fecal coliform data for shellfish areas in Puget
Sound. Ambient monitoring in shellfish bed areas
WA State Department of Ecology (Ecology) BEACH Program Julianne Ruffner Bacteria data available for recreational beaches in Puget
Sound.
Ambient monitoring for BEACH in recreational swim areas during the swim season
Ecology’s Padilla Bay National Estuarine Research Reserve Susan Wood
Marine station at Bayview State Park sampled monthly or quarterly by local stream team. Data do not meet data quality objectives.
Ambient monitoring.
Counties (including departments dealing with stormwater, surface water, and public health)
Clallam County Sue Waldrip and Carol Creasey BEACH Program sampling and Streamkeeper Volunteer sampling. n/a
King County Wendy Eash-Loucks, Kimberle Stark 20 beach\nearshore stations are sampled monthly for enterococcus and fecal coliform. Ambient monitoring
Kitsap County Jim Zimney, Stuart Whitford, Eva Crim, Mindy Fohn, Shawn Ultican Collecting nearshore marine data countywide since 1996. Ambient monitoring
Pierce County Carla Vincent, Barbara Smolko, Ray Hanowell
BEACH Program sampling; some samples taken after sewage spills.
Sampling to determine bacteria levels after sanitary overflows
Skagit County Jeanne King, Karen Dubois No nearshore marine data collected. n/a
Snohomish County Jeff Hutchinson Only nearshore monitoring is through BEACH Program volunteers, Beachwatchers. n/a
Thurston County Allison Osterberg, Jane Mountjoy-Venning Only nearshore monitoring is through BEACH Program. n/a
Whatcom County Austin Rose, Erika Douglas, Tom Kunesh
MRC conducts fecal coliform sampling at 12 sites; County samples 4 stations in Drayton Harbor; Health Department samples nearshore for BEACH Program.
Drayton Harbor ambient monitoring (not included outside permittee area)
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Cities
Anacortes John Franz Some sample data after sanitary overflows. Sampling to determine bacteria levels after sanitary overflows
Bainbridge Island Cami Apfelbeck, Jim Zimny City has 2014 targeted storm-event sampling data for nearshore. County collects nearshore marine data. Storm event sampling
Bellingham Sara Brooks BEACH sampling and limited sampling of pocket estuary.
Pocket estuary limited baseline sampling
Bremerton Kitsap County conducts ambient monitoring every other month. Monitoring/a
Burien Valerie Stuart No nearshore marine data collected. n/a
Des Moines Loren Reinhold No nearshore marine data collected. n/a
DuPont Scott Hein No nearshore marine data collected. n/a
Edmonds Mike Cawrse Nearshore sampled during sewage treatment plant or infrastructure issue.
Sampling to determine bacteria levels after sanitary overflows
Everett Mike Papa No nearshore marine data collected. n/a
Federal Way Tony Doucette No nearshore marine data collected. n/a
Gig Harbor Darrell Winans No nearshore marine data collected. n/a
Lacey Julie Rector No nearshore marine data collected. n/a
Lynnwood Jerrod Vonn No nearshore marine data collected. n/a
Normandy Park Steve Pastor No nearshore marine data collected. n/a
Oak Harbor Steve Bebe No nearshore marine data collected. n/a
Olympia Michelle Stevie No nearshore marine data collected. n/a
Port Angeles Katherine Neil No nearshore marine data collected. n/a
Port Orchard Stuart Whitford No nearshore marine data collected, Kitsap County conducts nearshore monitoring. n/a
Poulsbo Anya Hart, Jim Zimny No nearshore marine data collected, Kitsap County conducts nearshore monitoring. n/a
Seattle Jonathan Frodge No nearshore marine data collected. n/a
Shoreline Uki Dele No nearshore marine data collected. n/a
Steilacoom Mark Burlingame No nearshore marine data collected. n/a
Tacoma Lorna Mauer No nearshore marine monitoring except through BEACH Program. n/a
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University Place Gary, Public Works No nearshore marine data collected. n/a
Ports
Port of Seattle Marilyn Guthrie No nearshore marine data collected. n/a
Port of Tacoma Anita Fichthorn No nearshore marine data collected. n/a
Tribal
Jamestown S’Klallam Tribe Lori Delorm No nearshore marine data collected, some data collected for DOH Shellfish Program. n/a
Lummi Nation Jeremy Freimund Sampling for fecal coliform, E. coli, and enterococcus bacteria.
Ambient monitoring, some storm event sampling
Nisqually Tribe Margaret Homerding No nearshore marine monitoring, some data collected for DOH Shellfish Program. n/a
Nooksack Tribe Jezra Beaulieu Sampling for fecal coliform, enterococci, and E.coli at five nearshore sites in Birch Bay and Semiahmoo Spit. Ambient monitoring
Northwest Indian College Emma Norman, Marco Hatch No nearshore marine data collected. n/a
NW Indian Fisheries Commission Todd Bolster No information. n/a
Port Gamble S’Klallam Tribe Paul McCollum No nearshore marine monitoring, collects some data for DOH Shellfish Program. n/a
Puyallup Tribe George No nearshore marine monitoring, collects some data for DOH Shellfish Program. n/a
Samish Indian Nation Todd Woodard Three sites in Fidalgo Bay. Ambient monitoring
Skokomish Tribe Seth Book No nearshore marine monitoring, collects some data for DOH Shellfish Program. n/a
Squaxin Island Tribe Erica Marblet No nearshore marine data collected. n/a
Stillaguamish Tribe Franchesca Perez No nearshore marine monitoring, collects some data for DOH Shellfish Program. n/a
Suquamish Tribe Luke Kelly No nearshore marine data collected. n/a
Swinomish Tribe Julie Barber, Todd Mitchell No nearshore marine monitoring, collects some data for DOH Shellfish Program. n/a
Tulalip Tribe Mike McHugh No nearshore marine monitoring, collects some data for DOH Shellfish Program. n/a
Conservation Districts (CDs)
Clallam CD No nearshore marine data collected. n/a
Jefferson County CD Craig & Jerry No nearshore marine data collected. n/a
King CD No nearshore marine data collected. n/a
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Kitsap CD No nearshore marine data collected. n/a
Mason CD No nearshore marine data collected. n/a
Pierce CD No nearshore marine data collected. n/a
San Juan Islands CD No nearshore marine data collected. n/a
Skagit CD Christy No nearshore monitoring program, sample mouth of Samish River every other month, Skagit County has data. n/a
Snohomish CD Alex No nearshore marine data collected. n/a
Thurston CD Stephanie Bishop No nearshore marine data collected. n/a
Whatcom CD Anika Sweeny No nearshore marine data collected. n/a
Whidbey Island CD Bruce No nearshore marine data collected. n/a
Other
Clallam County Streamkeepers Ed Chadd Sampling of CSO discharge periods. CSO monitoring project
Harbor Wildwatch Stena Troyer Some sampling with Surfriders; data do not meet data quality objectives. n/a
Nooksack Salmon Enhancement Assn Annitra Peck Sampling of Terrell Creek mouth, monthly for two years. Ambient monitoring Northwest Straits Commission, Marine Resource Committees (MRC) Lucas Hart No wide range MRC surveys for bacteria; may be some
data for the Whatcom MRC. n/a
Pacific Shellfish Institute (nonprofit organization) Andy Suhrbrier No nearshore marine data collected. n/a
South Sound Estuary Association Diana Larsen-Mills No monitoring data. n/a
Surfrider Brice Boland Some chapters monitor through BEACH Program; other sampling does not meet data quality objectives. n/a
Univ. of Washington (UW) Tacoma Jim Gawel No nearshore monitoring for 2010-2015. n/a
UW Sea Grant Teri King No nearshore monitoring for 2010-2015. n/a
UW Tacoma Center for Urban Waters Joel Baker, Andy James No nearshore monitoring for 2010-2015. n/a
Western Washington Univ. (WSU) John Rybczyk, Erika McPhee-Shaw No nearshore monitoring for 2010-2015. n/a
Whatcom MRC Austin Rose Five marine sites for Chuckanut Bay Trend monitoring
WSU Beach Watchers Chrys Bertolotto Monitoring through BEACH Program. n/a
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Appendix B. Glossary, Acronyms, and Abbreviations
Glossary
Enterococcus: A genus of bacteria that inhabit the intestinal tract of warm-blooded animals and remain viable (alive and capable of infecting another organism) in water for a variable period of time. The presence of Enterococcus in water indicates fecal contamination by a warm-blooded animal; harmful bacteria, viruses, or protozoa associated with fecal contamination may also be present.
Escherichia coli (E. coli): A species of bacteria that inhabit the intestinal tract of warm-blooded animals and remain viable (alive and capable of infecting another organism) in water for a variable period of time. While E. coli are normally harmless and live in the intestines of healthy people and animals a few strains may cause illness. The presence of E. coli in water indicates fecal contamination by a warm-blooded animal; harmful bacteria, viruses, or protozoa associated with fecal contamination may also be present.
Fecal coliform: That portion of the coliform group of bacteria which is present in intestinal tracts and feces of warm-blooded animals as detected by the product of acid or gas from lactose in a suitable culture medium within 24 hours at 44.5 plus or minus 0.2 degrees Celsius. Fecal coliform bacteria are “indicator” organisms that suggest the possible presence of disease-causing organisms. Concentrations are measured in colony forming units per 100 milliliters of water (cfu/100 mL).
Geometric mean (GM): A mathematical expression of the central tendency (an average) of multiple sample values. A geometric mean, unlike an arithmetic mean, tends to dampen the effect of very high or low values, which might bias the mean if a straight average (arithmetic mean) were calculated. This is helpful when analyzing bacteria concentrations, because levels may vary anywhere from 10 to 10,000 fold over a given period. The calculation is performed by either: (1) taking the nth root of a product of n factors, or (2) taking the antilogarithm of the arithmetic mean of the logarithms of the individual values.
Pollution: Contamination or other alteration of the physical, chemical, or biological properties of any waters of the state. This includes change in temperature, taste, color, turbidity, or odor of the waters. It also includes discharge of any liquid, gaseous, solid, radioactive, or other substance into any waters of the state. This definition assumes that these changes will, or are likely to, create a nuisance or render such waters harmful, detrimental, or injurious to (1) public health, safety, or welfare, or (2) domestic, commercial, industrial, agricultural, recreational, or other legitimate beneficial uses, or (3) livestock, wild animals, birds, fish, or other aquatic life.
Stormwater: The portion of precipitation that does not naturally percolate into the ground or evaporate but instead runs off roads, pavement, and roofs during rainfall or snow melt. Stormwater can also come from hard or saturated grass surfaces such as lawns, pastures, playfields, and from gravel roads and parking lots.
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90th percentile: A statistical number obtained from a distribution of a data set, above which 10% of the data exists and below which 90% of the data exists.
Acronyms and Abbreviations
BEACH Beach Environmental Assessment, Communication, and Health CD Conservation District CSO Combined Sewer Overflow DOH Washington State Department of Health E-coli Escherichia coli bacteria Ecology Washington State Department of Ecology e.g. For example EPA U.S. Environmental Protection Agency FC Fecal coliform bacteria FIB Fecal indicator bacteria GIS Geographic Information System software GM Geometric mean MRC Marine Resource Committee RSMP Regional Stormwater Monitoring Program SOP Standard operating procedures SWG Stormwater Work Group UGA Urban growth area USGS U.S. Geological Survey WRIA Water Resource Inventory Area