RESEARCH ARTICLE

Soundwatch: Eighteen years of monitoring
whale watch vessel activities in the Salish Sea
Elizabeth Seely1☯*, Richard W. Osborne2‡, Kari Koski1‡, Shawn Larson1☯
1 The Whale Museum, Friday Harbor, Washington, United States of America, 2 University of Washington,
Olympic Natural Resources Center, Forks, Washington, United States of America

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OPEN ACCESS
Citation: Seely E, Osborne RW, Koski K, Larson S
(2017) Soundwatch: Eighteen years of monitoring
whale watch vessel activities in the Salish Sea.
PLoS ONE 12(12): e0189764. https://doi.org/
10.1371/journal.pone.0189764
Editor: Songhai Li, Institute of Deep-sea Science
and Engineering, Chinese Academy of Sciences,
CHINA
Received: January 27, 2017
Accepted: December 1, 2017
Published: December 22, 2017
Copyright: © 2017 Seely et al. This is an open
access article distributed under the terms of the
Creative Commons Attribution License, which
permits unrestricted use, distribution, and
reproduction in any medium, provided the original
author and source are credited.
Data Availability Statement: All relevant raw data
for vessel incident types and vessel counts from
1998-2015 (the minimal underlying data set for
this study) are available in the Supporting
Information files. Further in-depth data sets
(including vessel counts, vessel incidents, vessel
contacts and kayak counts) and end of year reports
are available to the public through NOAA’s
Northwest Fisheries Science Center at https://www.
nwfsc.noaa.gov/. Additionally, The Whale
Museum’s NOAA Contract Reports from 2011–
2015 are available online at https://whalemuseum.

☯ These authors contributed equally to this work.
‡ These authors also contributed equally to this work.
* elizabeth@whalemuseum.org

Abstract
The Soundwatch Boater Education Program is a vessel monitoring and public education
outreach program. Soundwatch has been run by The Whale Museum (TWM) during the
whale watch season (May through September) in the Haro Strait Region of the Central
Salish Sea since 1993. Data collection has been in a consistent manner since 1998 and is
presented here. The program compiles data on vessel types and vessel interactions with
marine mammals with a focus on the Southern Resident killer whale (SRKW), Orcinas orca,
which was listed as endangered under the U.S. Endangered Species Act (ESA) in 2005.
The primary goal of the Soundwatch program is to reduce vessel disturbance to SRKWs
and other marine wildlife through the education of boaters on regional, local and federal
guidelines and regulations and the systematic monitoring of vessel activities around cetaceans. Since 1998, the number of active commercial whale watching vessels has increased
over time; ranging from a low of 63 in 1999, to a high of 96 in 2015. In addition, the number
of vessel incidents or violation of regulations and guidelines has also increased; ranging
from a low of 398 in 1998 to a high of 2621 in 2012. Soundwatch collected data on 23 incident types, some remaining the same over the 18-year data set and some changing over
time. The most common incidents over the 18 years were “Within 880 m of Lime Kiln” and
“Crossing the path of whales”. The numbers of people kayaking near whales also significantly increased since 2004 with the incident “kayaks spread out” with a significantly
increasing trend making it difficult for whales to avoid vessels. These results suggest a need
for further outreach for effective education and enforcement of whale watching guidelines
and regulations in the Central Salish Sea.

Introduction
Killer whales or orcas, Orcinas orca, are one of the most widely distributed marine mammals,
found worldwide in every ocean [1, 2]. They are most abundant in nearshore colder waters but
also occur, at lower densities, in tropical, subtropical, and offshore waters [3, 4]. Killer whales
are highly social animals that occur primarily in stable matriarchal social groups (pods) that
range in size from two to dozens of animals [5, 6]. Larger groups, containing several hundred

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org/pages/soundwatch-boater-education-program.
If additional raw data is requested, it can be
requested freely through a data agreement from
The Whale Museum, Friday Harbor, Washington.
There is a large amount of additional data that
requires staff members’ time to sort and filter. This
data is available to any member of the public via
The Soundwatch Boater Education Program
Coordinator, who can be contacted at
soundwatch@whalemuseum.org.
Funding: This work was supported by National
Marine Fisheries Science Center (NOAA): 5 year
Contract Number RA-133F-12-CQ-0057, ES and
KK. The funders had no role in data collection and
analysis, decision to publish or preparation of the
manuscript. Funders provided financial support to
complete the survey days on the water and to
complete annual contract reports at the end of
each year; www.nmfs.noaa.gov, ES, KK. This work
was also supported by Section 6 Endangered
Species Act Grant: Joint Grant with Washington
State Fish and Wildlife. The funders had no role in
data collection and analysis, decision to publish, or
preparation of the manuscript. Funders provided
financial support for survey days on the water,
printing of education materials and annual data
analysis. Some of the data analysis from each
season has been included in the manuscript. The
grant can be viewed at the following link: https://
www.fws.gov/endangered/grants/index.html, ES.
The Soundwatch Boater Education Program also
receives small quantities of monetary funding from
private donations.
Competing interests: The authors have declared
that no competing interests exist.

individuals occasionally form, are called super pods, and are considered temporary groupings
[5, 6]. Three distinct types in the Northeast Pacific are recognized and named for their movement patterns: resident, transient, and offshore [7, 8]. The three types also differ in morphology, ecology, behavior, and genetics [8–13]. All three types are sympatric, being found in the
same area and with partially overlapping home ranges but they are not known to breed,
socially interact or socially communicate with one another [8, 12, 14]. The resident and transient types have multiple populations or family groups within their range. All three have different diet preferences with offshore orcas feeding on fish and sharks, transient orcas feeding on
marine mammals and resident orcas feeding primarily on fish, particularly king or chinook
salmon, Oncorhynchus tshawytscha [15–18]. The name resident killer whales suggest they stay
within local home ranges year- round, yet they are known to travel seasonally far from home
[19, 20].
The most studied resident killer whale population in the world is the Southern Resident
killer whales (SRKW) in the Salish Sea region of Washington State, U.S.A. and British Columbia, Canada [21]. The Southern Resident killer whales are comprised of three pods: J, K, and L
pods [5, 19]. They are considered one "stock" under the U.S. Marine Mammal Protection Act
(MMPA) and one "distinct population segment" under the U.S Endangered Species Act (ESA)
[20, 21]. The SRKW population size has hovered around 80 whales since 2005, a decline from
its estimated historical size of approximately 200 during the late 1800s [21]. The lowest
recorded population level was 67 in 1971 due to the live-capture of SRKWs for oceanarium
display beginning in the late 1960s causing an estimated 30% decrease in the population [22].
Due to several factors including their sustained small population size, qualification as a distinct
population segment, prey scarcity, exposure to organic pollutants, vulnerability to oil spills,
and increased exposure to vessel traffic and noise, the SRKW population was listed as endangered under the ESA in 2005 [20, 21].
The Whale Museum (TWM) was founded in 1976 with the focus to study, conserve and
promote the conservation of the SRKW population in the Salish Sea. The museum, which
opened in 1979, is in Friday Harbor on San Juan Island and is a 501(c)(3) nonprofit organization. The museum’s ongoing mission is to promote stewardship of whales and the Salish Sea
ecosystem through education and research. The research data collected, compiled and
archived by TWM on whale watch and other vessel trends in association with SRKWs was
instrumental in helping determine the SRKWs ESA status [20, 23, 24].
The SRKWs are not only an important part of the marine ecology of the Salish Sea but they
are also economically important for the region. Whale watching in the Salish Sea has grown to
become a $40–50 million industry [25]. The Whale Museum estimates that annually more
than 500,000 people go whale watching on commercial and/or private recreational vessels in
the trans-boundary waters of Washington and British Columbia [26]. Whale watching provides people with an opportunity to learn about and appreciate marine wildlife. The conservation rationale for whale watching is the theory that as more people become aware of the
importance of marine ecosystems and the animals that inhabit them, increasing numbers of
them will work to help preserve them [27, 28]. However, it is important that the large numbers
of people who watch and enjoy whales and other marine animals in the wild don’t disrupt the
animals’ behavior, environment and life history activities [29–31].
The Soundwatch Boater Education Program was started in 1993 for data collection by
TWM as a stewardship activity to provide an educational presence on the water near whale
watching activities. Annual data collection by the Soundwatch team began in 1993 but was not
systematically collected across years until 1998. In 2004, the staff created data collection protocols with the National Oceanic and Atmospheric Association (NOAA), the Department of
Fisheries and Oceans (DFO) from Canada, and the Canadian Straitwatch Program [32]. The

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 Soundwatch: Monitoring vessel activities

goal of the program was to reduce vessel disturbance to SRKW and other marine wildlife. This
goal is met by providing systematic monitoring of vessel activities around cetaceans and
through boater education on regional guidelines and state/federal regulations from San Juan
County, Washington Department of Fish and Wildlife (WDFW), NOAA, and DFO. The data
focuses on whale watching vessel trends, vessel incident trends, and private recreational boater
education in the Haro Strait region from 1998–2015. The main question we address here is)
Have whale watching vessel numbers and vessel incidents from all types of vessels increased
over time?

Materials and methods
Boats
Soundwatch monitoring vessels were on the water gathering data on vessel numbers, vessel
interactions with marine mammals and educating boaters between 1998 and 2015 from MaySeptember, 10am-5pm, during the whale watch season in the Haro Strait region of the Salish
Sea (Fig 1). Soundwatch’s effort on the water has been consistent over the years however day
to day time on the water may vary slightly due to weather conditions and other variables outside of Soundwatch’s control such as vessel breakdowns. Total hours on the water by Soundwatch each year is reported in Table 1. Soundwatch monitoring vessels have varied through
the years and in 2015 was two vessels, a 1993, 5.2 m (17 foot) American Eagle vessel with an
outboard four stroke motor with a capacity to hold four people and a 2002, 5.79m (19 foot)
Safe Boat with an inboard diesel engine with a capacity for five people. Each vessel was manned
by a minimum of an educator/driver and an intern to gather data and may include 2 additional
staff, interns or volunteers. All data was collected under the direction of the staff educator/
driver. Interns and volunteers help with data entry, photography, etc.

Protocol
Soundwatch documented all vessels in the central Salish Sea near whales and categorizes the
commercial vessels as active, occasional, rare or inactive Active vessels were defined as those
observed operating more than one day per week during the whale watch and Soundwatch season: May-September. The other categories are one day a week or less, one or two times a
month, or once every few months, respectively [24, 25, 33–35]. Soundwatch’s protocol when
approaching recreational vessels traveling in known whale or other wildlife areas was as follows: Politely initiate communication with the boater to provide marine wildlife viewing
guidelines and regulations as well as to collect information on the vessel and the number of
passengers [36]. Throughout the years, Soundwatch has distributed education material that
summarized the guidelines and regulations, marine mammal protection areas and whale identification guides. Currently, the primary educational material in distribution was developed by
TWM in partnership with local non-government organizations (NGOs) (The Whale Trail,
OrcaNetwork, Killer Whale Tales, Whale Scout, etc), international NGOs (BC Sightings Network), federal governments (DFO and NOAA), state government (WDFW), and the Pacific
Whale Watching Association (PWWA) resulting in what is now the current “Be Whale Wise
Marine Wildlife Guidelines for Boaters, Paddlers and Viewers” that includes the Washington
State and U.S. Federal Laws and Regulations for boating around killer whales (S1 Fig and S2
Fig) [36]. Soundwatch also encountered recreational kayakers in a similar manner to communicate the special concerns for kayakers paddling around marine wildlife, distributing the
material above as well as another educational guide developed by TWM specifically for kayakers, the “Be Whale Wise Soundwatch Kayak Education and Leadership Program” card (S3 Fig
and S4 Fig).

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 Soundwatch: Monitoring vessel activities

Fig 1. Map of region where Soundwatch collected data.
https://doi.org/10.1371/journal.pone.0189764.g001

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 Soundwatch: Monitoring vessel activities

Table 1. Soundwatch 1998–2015 all incident types over time.
Incident type

2007

2008

2009

2010

2011

2012

2013

143

245

150

5

0

0

0

0

0

0

0

0

0

0

0

0

0

0

24

31

32

21

13

45

66

95

154

163

170

334

128

194

105

207

219

115

•Stopped within
0–100 m of whales

410

210

150

326

180

•Under power within
100–200 m of whales

274

262

328

273

131

•Stopped within 100–
200 m of whales

450

393

127

377

213

•Leapfrogging
Under power within
0–100 m of whales

Within 440 m of SJI
No-Boat Zone

1998 1999 2000 2001 2002 2003 2004 2005 2006

2014 2015

155

205

111

90

18

48

31

76

51

54

84

221

106

163

157

53

2

33

14

16

13

6

5

18

7

19

12

31

14

77

42

31

52

31

25

33

7

25

33

10

10

26

43

38

64

86

56

118

53

61

183

226

208

49

Chasing/pursuing
whales

10

8

20

10

2

15

20

9

25

31

43

77

32

25

23

22

0

0

Inshore of whales

12

229

157

132

48

61

149

172

218

173

297

610

181

325

262

230

228

147

Airplane within 305
m

18

16

26

36

37

22

45

38

77

86

113

154

42

94

12

189

56

33

Within 200 m of
National Wildlife
Refuge

15

8

20

3

6

7

8

0

12

3

14

12

8

2

26

22

0

0

8

Within 880 m of Lime
Kiln
Crossing path of
whales

•Other

20

53

36

18

109

105

127

31

28

25

16

0

26

33

10

0

•Within 220 m of
shore; whales
present

26

21

1

3

30

9

26

21

5

20

10

25

52

22

0

0

•Repositioning
within 100 m

45

36

•In the Path (formerly
Parked in the path of
whales)

129

•Fast within 400 m

2
63

63

137

258

333

184

355

488

245

202

419

396

434

425

6

15

65

95

141

173

156

334

138

157

210

100

199

180

10

7

9

14

13

21

42

51

42

46

105

16

86

32

•Kayaks spread out

2

11

0

9

10

13

14

13

10

11

52

20

26

32

•Kayaks with whales
outside 1/4 SJI Zone
(440 m)

2

3

2

9

8

5

14

23

9

5

26

11

9

0

11

3

9

10

10

14

15

5

10

15

8

10

16

15

26

12

21

16

5

1

0

0

•1st Approach head
on, behind, or on
shore

•Kayaks paddling w/
in 0–100 m
•Kayaks paddling w/
in 100–200 m
•Kayaks parked on
headland
Total Observed
Incidents

398

791

653

533

259

373

761

957

Total SW Monitoring
Hours with whales
present

426

510

426

486

378

312

486

564

1,281 1,085 1,419 2,572 1,067 2,500 2,621 2,234 2,509 1,635
516

420

540

420

442

573

306

331

425

393

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Every time a recreational vessel was contacted, specific contact information was recorded
on a Soundwatch Vessel Contact data sheet (S5 Fig). Soundwatch crews recorded the date,
time, location, type of vessel contacted, the vessel activity, vessel registration, name, description, port of origin, and number of passengers on board. Soundwatch observers collect a series
of vessel operator attributes such as: Why the vessel was contacted; whether they took the
information and, if not, why; whether they were aware of the information; their best fit reaction to Soundwatch; whether this vessel has been contacted by Soundwatch before; if there was
a Soundwatch observed vessel incident recorded with this vessel before or after contact, if so
the time of the incident is recorded; if there were photos of this vessel, planned length of visit
to the islands and any other relevant comments (S5 Fig). Soundwatch also collects data on
non-motorized recreational vessels such as kayaks and paddleboards within 0.8km of cetaceans and uses the same contact form described above. Data collection on these types of recreational vessels launching specifically from the San Juan County Park was done through a
boater self-reporting system required by San Juan County Parks and was incorporated into the
Soundwatch database at the end of each season.
Surveys or counts of whales and a count of vessels within one km of whales were collected
every 30 minutes using the Soundwatch Vessel Count/Whale Survey data sheet (S6 Fig).
Soundwatch recorded whale and all vessel data using a set of standardized vessel activity definitions as well as whale attributes agreed upon by U.S. and Canadian cetacean researchers [5,
11, 37]. Vessels within 0.8 km of whale activity and the cetacean(s) of interest, were counted
according to type and vessel activity. Range finding tools such as laser range finders, electronic
radar and chart plotters as well as high-power binoculars were used to gauge distances. In all
cases, Soundwatch staff were instructed to use the best available data collection techniques and
equipment to accurately determine distance to not bias results towards a vessel incident or to
include more vessels in a count within 0.8 km of a whale when determining distances. The
area of whale presence and boat presence near whales was variable and not limited to 0.8 km,
but rather represented the core of individual whales or groups of whales in the immediate area
and could range upwards of two kilometers.
Each observed vessel within the count range was categorized according to a vessel type and a
specific best-fit vessel activity to describe what the vessel was engaged in. Vessel activity categories
included transiting (moving through the area within 0.8 km); whale oriented (moving or stationary whale watching); fishing (moving or stationary with poles or nets in the water); research
(engaged in any type of research); enforcement (enforcement vessel in pursuit or engaged with a
vessel at the time of the count); acoustic (outside of the count range one km, but in acoustic/visual
range); or other (which must be described, such as a rescued vessel in tow, etc.) (S6 Fig).

Vessel incident observations
Soundwatch recorded vessel incidents on a separate sheet (S7 Fig). Soundwatch used an adaptive management approach (i.e., changing guidelines annually to meet changing vessel/whale
conditions). All incidents occurred when any vessel was out of compliance with local/state/federal guidelines and U.S. regulations [23, 36]. To complicate total incident numbers over the
years there have been shifts in the types and numbers of vessel incident categories over time.
In 2011 there was one new incident category added to reflect the new U.S. federal vessel regulations: vessel within 100–200 m of whales (the second part of the new 2011 regulation; stopped
200–400 m in the path was captured in a previous guideline “parked in the path” incident category). With the addition of this one new incident category, it was now possible to record a single vessel as having two simultaneous incidents when the vessel is observed within 100 m of a
whale: 1- within 100 m and 2- within 200 m.

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The Soundwatch vessel was included in all vessel monitoring data and was accountable any
time it was out of compliance with any guideline and regulations including the updated Washington State and U.S Federal laws. Soundwatch staff recorded every time that the Soundwatch
vessel could have possibly been within 400 m ahead or within 0–200 m of killer whales. Since
the new 2011 U.S. federal vessel regulations, Soundwatch staff made a more targeted effort to
reach as many boaters as possible before those boaters found themselves out of compliance
with the new vessel regulations of “In the Path 0–400 m.” To further comply with regulations
and guidelines, Soundwatch began operating under its own specific NOAA Research permit in
2012, signified by a yellow permit flag (Permit No. 16160). This allowed for close approaches
to whales in some unavoidable circumstances and were reported via permit conditions and
annual reporting requirements. In years prior to 2012, Soundwatch educators/drivers operated
under NOAA research permits held by various partners to remain in compliance. The majority of the time, the Soundwatch vessel was well over 200 m to the side or beyond 400 m ahead
or behind whales to be in the best position to reach on-coming vessels before they encountered
whales.
Regression in the Real Statistics Resource Pack software (Release 5.1, www.real-statistics.
com) was used to determine significant trends over time.

Results and discussion
Number of vessels
Soundwatch’s cohesive data collection began in 1998, many years after organized commercial
whale watching tours in the Haro Strait region started in the mid 1970’s. In 1998, Soundwatch
documented 71 active whale watching vessels. Since then, the number of active commercial
whale watching vessels dropped to a low of 63 in 1999, and then reached a peak of 93 in 2015
(Fig 2), a significant increase over time (R2 = 0.44 P = 0.002).
The active commercial whale watch vessels in the Haro Strait region were composed of
approximately equal numbers of U.S and Canadian companies. Over time, the trend has been
with more Canadian vessels, totaling 57 active vessels compared to 36 U.S. active vessels. This
data includes vessels that are listed as occasional or inactive (93 active and 3 occasional inactive
boats). The majority of both U.S. and Canadian commercial companies operating in the transboundary waters were members of the PWWA, formerly Whale Watch Operators Association
Northwest (WWOAN). Canadian commercial vessels continue to be mostly smaller rigid hull
inflatable (RHIB) style vessels, while the U.S. fleet is made up mostly of larger passenger style
vessels. However, several Canadian companies have added large passenger style vessels, in

Fig 2. Soundwatch commercial vessel data 1998–2015. Reprinted from [23] under a CC BY license, with
permission from [The Whale Museum], original copyright [2015].
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addition to existing RHIB vessels, to their company fleets. Additionally, U.S. companies have
recently added small cruiser-style vessels to their existing fleet of larger passenger style vessels.
The trend recently has been for U.S. companies to operate small, cruiser type vessels, many of
them unmarked or minimally identified as commercial whale watching vessels.
Small commercial vessels such as kayaks, canoes and paddleboards add complexity to the
types of vessels observed with whales. In 2015 alone, there were 12,230 reported people kayaking equaling approximately 6,100 vessels with commercial whale watch companies from San
Juan County Park. Tracking only kayakers engaged in whale watch activities between 2012
and 2015, there has been a 30% increase in the number of kayakers with commercial whale
watching companies (Fig 3) including a corresponding increase in the number of kayak incidents (Table 1). Since 2004, when Soundwatch began tracking kayaks, there has been a significant upward trend in the annual number of commercial kayakers launched from San Juan
Island (R2 = 0.89 P<0.001).
Soundwatch found wide variability in the overall number and types of vessels with whales
and their activities on the water. This wide variability is a factor not only of month and time of
day, but also due to whale locations overlapping with vessels engaged in a variety of activities
such as fishing. For example, from 2011–2015, the first five years after the federal regulations
were put into place, the average percentage of vessel activities observed near whales were, 63%
whale oriented, 17% transiting, 12% fishing (commercial or recreational), 4% acoustic influence, >2% research, and >1% enforcement or monitoring. Of these activities, the average type
of vessels recorded from 2011 to 2015 were; 45% commercial whale watch vessels, 27% private
recreational vessels, 8% marine industry (shipping/cargo and commercial fishing), 6% monitoring vessels (Soundwatch), 7% kayaks, 1% government (enforcement and military), and 3%
research vessels. The majority (65%) of vessels observed within 0.8 km of whales were engaged
in whale watching activities. The highest densities of vessels within 0.8 km of whales occurred
in the same areas frequently used by SRKWs, within one kilometer near-shore along the west
side of San Juan Island (Fig 1). Over the time-period reported here there has been a significant
downward trend of active whale watching vessels within 0.8 km of whales suggesting compliance with whale watching regulations by active commercial companies (R2 = -0.37 P = 0.006,
Fig 4). The numbers of overall vessels within 0.8 km of SRKWs follows a bi-modal peak at
1100 and 1500 hours reflecting morning and afternoon commercial whale watching trips.
There are several factors that could explain the variability of vessels involved in whale
watching activities over the years. First, the vessels are whale oriented and TWM’s SRKW
sightings in the Haro Strait vary from year to year [38, 39]. Second, is that SRKWs sometimes
spend more time in smaller spread-out groups rather than in tight larger groups thus spreading out the number of whale watching vessels on each groups of whales. This would potentially

Fig 3. Increase in commercial kayaks participating in whale watching activities. Reprinted from [23]
under a CC BY license, with permission from [The Whale Museum], original copyright [2015].
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Fig 4. Annual maximums of vessel types accompanying SRKWs May-September 1998–2015.
Reprinted from [23] under a CC BY license, with permission from [The Whale Museum], original copyright
[2015].
https://doi.org/10.1371/journal.pone.0189764.g004

mean that Soundwatch was with a different group of whales that was out of sight of many of
the vessels and therefore would be unable to count all potential vessels whale oriented with
SRKWs [24, 36, 40, 41]. Finally, the variability in the number of vessels recorded with whales is
also reflected in the variability of other wildlife viewing opportunities. For example, in some
years when SRKW sightings have been low, there have been increased numbers of transient
killer whales (Orcinus orca), minke whales (Balaenoptera acutorostrata), humpback whales
(Megaptera novaeangliae), pacific white-sided dolphins (Lagenorhynchus obliquidens), gray
whales (Eschrichtius robustus), occasional fin whales (Balaenoptera physalus) and steller sea
lion (Eumetopias jubatus) haul outs, in the region also drawing both commercial and recreational whale watching vessels and kayaks [40–42].

Vessel incidents
Monitoring hours or effort by Soundwatch on the water varied each year due to a variety of
factors such as the number of days SRKWs spend in the Salish Sea, number of days other wildlife is observed in the Salish Sea, vessel maintenance and operability, fuel consumption and
weather. The 18-year average numbers of hours on the water was 442 hours, with a low of 306
in 2013 and a high of 573 in 2012, with no notable change over time (R2 = 0.05 p = 0.036)
(Table 1).
Soundwatch contacted nearly 1,000 recreational vessels each year between 1998–2011 to
hand out educational materials. Between 2011–2015 Soundwatch contacted an average of 550
vessels each year. During this time, the average number of people on board each vessel was 3.3,
with an average of 1,815 total recreational boaters reached each year for an approximate education of 9,000 boaters over five years. There were a number of reasons for the decrease in vessels
contacted during the last five years such as: different priority level for contacting vessels (if
they were behaving well Soundwatch didn’t contact them right away); Soundwatch didn’t try
to contact all recreational fishing vessels in high density areas because of the potential for
greater disturbance to the whales; less contact for vessels in violation of national wildlife refuge
distance; whales more spread out and fewer whale days in the Central Salish Sea; and more
enforcement vessel presence around whales. Since 2009, the yearly average of the recreational
vessels contacted stated they were unaware of the guidelines and laws for boating around killer
whales was 61%.
The top vessel incident types from 1998–2015 were as follows: vessels in the path of whales;
vessels motoring inshore of whales; vessels motoring within 100 m of whales; vessels stopped
within 100 m of whales; vessels motoring fast within 400 m of whales; and vessels motoring
within the 0.5 km voluntary no go zone (Table 1). The incident vessels within 200 m of whales

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Fig 5. Maximum number of vessels accompanying Orcas and total incidents per year. Reprinted from
[23] under a CC BY license, with permission from [The Whale Museum], original copyright [2015].
https://doi.org/10.1371/journal.pone.0189764.g005

was divided into two categories in 2011: 1- Stopped within 100–200 m of whales and 2- motoring under power within 100–200 m of whales (Table 1). The last two incident types are also
among the most common incident types (Table 1). Over the past ten years between 2006–
2015, private recreational vessels remain the most likely vessel type to commit all incidents
(60%), followed by Canadian commercial vessels (19%), U.S. commercial operators (11%),
kayakers (4%), monitoring (including Soundwatch), research vessels (2%), aircraft (2%), and
then other (2%).
The total numbers of incidents or vessels operating contrary to guidelines and regulations
has increased in the past 18 years from 398 in 1998 to 1635 in 2015 and with the highest number of vessel incidents recorded in 2012 with 2621 (Fig 5). The numbers of incidents types
used consistently all years increased significantly over time (R2 = 0.24 p = 0.04, Fig 6). The
numbers of incident types not used all years also increased significantly over time (R2 = 0.77
p<0.001) (Fig 7).
Incidents types used consistently over the 18 years peaked in 2009, the year with the largest
number of total incidents (1269), followed by smaller peaks for incident categories between
2011–2013 (701, 715, and 773 respectively) with many incident categories decreasing in 2015
(295) (Fig 6). In 2015, there was a noticeable change in the distribution and travel behavior of
the whales, possibly a reason for the decreased count of total incidents [43].
Totals for incident categories not used all years started going up significantly in 2009
(1303), decreased in 2010 (603), and then remained high from 2011–2015 (1906, 1431, 1990,
and 1340 respectively) (Fig 6).
Not every incident category increased over time. Only two incident categories used all years
significantly increased over time: Within 880 m of Lime Kiln (R2 = 0.34, p = 0.01) and In the
path of whales (R2 = 0.53, p<0.001). Incident types used all years that were not significantly
increasing were: Within 440 m of SJI no boat zone (R2 = 0.04, p = 0.40), Chasing/pursuing
whales (R2 = 0.03, p = 0.48), Inshore of whales (R2 = 0.20, p = 0.06), Airplane within 300 m
(R2 = 0.21, p = 0.054), and Within 200 m of National Wildlife Refuge (R2 = 0.002, p = 0.84).
The significantly increasing trends; Within 880m of Lime Kiln, and Within the path of whales
were likely due to the fact that this is an area with the highest numbers of vessels engaging in
whale watching activities.
There were more incident categories significantly increasing over time in the categories not
used all years. Those that increased over time were: Under power within 0–100 m of whales
(R2 = 0.51, p<0.001); In the Path (formerly Parked in the path of whales) (R2 = 0.63, p<0.001);
Fast within 400 m (R2 = .37, p = 0.02); and 1st Approach head on, behind, or on shore (R2 =
0.42, p = 0.01). Categories not used all years that did not increase were: Repositioning within
100 m (R2 = 0.21, p = 0.09); Stopped within 0–100 m of whales (R2 = 0.32, p = 0.85); Under

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Fig 6. Incident trends from categories used from 1998–2015.
https://doi.org/10.1371/journal.pone.0189764.g006

power within 100–200 m of whales (R2 = 0.47, p = 0.30); Stopped within 100–200 m of whales
(R2 = 0.02, p = 0.31); Other (R2 = 0.08, p = 0.25); Within 220 m of shore whales present (R2 =
0.00, p = 0.92) (Fig 7). The categories with increasing trends were boaters trying to position
themselves to view whales to get closer for those ionic whale shots, or to see the whales swimming underwater, or due to not knowing what the laws and guidelines are, or were recreational
fishermen with lines in the water and ultimately failing to give whale’s space and a free path
when moving.
Incidents with kayakers with whales have increased since 2002 and they have their own
associated incident categories. By far the year with the highest number of kayaking incidents
was 2012 (124) followed by relatively high numbers of incidents between 2013–2015 (52, 66
and 64 respectively) (Fig 8). Only one category showed an increasing trend, kayaks spread out
with whales (R2 = 0.45, p = 0.01). This may be due to the increasing numbers of kayakers
spreading out from shore to see whales more closely and then failing to come together or “raft
up” when whales are present to decrease potential disturbance.
Between 1998 and 2015 specific incident types involving vessels maneuvering to get the best
view of the whales as possible increased over time. Private recreational vessels observed within

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Fig 7. Incident trends from most categories not used all years 1998–2015.
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0.8 km of whales were more likely to be observed committing vessel incidents than commercial
whale watch vessels within the same 0.8 km of the same group of whales. This is thought to be
due to a number of reasons including but not limited to: private recreational boaters spending
more overall time being ‘whale oriented’ (watching whales) rather than transiting through the
area, private recreational boaters being unaware of cetaceans in the area while transiting, and
private recreational boaters being unaware of the guidelines and/or regulations. The majority
of vessels and vessel incidents were most likely to occur along the west side of San Juan Island
(Within 880 m of Lime Kiln) because spatially this is where SRKWs are most often seen. Further education of boaters may be needed whether it’s on the water as buoys or on navigational
chartplotters or additional requirements by local ports to increase the shore based education
of boaters. Soundwatch is an educational presence on the water, however without stricter
enforcement, the education may not be reaching enough boaters that frequent the Central
Salish Sea to decrease or stabilize the numbers of incidents over time.

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Fig 8. Kayak incident categories from 2002–2015.
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In 2015, 47% of the vessels contacted by Soundwatch responded that they were unaware of
the whale watching guidelines and/or vessel regulations around whales. This percentage is
close to previous years suggesting the outreach, education and enforcement efforts may need
to be increased. Despite the numbers of overall whale watching vessels has remained consistent
(Fig 5). In the past decade, the following regulation incidents have increased: In the path of
whales; vessels within 0–100 m and vessels between 100–200 m stopped or under power (new
regulations since 2011). While guidelines incidents, such as Fast within 0.4 km, Inshore of
whales and Within the 0.4 km Voluntary No Go Zone, are decreasing. Private recreational vessels observed within 0.8 km of whales were more likely to be observed committing vessel incidents than commercial whale watch vessels within the same 0.8 km of the same group of
whales. The majority of vessels and vessel incidents are most likely to occur along the west side
of San Juan Island (Within 440 m of Lime Kiln) because spatially this is where SRKWs are
most often seen. These are the vessels most often contacted by Soundwatch. The effectiveness

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Fig 9. Enforcement presence versus Education presence on scene with whales from 2011–2015.
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of the Soundwatch monitoring vessel versus an enforcement vessel on scene with whales can
be seen in Fig 9. In the presence of an enforcement vessel, all vessel incidents show a dramatic
decrease, indicating that vessels may be more complaint with the full-time presence of an
enforcement vessel. Further education of boaters is needed whether it’s on the water as buoys
or on navigational chart-plotters or additional requirements by local ports to increase the
shore based education of boaters. Soundwatch is able to reach boaters on the water however
without stricter enforcement, the education is not reaching many of the boaters that frequent
the Central Salish Sea.
Whale watching is a popular activity in the Haro Strait region and the total number of people engaged in whale watching activities, approximately 500,000 people, is likely an underestimate. The commercial whale watch industry (majority PWWA members) do not report
individual or total annual numbers of passengers engaged in whale watching in the Haro Strait
region [34,37]. To gain a more accurate understanding of the total number of people that have
or are currently watching whales from vessels in the region over the last ten years, a targeted
trans-boundary whale watching survey would need to be conducted [23] similar to what was
undertaken when the industry was in its infancy [27,34,37].
Whale watching has both positive and negative effects. Positive effects of whale watching
are the increased empathy people who directly view these charismatic animals feel after their
wildlife experience. Negative effects are the vessels disturbing whales through their proximity
potentially changing the animals’ basic life history activities such as resting, feeding, social
interactions and breeding [29–32, 43–47]. In fact, it is due to the strong scientific evidence of
vessels disturbing whales that the regional U.S. and state boating regulations were put into
place [19]. Although studies of stress hormone levels from fecal samples collected from
SRKWs showed no significant correlation between numbers of vessels and stress levels, it

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showed the cumulative effect of vessel traffic on the SRKW stress response, particularly during
years of relatively low salmon numbers [48]. In addition, data on SRKW activity budgets suggest that SRKWs rest less frequently during daylight hours now than in the 1970s when there
were far fewer vessels [14, 47]. The ideal for the health of the whales in the region would be a
balanced approach with regulations that limit the time, numbers and types of vessels allowed
to engage in whale watching activities and to implement a regulatory safe zone or slow zones
and/or "no go" zones. These two activities along with consistent and increased enforcement of
federal, state and local vessel boating regulations and guidelines would allow the SRKWs to
rest, forage and socialize more often and would allow people the continued opportunity to be
inspired by and enjoy the SRKWs.

Conclusions
Soundwatch’s recorded vessel and incident trends from 1998–2015 show increases in both boats
and kayaks engaging in whale watching as well as increases in some incident types. Long-term
increasing trends in incidents particularly those inshore of whales and in the path of travelling
whales placing boats near SRKWs demonstrate the need for the continuation and expansion of
shore and water-based boater education as well as increased enforcement to accommodate the
still growing popularity of wildlife viewing. In addition, vessel regulations commensurate and
consistent with U.S. federal regulations in Canada would ensure the whales’ protection as they
cross the border multiple times over the course of a single day, thereby helping eliminate some
confusion for recreational and commercial vessels. The continued development and implementation of a collaborative U.S. and Canadian effort to manage both commercial and recreational
whale watching as well as other vessel traffic near whales is needed to reduce potential threats to
the whales from vessel presence, behavior and underwater noise.

Supporting information
S1 Fig. Be whale wise guide front.
(JPG)
S2 Fig. Be whale wise guide back.
(JPG)
S3 Fig. Be whale wise KELP front.
(JPG)
S4 Fig. Be whale wise KELP back.
(JPG)
S5 Fig. Soundwatch Vessel Contact data sheet.
(JPG)
S6 Fig. Soundwatch Vessel Count/Whale Survey data sheet.
(JPG)
S7 Fig. Vessel incident data sheet.
(JPG)
S8 Fig. Soundwatch observed incident numbers 1998–2015.
(XLSX)
S9 Fig. Maximum vessel counts from 1998–2015.
(XLSX)

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Acknowledgments
The Whale Museum’s Soundwatch Boater Education Program would like to give acknowledgment to the listed individuals and programs for their support over the many years. We could
not conduct such a successful program without: The Board of Directors and staff of The
Whale Museum, the vision of the former Soundwatch Program Directors: Richard Osborne
and Kari Koski; and the help of Lynne Barre, Brett Norberg and Brad Hanson from NOAA
Fisheries Northwest Region. The dedication of staff, volunteers and interns over the years,
including: vessel drivers, Tom Riley, Albert Shepard, Sea Harrington, Jesse Berube, Gaia Shelton-Wilson, Jeff Hogan, Johanna Smith, John Calogero, Deborah Giles, Eric Eisenhardt
(Soundwatch Coordinator and Driver), Nicole Brandt, Jim Rappold, Alan Hobbes Buchannan,
David Howitt, Robert Tison, Katherine Peet, Kelley Watson, Amanda Zee, Tamsen Byfield,
Alex Borowicz; and Diane Heller, Karrie Cooper, Amanda Coleman (as K.E.L.P educators)
and the assistance and participation of hundreds of past/present interns and volunteers who
have collectively contributed more than 60,000 volunteer hours to Soundwatch activities since
Soundwatch 1998. Special thanks also go the numerous supporters along with the following
organizations that help support and collaborate with our efforts: NOAA Fisheries Northwest
Region, Northwest Fisheries Science Center, Fisheries and Oceans Canada, Washington
Department of Fish and Wildlife, San Juan County’s Marine Resource Committee, San Juan
County Parks, the Canadian Marine Mammal Monitoring Program (M3) Straitwatch & Cetus
Society, U.C. Davis, the Center for Whale Research, Orca Network, North Cove Technical
Solutions (data-base support), Snug Harbor, Roche Harbor Marine and Marina, the Pacific
Whale Watch Association and the numerous, generous contributions from regional foundations, businesses and individuals over the years.

Author Contributions
Conceptualization: Elizabeth Seely, Richard W. Osborne, Kari Koski.
Data curation: Elizabeth Seely.
Formal analysis: Shawn Larson.
Funding acquisition: Elizabeth Seely.
Methodology: Elizabeth Seely.
Project administration: Elizabeth Seely, Richard W. Osborne, Kari Koski.
Software: Shawn Larson.
Supervision: Elizabeth Seely, Richard W. Osborne.
Writing – original draft: Elizabeth Seely, Richard W. Osborne, Kari Koski, Shawn Larson.
Writing – review & editing: Elizabeth Seely, Richard W. Osborne, Kari Koski, Shawn Larson.

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