Rip currents pose a major global beach hazard; estimates of annual rip-current-related deaths in the United States alone range from 35 to 100 per year. Despite increased social research into beach-goer experience, little is known about levels of rip current knowledge within the general population. This study describes the results of an online survey to determine the extent of rip current knowledge across the United States, with the aim of improving and enhancing existing beach safety education material. Results suggest that the US-based “Break the Grip of the Rip!”® campaign has been successful in educating the public about rip current safety directly or indirectly, with the majority of respondents able to provide an accurate description of how to escape a rip current. However, the success of the campaign is limited by discrepancies between personal observations at the beach and rip forecasts that are broadcasted for a large area and time. It was the infrequent beach user that identified the largest discrepancies between the forecast and their observations. Since infrequent beach users also do not seek out lifeguards or take the same precautions as frequent beach users, it is argued that they are also at greatest risk of being caught in a dangerous situation. Results of this study suggest a need for the national campaign to provide greater focus on locally specific and verified rip forecasts and signage in coordination with lifeguards, but not at the expense of the successful national awareness program.
Rip currents (often called “rips” or “rip tides”) are strong, narrow seaward flows driven by alongshore variations in wave setup landward of the breaker zone. Due to their dependence on wave breaking, rips can develop in any beach environment in oceanic, sea, and lacustrine environments. Castelle et al. (2016b) classify rips as (1) boundary rips that develop along both natural and engineered structures including headlands, groins and piers; (2) bathymetric rips that develop in response to the variability of the nearshore morphology; and (3) hydrodynamic rips that are spatial and temporally variable and develop in the absence of morphological variations or a lateral boundary. The type of rip that develops on a beach depends on the local wave climate and geology. For example, rips in the Great Lakes tend to be associated with natural headlands or the presence of large groins or harbor jetties, while rips in Florida and Texas tend to be bathymetrically controlled and associated with a transverse bar and rip nearshore morphology (Houser et al., 2013). Rips also vary regionally based on the driving forces, with rips on the Great Lakes typically associated with moderate to strong winds, while on the West Coast of the United States the rips are often associated with large swell events independent of the wind.
Rips are capable of carrying unsuspecting bathers significant distances away
from the shoreline with speeds reaching over 2 m s
Beach users' vulnerability to drowning in a rip current depends on a combination of nearshore hydrodynamic and bathymetric conditions, personal and group behaviors, and the beach safety and rip current knowledge of the individual (e.g., Houser et al., 2011a, b, 2016; Brander et al., 2011; Caldwell et al., 2013). Morgan et al. (2009) identified that lacking rip current knowledge was associated with rip current drownings, as was gender, age, alcohol consumption, and overconfidence in swimming ability. Recent evidence suggests that while most beach users are aware of rip currents and the hazard they pose, they are not able to identify a rip current (Sherker et al., 2010; Caldwell et al., 2013; Brannstrom et al., 2014). More than 80 % of beach users surveyed in Florida and Texas failed to identify rip currents in photographs, usually by incorrectly identifying areas of breaking waves as the most hazardous swimming conditions (Brannstrom et al., 2014). This is consistent with results of Sherker et al. (2010), who argued that most beach users are unable to identify a rip current and that “beachgoers clearly need to know what a rip looks like to actively avoid swimming in it” (p. 1787). Given sufficient information, it is possible for beach users to identify a rip current with confidence (Hatfield et al., 2012). However, the ability to identify a rip current or to recognize posted warnings about the rip current danger is not a guarantee that a beach user will be safe, particularly because many will still choose to swim in unsafe and unpatrolled sections of the beach, away from the presence of lifeguards, for social or behavioral reasons or because of a lack of awareness and/or complacency (Drozdzewski et al., 2012, 2015; Williamson et al., 2012; Houser et al., 2016). Recent evidence suggests that beach access management can inadvertently steer unsuspecting beach users towards rip-prone areas, increasing the chances of a drowning occurring on that beach (see Barrett and Houser, 2012; Houser et al., 2015; Trimble and Houser, 2017).
Informing the public about the rip current hazard has become a national
priority in several countries including the United States (e.g., Ashley and
Black, 2008; Brannstrom et al., 2014), Australia (e.g., Sherker et al., 2008; Brighton et al., 2013), United
Kingdom (e.g., Woodward et al., 2013), and Costa Rica (Arozarena et al.,
2015). The United States has arguably the longest running cooperative and
coordinated public rip current education program operating across various
organizational and political levels (Carey and Rogers, 2005). The Rip Current
Task Force was convened in 2003 by the National Oceanic Atmospheric
Administration (NOAA) and USLA to
establish consistent rip current education efforts and improve sharing
of rip current rescue data across the United States. Subsequently, with
the assistance of the National Weather Service (NWS) and Sea Grant, a
national “Break the Grip of the
Rip!”®
education campaign was initiated in 2004. The Break the Grip of the
Rip!® campaign aimed to educate the public
about the rip current hazard by providing information about what rip currents
are, why they are dangerous, how to identify them, what to do if caught in
one, and how to help someone else if they are caught in a rip current.
Aspects of this information have been disseminated through various means such
as the NWS Rip Current Safety web page
(
While this campaign was the first of its kind globally, it was also particularly challenging given that the United States has four very different coastlines (West Coast, East Coast, Gulf Coast, Great Lakes) that differ in terms of wave climate and beach systems, and a large inland non-coastal population who may only visit any of these coastlines infrequently. Results from Brannstrom et al. (2015) suggest that while most beach users in Texas were not familiar with the campaign itself, many were familiar with a key message of the campaign on “what to do” when caught in a rip current. This suggests that the campaign may have been successful in educating beach users and reducing the number of drownings, but this hypothesis has never been formally tested.
The core visual image used in many of these interventions was a simple diagrammatic illustration of an idealized rip current from an oblique aerial perspective (Fig. 1). In this image, the rip current is characterized by relatively calm white water surrounded by more intensive wave breaking adjacent to the rip and close to the shoreline. An image template was created that could be accessed online and in hard copy and duplicated freely to be posted along boardwalks, beach fronts, and public beach access points throughout the United States. The image has also been more recently adopted in other countries such as Thailand, Costa Rica, Mexico, South Korea, and Japan. While the NOAA–USLA sign was not intended to teach the general population to identify a rip, the prominent image of a rip current on the sign and attempts to post the sign on beaches indicate that its function and visual argument constitute an invitation to beach users to use the information to identify rip currents (Brannstrom et al., 2015).
Rip current warning sign developed by the United States Rip Current Task Force as part of the “Break the Grip of the Rip!”® education campaign.
Due to this conflict between its' theoretical and practical use, the
NOAA–USLA rip current sign has proven to be mostly successful in regard to
educating beachgoers on “what to do” (e.g., swim parallel to the beach) when
caught in a rip current, but it has not been particularly successful in
improving beach users' ability to identify rip currents from the perspective
of standing or sitting on the beach (Brannstrom et al., 2015). Consistent
with results of Matthews et al. (2014), only a small percentage of beach
users (
In a separate initiative, the NWS has endeavored to develop a public rip current forecasting system, although the methodology varies among weather forecast offices (WFOs). Some WFOs issue surf zone forecasts that include a three-tiered (low, moderate, high) rip current outlook communicated to the public during television and radio news broadcasts (Carey and Rogers, 2005) and social media platforms. Some WFOs work with local lifeguards to update their outlooks based on real-time observations. However, as discussed in NOAA (2015), these forecasts are not necessarily communicated or disseminated in a consistent manner throughout all regions and, therefore, are not communicated seamlessly. The lack of consistency in forecasting is complicated by rip development being dependent on how the incident wave field interacts with the pre-existing nearshore morphology, which is difficult to predict without local knowledge on how it evolves over a range of spatial and temporal scales.
Since perception of the rip hazard depends in part on trust in experts and authorities, and trust in the protective measures they employ (Njome et al., 2010; Heitz et al., 2009; Terpstra, 2011; Terpstra et al., 2009; Barnes, 2002), inaccuracies in the forecast or a discrepancy between the forecast and what is observed at a specific beach at a specific time can erode confidence in the forecast (Siegrist and Cvetkovich, 2000; Espluga et al., 2009). Lack of confidence in forecasts could potentially condition beach users to downplay the hazard warning on future visits (Hall and Slothower, 2009; Scolobig et al., 2012; Green et al., 1991; Mileti and O'Brien, 1993). Furthermore, the generic nature of the rip current forecasts can result in situations where the actual intensity of rips varies substantially from the forecast. Beachgoers could easily observe a discrepancy between their beach location and the rip forecast, caused by either the generalized nature of the forecast or their inability to identify a rip current (Caldwell et al., 2012; Brannstrom et al., 2014, 2015).
Photographs used in questions 42 through 44 of the survey to ask respondents, “Where on this photograph would you swim?” The location of the rip current in each photograph is shown by the red arrow, which was not visible to the respondents.
Question groups used to elicit responses from respondents notified about the survey by various agencies in the United States.
The national US rip current education program is clearly an impressive effort yet many rip-current-related fatalities and rescues still occur on US beaches and overseas (Gensini and Ashley, 2010) and there is little quantitative evidence available to assess the overall effectiveness of the program. This is largely because no “pre-program” study was conducted on public understanding, perception, or behavior in relation to the rip current hazard. There is also a lack of hard data on rip-current-related fatalities, beach visitation numbers, and how incident frequency and exposure rate may have changed over time. In this regard, NOAA sponsored a workshop in 2015 to review the Break the Grip of the Rip!® program and NWS rip current forecasts to discuss whether existing messaging is scientifically sound, as well as effective and clear in reaching all age groups and demographics (NOAA, 2015).
It was acknowledged at the NOAA workshop that while there have been several recent studies to describe the extent of rip current knowledge amongst beach users (or lack thereof) on specific beaches in the United States (Caldwell et al., 2013; Brannstrom et al., 2014, 2015), there is insufficient understanding about beach user knowledge of rip currents and their behavior at the beach at a national level. This study describes results of a national online survey focused on US-based beachgoers and their understanding of, and experience with, the Break the Grip of the Rip!® program and the rip current hazard to provide quantitative evidence to guide future improvements to beach safety education material and forecasting efforts.
The study research design relied on an Internet-based survey instrument using Qualtrics, approved by the relevant human subject protection program from Texas A&M University. The survey consisted of questions re-phrased from Sherker et al. (2010) and photograph-based rip current identification protocols (Fig. 2) modified from Brannstrom et al. (2014, 2015), with questions grouped into six categories (Table 1). The survey had 75 questions and took approximately 20–30 min to complete. It remained open from May to August 2015 and all answers were recorded anonymously through Qualtrics Survey Software. A copy of the survey instrument is provided in the Appendix of this paper.
The survey was distributed by email to cooperating organizations and individuals for distribution though listservs, websites, social media, and in advertisements. It was disseminated via secure Internet and social media links for Texas A&M University, Sea Grant, Science of the Surf, NWS, and the NOAA. While this Internet-based recruitment process attempted to target a much wider demographic of the US population, it is also reasonable to assume that as the host websites were all beach and surf-related, survey respondents likely had greater interest in, and understanding of, coastal environments and hazards, leading to a potential bias that was also experienced in a beach-safety-related study by Drozdzewski et al. (2012).
Between May and August 2015, a total of 2084 respondents started the online
survey, but only 1622 completed all questions (completion rate: 78 %).
Geographically, the largest number of respondents were from the state of
Texas (
Percent of self-reported beach visitation by respondents.
Relative importance of beach and surf factors to respondents when selecting a beach. Note that respondents were asked to identify all factors that applied.
Only 18 % ( “Do not try to fight the current, instead work with the current until you can break free of its
pull.” “Advises affected swimmers not to struggle while heading shoreward but to swim
parallel to the beach till out of the off-beach current.”
There were, however, several respondents (familiar with the campaign) who
believed that the messaging was not appropriate and needed to be rethought:
“The slogan is useless to anyone caught in a rip current! What can you
do by knowing this slogan? …`Wave, Yell & Swim Parallel' is a far
better slogan …it provides three lifesaving pieces of information. The
existing slogan provides nothing.” “It's an advertising slogan; it doesn't mean much at all. It's a bad slogan;
it does not tell folks what to do, what to watch for, or anything useful.”
Responses from those who were not familiar with the campaign were much shorter and did not contain the level about survival strategies provided by those familiar with the campaign. Representative responses include “how to escape”, “tips to survive”, and “how to get out of a rip”.
As presented in Fig. 3, most respondents visited the beach either once per
year on vacation (22 %) or multiple times per year (42 %). Visitation
exhibits a statistically significant relationship with age, with older
respondents (
Self-reported tendency to enter the water in the absence of a lifeguard on a beach.
Percent of respondents' belief that rip currents can be seen by beach users.
Percent of self-reported swimming ability in a pool and in open water with waves.
When determining which beach to visit, frequent beach users, who were mostly
board riders, tended to prefer beaches with lots of waves, whereas infrequent
users emphasized safety and cleanliness (
Most respondents (
When asked “Where on this photograph would you swim?”, approximately
54 % of respondents correctly identified the location furthest away from
the rip current in Photograph 1 (Figs. 2a and 8a). However, 182 (11 %)
respondents incorrectly selected the rip current as the safest location to
enter the water, with the remaining respondents identifying other areas of
the photograph (adjacent to the rip) as being the safest location. Results of
a
When asked what beach features they believed to be most dangerous,
respondents who correctly identified the safest swimming location away from
the rip were more likely to report alongshore currents and rip currents as
dangerous features, while those who selected the rip as the safest location
tended to identify jellyfish, sharks, and big waves. Respondents who
incorrectly selected the rip current as the safest location were also least
familiar with the common US beach safety flag system (
Approximately 25 % of respondents (
Identified location of safest location to enter the water in the photographs presented in questions 42 through 44 and also presented in Fig. 2. Warm (red) colors indicate large number of responses, while cold (blue) colors indicate few responses. No color (background picture) represents areas that received no responses.
A similar pattern was observed in respondents' ability to identify the safest
location to enter the water in Photograph 3 (Figs. 2c and 8c), with 26 %
of respondents incorrectly identifying the rip current as the safest
location. Like responses for the other photographs, respondents who
identified the rip as the safest location to enter the water did not visit
beaches as often (
Only 31 % of all respondents believed the NOAA rip current warning sign
could be used to identify a rip current. Interestingly, those respondents who
incorrectly identified the rip current as the safest spot on the beach to
enter the water tended to believe that the NOAA rip current warning sign
could “It shows that in a rip current, there appears to be a break in the
water, with water moving in a different direction.” “It shows you the `calm' area between the two areas of normal wave
activity indicating the channel where the rip is located.”
Most of these responses focused on the pattern of wave breaking and the orientation of the “calmer” water to the beach. There is evidence that some respondents believed the picture to be an accurate representation of a rip, but they could not provide specific detail about the real-world features on the beach it depicted, for example “graphic depiction of what the tide looks like”. This suggests that some respondents believe the sign is accurate since it was designed and placed there by an authority.
As previously noted, the rip current warning sign was not designed to help
beach users identify a rip current but rather to inform them how to escape
a rip. Most respondents could clearly state what the sign was informing them
about swimming parallel to the beach to escape a rip:
“Let the current take you out and then swim parallel the shore to
escape.” “Swim parallel to the shore, or wait until the rip gets less strong further
offshore.”
Of the respondents, 96 % could provide a response to this question and
virtually all responses indicated that the sign informed them to swim
parallel to shore to escape the rip current, suggesting that the sign has
been effective in communicating this message. When asked how seeing this
sign would change their behavior of the beach, a majority (65 %) of
respondents suggested they would take precaution when entering the water:
“Might avoid going in water if I see surface signs of rip activity and drive to another
beach.” “Consider not going in. Look carefully for signs of rips. Look for flags and
lifeguards.”
This suggests that while most respondents understood that the sign provided them with information on how to escape a rip current, it also helped with prevention as most respondents also noted that they would take precaution or use it to spot (and presumably avoid) a rip rather than focus on escape strategies.
Most respondents (86 %) provided ideas on how to improve the rip current
warning sign, with more than half suggesting the sign needed to provide a
more accurate depiction and/or description of a rip current:
“I don't think it clearly identifies it enough that the waves will
not break where a rip current is. It is great because it shows how to get out of
one but I think with another picture of an actual rip current people would identify them
easier.” “Pictures showing what actual rip currents look like would be useful./Most casual
beachgoers are not confident that they could identify a rip current from shore or predict where one might be
forming.” “There needs to be more info on how to detect, recognize and avoid a
rip current. Information on conditions during which rip currents are most likely to form would also be
useful.”
A small number of respondents ( “Multiple steps: (1) know when you're in a rip; (2) stay calm and tread
water; (3) wait until you've floated out to a slower moving water; (4) swim
sideways.” “Specific instructions on what one should do if caught in a rip current – Should I
swim left, right, straight? What if I'm not a strong swimmer? What are some other exit
options?”
Another group of respondents (
One in four (25 %) respondents reported they had been previously caught in
a rip current by accident, while 10 % of respondents reported that they
had purposely entered a rip for surfing. When asked how to escape a rip,
those who had accidently been caught in a rip current provided relatively
detailed responses that either described escape by swimming parallel or
riding the current without panic:
“Let it flow. Don't fight it. Perhaps as long as you minimize tiring
exertions try to flow towards the side of the current. Basically do the same thing
you'd do if you fell in a strong river about to empty into a lake. You certainly
wouldn't kill yourself trying to swim out upstream.” “Don't panic!!! Either swim – without too much exertion – parallel to the
beach for 25
Of those who had not been previously been in a rip 7 % (
Assuming no response is an indication of a lack of knowledge about rips, the
number of respondents who did not provide an accurate description of how to
escape a rip current is
Respondents were also asked about whether they were aware of rip forecasts,
if forecasts altered their behavior, and if the forecasts conformed with
their observations at the beach. Since existing rip forecasts are not
consistent and few are based on an understanding of pre-existing morphology,
the focus here was not on the actual accuracy of the forecast but on
whether the respondent believed the message to be consistent with their
observations. About half of respondents (52 %) reported seeking
information about beach and surf conditions before going to a beach with the
majority (83 %) using the Internet to find that information. A large
majority (88 %) of respondents stated that information about beach and
surf conditions affected their behavior, with many saying that they would
either “not go” (to the beach), “not go in the water”, or “look for
rips”. When asked whether the rip current forecast (either high or low) was
consistent with conditions they experienced at the beach, approximately
67 % of respondents stated that the forecasts were not necessarily
consistent with their observations. For some, this inconsistency reflected
the temporal and spatial broadness of the rip forecast compared to what they
observed:
“Weather changed quickly and no beach flags were posted, advising of rip
currents.” “Rip currents cannot be predicted for individual beaches, they are blanket
warnings.”
Other respondents noted the forecast was inaccurate because other beach
users had not adjusted their behavior:
“I never noticed an[y] thing unusual and people in general don't seem to adjust their
behavior.”
Others noted it was not possible to determine whether the forecast was accurate
because they were not able to spot a rip on the beach at that specific time
or in general:
“I couldn't determine if/where rip tide activity might be in the
water if the forecasts had warned beach-goers to be aware of a high risk on that
day.”
In several cases (
Additional questions about high-risk rip conditions solicited written
responses that suggest many respondents understood the high-risk warning to
mean that wind and wave activity are tantamount to the development of rips:
“Due to tides, weather, etc., there is a much greater risk for rip currents in the
ocean.”
There was a mix of responses in which respondents believed that “high risk”
meant that rips would form or that there was a greater chance of rip
formation. Others ( “Whenever or wherever there are waves there can be rip currents,
so I am not sure what “high” or “low” risk of rip currents means. All
rips are potentially dangerous.”
In response to the definition of low risk, respondents tended to suggest
this implied that rips were unlikely or would not form:
“Rip currents may still exist but are weaker or fewer than normal.” “Conditions are not conducive to rip currents.” “The factors necessary for rip currents to form are absent – not likely to encounter
rip.”
Of note, whether a respondent described high and low risk of rips as a
probability (likely, unlikely) or in absolute terms (is or is not present)
is not related to whether the respondent noted that the rip forecast was
consistent with their observations at the beach. For both high and low risk,
some respondents believed that the forecast (by radio, Internet, etc.) was
not based on the predicted weather but rather on whether a rip had been
sited on a beach or not with statements such as “not sighted” or
“strong rips observed”. Others (
Respondents were also asked to rank sources of information about rip currents from (1) most trusted to (5) least trusted. Except for social media (Facebook, Twitter, etc.), all sources of information were nearly equally ranked from most to least trusted with no discernable pattern. Only social media exhibited a discernable pattern, with more than 35 % of respondents identifying it as the least trusted source, although 18 % of respondents also identified it as the most trusted. More respondents identified Internet sources as the most trusted compared to other sources, while television and radio were identified as trusted (rank 2 and 3), but not the most trusted. No significant correlations were observed between trust in a source of information and respondent demographics, suggesting that a broad communication strategy is the most effective to reach the widest audience.
The primary results of this US-based rip current survey are summarized in Table 2. Results suggest that while many are not aware of the Break the Grip of the Rip!® campaign, the US beach-going public is informed about rip current safety. While this is an encouraging result, it needs to be placed in context. The goal of this study was to examine US-based beachgoers' understanding of, and experience with, the national Break the Grip of the Rip!® program and the rip current hazard to provide quantitative evidence for improving the program. Despite the dissemination of the online survey leading to a potentially biased cohort (Sect. 2) that was dominated by respondents who were relatively frequent beachgoers, self-rated as competent swimmers, and could successfully identify the safest location to enter the water based on photographs, approximately 10 % of survey respondents were infrequent beachgoers, poor swimmers, largely ignorant of the rip current hazard, and more liable to make poor swim location choices.
Summary of major findings from the “Break the Grip of the Rip!”® national rip current survey.
When taking the entire US beach-going population into account, this cohort represents a significant population of potential “at-risk” beachgoers. Given that this population was a key target of the Break the Grip of the Rip!® campaign, it is therefore of considerable concern that this cohort (i) tended to select the rip current as the safest location to enter the water on each of the survey photographs, (ii) did not consider hazards before going to the beach, (iii) were not familiar with the beach flag system in the United States, and (iv) did not seek out lifeguards when visiting a beach. These results clearly highlight how at risk infrequent beach users still are despite the decadal existence and ongoing presence of the campaign.
In contrast, survey respondents who were frequent beachgoers and had previous experience with rip currents had a better understanding of what rip currents were, the danger they represent, and how to escape from a rip. As described by Brannstrom and Houser (2015), those who get caught in a rip current “understand the dangers of rips first hand and … realize [they] never want to be caught in that situation or accident [again].” Similar results were found in studies involving surveys of people who had been caught in rip currents in Australia (Drozdzewski et al., 2012, 2015). Those with indirect or no experience tend to underestimate the danger compared to those with direct experience (Ruin et al., 2007).
It is also interesting to note that while many survey respondents were not
familiar with the Break the Grip of the
Rip!® campaign itself, a clear majority
(
Survey results also suggest that other factors can influence behavioral response in relation to the rip current hazard. For example, as noted by several survey respondents, if everyone else at the beach is entering the water and not heeding an existing rip current warning (out of ignorance or purposeful neglect), there is a chance that the beach user may become complacent and also enter the water despite understanding the risk. This suggests that decisions can be made based on what other beach users are doing rather than rip forecasts (Lapinski et al., 2014). The tendency to follow the behavior of others may be enhanced when someone goes together as part of a group and enters the water because everyone is willfully ignoring the risk or is ignorant to the severity of the risk (see Mollen et al., 2012; Arozarena et al., 2015). A regional forecast or global warning will not necessarily deter beach user behavior as much as direct intervention by lifeguards.
This study has also revealed some important issues with existing rip forecasting methods and resultant warnings (Table 2). Approximately 67 % of all respondents stated that rip current forecasts are not necessarily consistent with what they observe on the beach. Consistent with previous studies on natural hazards, those who have not experienced a predicted hazard or did not experience personal damage during a visit to the beach are more likely to downplay the danger the next time they visit (Hall and Slothower, 2009; Scolobig et al., 2012; Green et al., 1991; Mileti and O'Brien, 1993). Any inconsistency between a rip forecast and direct observations therefore has the potential for some beach users to downplay the rip current risk on future beach visits. While forecast methodology varies by WFO, most rip forecasts do not consider bathymetry, local topography, or hard structures that may force rips over a range of wind wave conditions. It is also not clear how many forecasts are based on the actual presence of rips observed by lifeguards.
The key problem is that rip forecasts tend to be generalized for a large region and time, whereas actual rip development and flow behavior is extremely variable over space and time (Castelle et al., 2016a). It is also difficult to predict the potential for rip development without an understanding of the pre-existing nearshore morphology, which itself is difficult to measure directly, remotely, or through numerical modeling. A static daily regional rip warning may therefore fail to replicate different rip conditions that occur during that day. For beachgoers, this can lead to a different interpretation of the forecast accuracy and may potentially lead to downplaying the actual risk (see Brilly and Polic, 2005). Mileti and O'Brien (1993, p. 40) describe this reasoning as “The first impact did not affect me negatively, therefore, subsequent impacts will also avoid me.” At the same time, beach users will not be able to conceptualize events that have never occurred or to see future trips to the beach as anything more than a mirror of past visits or experiences (Kates, 1962; Tversky and Kahneman, 1973). If the rip forecast and warnings are inaccurate or perceived to be inaccurate by the beach user, there may also be a potential loss of trust in that authority (Espluga et al., 2009) and future forecasts.
It can be assumed that beach users who rely heavily on rip forecasts and assume they are accurate might use them to calibrate their own observations and experiences, which will impact their future forecast expectations. If a low rip risk forecast is issued and the rips are prevalent and strong, then beach users may lose faith in forecast accuracy. Similarly, if a high rip risk forecast is issued and no rips are observed with relatively calm conditions, then beach users may become complacent about the hazard and discount or ignore future forecasts in the future. However, results of this study suggest that given time and experience at the beach over a range of conditions, beach users can develop a nuanced understanding of the forecast and gain greater confidence that it is appropriate. Rip forecast inaccuracies appear to be most problematic for infrequent beach users who also do not appear to seek out lifeguards and are unable to spot rips correctly.
Most respondents could clearly state what the standardized rip current sign was informing them to do in terms of swimming parallel to the beach to escape the rip, but many identified a need to provide information that would allow beach users to identify a rip current in general (e.g., “Pictures showing what actual rip currents look like would be useful”) or specific to the local beach (e.g., “Picture of rip at actual beach [the sign] is placed on”). However, evidence from beach surveys in Florida and Texas suggest that beach users are not able to accurately identify a rip current (Caldwell et al., 2012; Brannstrom et al., 2014), although there may be ways in which the sign can be made more accurate through small revisions to the perspective, colors, and beach morphology (Brannstrom et al., 2015). While local information may improve the accuracy and interpretation of the sign, there is the potential for different signs and messaging being used (of varying quality and detail), leading to confusion and misinterpretation by beach users. A more appropriate strategy may be to take a more local approach to risk and emergency management including local emergency contact information. This approach places greater authority in local managers and emergency responders, without resulting in different signs.
A local approach also includes putting greater emphasis on the expertise of lifeguards to prevent accidents and respond to emergencies promptly and properly. This would also partially consider the fact that there are different types of rip currents and associated behavior in different geographic locations and regions (Castelle et al., 2016b). Of note, Surf Life Saving Australia has recently adopted a “combined approach” to promoting how to escape a rip current (Bradstreet et al., 2014). This decision was largely based on field tests of rip escape strategies (McCarroll et al., 2014; Van Leeuwen et al., 2016), which clearly showed that natural variance in rip flow behavior influences effectiveness of different rip escape strategy strategies. This has also been illustrated by recent numerical modeling studies (McCarroll et al., 2015; Castelle et al., 2016a, b). However, communicating such a complex and mixed message is problematic. In contrast, concepts of rip avoidance instruction are consistent and simpler to explain, making them more suitable for advertising campaigns and signage (Bradstreet et al., 2014).
While there is still insufficient evidence to suggest that present warning systems help people avoid and escape rip currents (see also Lapinski et al., 2014), there is evidence that lifeguards are effective at preventing drowning death through preventive actions and rescues. With proper training and experience a lifeguard can provide invaluable local understanding of the rip hazard to provide effective mitigation. Unfortunately, there is no consensus amongst beach users that it is safe (or not) to swim in the surf after lifeguards are off duty (Petrass and Blitvich, 2014), despite evidence that it is safer to swim in the presence of a lifeguard. In this respect, greater focus should be placed on reminding beach users to swim near lifeguards and only at times that lifeguards are present because “the chances of drowning at a beach protected by lifeguards trained under USLA standards is less than 1 in 18 million” (Branche et al., 2001).
A survey about the extent of public rip current knowledge in the United States was conducted with the aim of establishing a dataset that provides guidance for the improvement and enhancement of existing beach safety interventions. Results suggest that the US-based Break the Grip of the Rip!® campaign has been successful in helping inform the public about rip current safety. Although few respondents were familiar with the campaign itself, most respondents could provide an accurate description of how to escape a rip current by swimming parallel and/or floating until the current weakened. Results suggest that the most at-risk population are infrequent beach users because they do not seek out lifeguards, do not take the same precautions as frequent beach users, and believe there are large discrepancies between rip forecasts and their own observations at the beach. Survey results provide a conservative estimate of 10 % of US beachgoers being at risk of being caught in a rip due to ignorance and/or poor swimming choices. Future education efforts should attempt to target this beach-going demographic group. Knowledge of rips, visual ability to accurately identify a safe swimming location in where rip currents are present, and ability to interpret rip forecasts are each dependent on prior experience with rips and the frequency of beach visitation. In addition to concerns about the spatial and temporal accuracy of public rip forecasts, many respondents identified a lack of local detail in the rip current warning sign as a concern, with more than half of respondents suggesting the sign needed to provide a more accurate depiction and/or description of a rip current and local emergency information. This suggests a need for greater focus on locally specific and verified rip forecasts and signage in coordination with lifeguards, but not at the expense of the successful Break the Grip of the Rip!® campaign.
This study was approved by the relevant human subject
protection program from Texas A&M University (IRB2015-0330D). While the
identity of the participant cannot readily be determined by the investigator
Survey instrument.
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The authors declare that they have no conflict of interest. Edited by: Vassiliki Kotroni Reviewed by: Robin Davidson-Arnott and Olga Petrucci