Hostname: page-component-586b7cd67f-2brh9 Total loading time: 0 Render date: 2024-11-23T16:42:43.448Z Has data issue: false hasContentIssue false

Seeing the forest for the coral trees: involvement and perceptions of reef threats among coral restoration volunteers in Roatan, Honduras

Published online by Cambridge University Press:  29 October 2024

Sierra Garcia*
Affiliation:
The Fulbright Program, West End, Honduras
Antonella Rivera
Affiliation:
Coral Reef Alliance, West End, Honduras
*
Corresponding author: Sierra Garcia; Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Despite the global expansion of coral restoration initiatives that depend on volunteer divers in supporting these programs, research exploring their motivations, sentiments and knowledge remains scarce. This study employed a mixed-methods analysis of surveys (n = 83) and interviews (n = 15) of a heterogeneous population of coral restoration volunteers and a control group of divers in Roatan, Honduras to explore these aspects. Experienced coral restoration volunteers did not perceive their contributions to coral health protection as being greater than control group non-volunteer divers, despite displaying a deeper understanding of the threats to coral reefs. Notably, both new volunteers prior to training and experienced restoration volunteers were more than twice as likely as control divers to highlight reducing carbon emissions as critical for coral health. While volunteer divers exhibit a strong baseline awareness and concern for coral reef threats, they report that participation in restoration efforts leads to significant learning gains regarding coral conservation. The insights gained from the motivations and learning outcomes of volunteers in coral restoration in Roatan may inform similar initiatives globally, potentially impacting a wide range of volunteer-based ecosystem restoration programs and diver-involved projects, thereby enhancing volunteer engagement and educational outcomes in environmental conservation efforts.

Type
Research Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
© The Author(s), 2024. Published by Cambridge University Press

Impact statement

Volunteer scuba divers are necessary for maintaining many coral reef restoration initiatives in the Caribbean. This article explores how a heterogeneous volunteer population in Roatan, Honduras perceives threats to coral reefs compared to control non-volunteer divers, as well as variation in their perceptions of restoration associated with gender, visitation status (residents vs. tourists) and other attributes. This research expands the question of how to determine restoration’s success beyond ecological and economic metrics by examining how restoration participation can serve as a form of experiential environmental education for the non-experts who engage in it. This is especially the case for the restoration programs described in this research, which require all volunteers to complete classroom learning about coral restoration rationale and the state of the reef prior to the experiential component of volunteering. Volunteer-based coral restoration, in its best iteration, can empower already-concerned non-experts to engage within a community of like-minded divers. For visiting recreational divers in particular, volunteering for coral restoration may be the best or only opportunity they encounter to better understand coral reefs and the issues that threaten them. Understanding how distinct subsets of these volunteers view their work might help coral restoration practitioners leverage true ambassadorship for coral reefs. While the themes in this manuscript are most salient to Honduras’s Bay Islands and the Western Caribbean, these findings may be extrapolated not only to coral restoration in other geographic regions but also potentially to other volunteer-based ecosystem restoration programs and other diver-engaged initiatives.

Introduction

As coral restoration research and initiatives have proliferated in recent years (Bayraktarov et al., Reference Bayraktarov, Banaszak, Maya, Kleypas, Arias-González, Blanco, Calle-Triviño, Charuvi, Cortés-Useche, Galván, Salgado, Gnecco, Guendulain-García, Delgado, Moraga, Maya, Quiroz, Cervantes, Morikawa, Nava, Pizarro, Sellares-Blasco, Ramos, Cubero, Villalpando and Frías-Torres2020; Boström-Einarsson et al., Reference Boström-Einarsson, Babcock, Bayraktarov, Ceccarelli, Cook, Ferse, Hancock, Harrison, Hein, Shaver, Smith, Suggett, Stewart-Sinclair, Vardi and McLeod2020; Hein et al., Reference Hein, Vardi, Shaver, Pioch, Boström-Einarsson, Ahmed, Grimsditch and McLeod2021; Shaver et al., Reference Shaver, McLeod, Hein, Palumbi, Quigley, Vardi, Mumby, Smith, Montoya-Maya, Muller, Banaszak, McLeod and Wachenfeld2022; Suggett et al., Reference Suggett, Edwards, Cotton, Hein and Camp2023), scholarship calling for more social research and success metrics into these reef restoration efforts has also grown (Anthony et al., Reference Anthony, Helmstedt, Bay, Fidelman, Hussey, Lundgren, Mead, McLeod, Mumby, Newlands, Schaffelke, Wilson and Hardisty2020; Hein et al., Reference Hein, Willis, Beeden and Birtles2017; Hughes et al., Reference Hughes, Baird, Morrison and Torda2023; Gibbs et al., Reference Gibbs, Gibbs, Newlands and Ivey2021; Le et al., Reference Le, Becken and Curnock2022). In parallel, there has been increasing recognition of the potential of coral restoration initiatives to engage non-experts in protecting coral reefs (Hesley et al., Reference Hesley, Kaufman and Lirman2023; Sebastian et al., Reference Sebastian, Sparks, Resolute and Prasetijo2024), as well as the mutual benefits of building collaborations between the dive industry, volunteer divers and restoration programs at scale (Howlett et al., Reference Howlett, Camp, Edmondson, Edmondson, Agius, Hosp, Coulthard, Edmondson and Suggett2022). Yet, despite the long-held assumption that increased volunteer knowledge and engagement for protecting coral reefs will follow from engaging non-expert divers in coral reef restoration (Westoby et al., Reference Westoby, Becken and Laria2020; Suggett et al., Reference Suggett, Edwards, Cotton, Hein and Camp2023), and the explicit hope from some researchers that such engagement becomes a priority for restoration programs (Schmidt-Roach et al., Reference Schmidt-Roach, Duarte, Hauser and Aranda2020), there is little literature assessing baselines or outcomes of engagement, knowledge or perceptions of self-efficacy among these volunteers.

In their review of the published literature on motivations for coral reef restoration, Bayraktarov et al. (Reference Bayraktarov, Stewart-Sinclair, Brisbane, Boström-Einarsson, Saunders, Lovelock, Possingham, Mumby and Wilson2019) found that “restoration for education purposes or awareness of the general public” as a motivation was considered “negligible”; nevertheless, many programs rely on subsets of the “general public” participation. Because reef restoration programs often employ both local and transient volunteers (Prideaux and Pabel, Reference Prideaux and Pabel2018; Lintangkawuryan et al., Reference Yulia Lintangkawuryan2023), reef restoration efforts have potential to act as educational opportunities for non-experts (Hein et al., Reference Hein, Birtles, Willis, Gardiner, Beeden and Marshall2019; Escovar-Fadul et al., Reference Escovar-Fadul, Hein, Garrison, McLeod, Eggers and Comito2022; Helsey et al., 2023). Conversely, failing to impart an accurate understanding of the goals and limitations of restoration to volunteers and dive professionals could evoke unintended adverse consequences, from involved lay-people overestimating restoration as a long-term solution to coral reef decline to disillusionment with setbacks in restoration efforts (Fadli et al., Reference Fadli, Campbell, Ferguson, Keyse, Rudi, Riedel and Baird2012; Hein et al., Reference Hein, Birtles, Willis, Gardiner, Beeden and Marshall2019). Research on the overall effectiveness of education about coral reefs in tourism settings is also mixed, with some scholarship indicating its limited effectiveness in generating lasting attitude or behavior change (Hofman et al., Reference Hofman, Hughes and Walters2020; Machado Toffolo et al., Reference Machado Toffolo, Simoncini, Marchini, Meschini, Caroselli, Franzellitti, Prada and Goffredo2022), while others report significant increases in behavior-change intentions, pro-environmental attitudes and awareness (Powell and Ham, Reference Powell and Ham2008; Machado Toffolo et al., Reference Machado Toffolo, Simoncini, Marchini, Meschini, Caroselli, Franzellitti, Prada and Goffredo2022) in the short or long term.

Roatan, the largest and most-visited of Honduras’s Bay Islands, provides a rich backdrop to investigate these topics. The Bay Islands are part of the Mesoamerican Barrier Reef System, which directly supports the livelihoods of more than a million people (Arrivillaga and Arreola, Reference Arrivillaga and Arreola2016). The pressures of rapid tourism growth in Roatan have presented numerous ecological and social challenges (Doiron and Weissenberger, Reference Doiron and Weissenberger2014), with nearly a million annual short-term cruise ship visitors to Roatan alone accounting for half of Honduras’s total tourist arrivals (Instituto Hondureño de Turismo, 2022).

In Roatan, several nonprofit organizations support tree-style shallow-reef coral nurseries (Nedimyer et al., Reference Nedimyer, Gaines and Roach2011) with significant reliance on volunteer participation for routine operations and maintenance. The volunteers are a blend of tourists and residents, including locals and foreign nationals, who contribute hands-on support in maintaining and/or monitoring threatened Acropora spp. corals. Volunteers help clean the structures where the corals grow, learn to outplant coral fragments onto the reef and assist restoration professionals with coordinated outplanting efforts. As a precursor to volunteering with any of the coral restoration programs involved in this study, all divers are required to complete a training that includes a comprehensive overview of coral ecology, threats and restoration rationale and methods.

This research sought to understand these volunteers’ perceptions of their contributions to protecting coral reef health, as well as their learning and affective engagement, across multiple similarly structured coral restoration projects in Roatan. Over 7 months, these coral restoration volunteers were surveyed, along with a group of comparable non-volunteering control divers, and interviewed to explore their understandings of how to protect coral reefs and the role of coral restoration. Data were analyzed using a mixed-methods approach, which include qualitative analysis of open-ended interviews and a semi-quantitative analysis of self-reported impact and knowledge. These findings suggest that participation in restoration efforts is highly self-selecting among divers already informed about coral reef threats, but nevertheless leads to significant learning gains regarding coral conservation.

Methods

Study site

All data were collected in Roatan, the largest of Honduras’s Bay Islands off the north coast of the country. Roatan was the location of Honduras’s first coral nursery, established in 2016 (Funderburk, Reference Funderburk2023). The coral restoration programs involved in this research used the coral gardening technique in their in situ nurseries (Nedimyer et al., Reference Nedimyer, Gaines and Roach2011) to propagate new colonies from fragments, and often partnered with various dive businesses to recruit and train volunteers.

Data collection

All participants signed and dated digital consent forms prior to participation affirming that they understood the purpose and scope of the research (Supplementary Appendices 1 and 4). Moreover, this study adhered to the data sharing policy of the Coral Reef Alliance, which maintains the secure handling of personal identifiers and ensures that such information is not publicly disclosed or shared.

Surveys

Divers invited to complete the initial survey were either volunteers with prior coral restoration experience (n = 21), new restoration volunteers about to begin training via a course offered at an affiliated dive shop (n = 38) or control group divers (n = 24) at those same dive shops who were not participating and had never participated in restoration. Divers were incentivized to participate by the possibility of winning small prizes from a local NGO.

During the 7-month data collection period, all new participants in two coral restoration programs in Roatan, Honduras were invited to fill out a Google form before beginning their courses. The restoration course instructors were provided with a written paragraph inviting divers to contribute to research about “divers and coral reef health” when a researcher was not present to administer the survey. The surveys were offered in both English and Spanish (Supplementary Appendix 1).

This study defined experienced coral restoration divers as those who had already completed a training certification program for coral restoration prior to completing the initial survey. These experienced restoration divers were identified and invited to participate with periodic sharing of the survey link in a WhatsApp group used by one of the NGOs to coordinate routine restoration outings and by approaching dive professionals known to support restoration efforts.

Control group divers, who had never participated in coral restoration, were recruited to complete the survey in each of the five participating dive shops that offered a coral restoration specialty course through one of the restoration programs involved in this study. Each shop displayed recruitment posters with QR codes and bit.ly links to the survey. In addition, a researcher routinely went to each of these dive shops and asked divers to fill out the surveys; the vast majority of control group participants were recruited via this direct contact.

The surveys were pilot tested and refined with several local divers in January 2023 prior to data collection. They were administered via Google Forms and gathered the following information:

  • Dive Experience: Lifetime dive experience was approximated by asking respondents to select whether they had completed 1–14, 15–59 or 60 or more dives. These intervals were chosen to reflect the minimum number of dives the NGOs require for divers to join the restoration course (15), and the minimum number of dives required to become a professional diver by the Professional Association of Diving Instructors standards (60).

  • Bay Islands Dive Experience: Respondents were asked how many dives they’d completed in their lives in the Bay Islands with the same response options as the previous question.

  • Prior Restoration Experience: Respondents who indicated that they had previously participated in coral restoration were asked when and where they had first participated, as well as how many total times they had done so.

  • Restoration Course Taken: Whether the respondent had trained (or was about to train) in coral restoration through the Roatan Marine Park (RMP), Bay Islands Reef Restoration or a separate organization.

  • Dive Shop: The certifying business that respondents primarily dove/trained with.

The surveys also posed three open-ended questions. The first two asked participants to list actions that a) individuals/communities and b) governments could take to protect coral reef health. The following explanation was provided: For this survey, a healthy coral reef is defined as one with a high amount of living coral, large and diverse populations of marine life, and the ability to support human communities. The third open-ended question was, “In what ways, if any, do you intend to protect the health of coral reefs in the future? Please include anything you already do and intend to continue doing.” Gender, age, place of origin and place of residence were collected at the end of the survey as optional demographic data. Participants could optionally indicate willingness to discuss their answers further in an interview.

Initial surveys (n = 83) were completed between January 25, 2023 and August 1, 2023. Surveys were submitted by more than three quarters of all new participants in one coral restoration program over the data collection period, and for a third of the new participants in another program over the same period.

Semi-structured interviews

Semi-structured interviews were conducted with a subset of restoration learners and experienced restoration divers to gain a more robust understanding than would have been possible from surveys alone of a) how these divers perceived threats to coral reefs and their own contributions to protecting them, b) affective associations with coral reefs and restoration, and c) self-reported changes in knowledge or attitudes from restoration participation, positioned broadly in the interview questions as “takeaways.” These questions were structured to elucidate cognitive, affective and self-reported behavioral components of participants’ engagement with coral reef restoration.

The semi-structured interview questions and guidelines (Supplementary Appendix 2) were tested and refined for clarity with a newly certified restoration diver, an experienced restoration diver and a restoration instructor in January 2023. Prospective semi-structured interview participants were identified based on their willingness to participate as indicated in their survey and selected based on availability and willingness to proceed upon a researcher reaching out. For participants identified as restoration learners in the initial surveys, interviews were scheduled as soon as possible after the completion of their coral restoration training.

Fifteen semi-structured interviews were completed between January 25, 2023 and August 1,2023. Six of the interview participants were professional divers in Roatan at the time of the interview, including three dive instructors who taught coral restoration to incoming volunteers; the remaining eight were primarily recreational divers. For interviews conducted in English, initial transcripts were generated by Otter.ai, then reviewed for accuracy and lightly edited for clarity. Interviews in Spanish were transcribed manually, then translated to English with ChatGPT 3.5 and reviewed for accuracy by a bilingual researcher. After one interview was removed for poor audio quality, qualitative coding was performed on the remaining 14 semi-structured interview transcripts.

Data analysis

All surveys and interviews were imported to Atlas.ti version 23.2.1 (Supplementary Appendix 3). Analysis was conducted and data were visualized both within Atlas.ti and in R version 2023.09.0+463.

Demographics

The number of survey respondents was visualized, grouped by their restoration experience and age, gender, place of origin, place of residence and scuba diving experience using the ggplot2 package (Wickham, Reference Wickham2016) in R.

Likert-type question

The Likert-type survey responses asking participants to rate their agreement with “I do a lot to protect the health of coral reefs,” on a scale from “Strongly Disagree” to “Strongly Agree” were assigned numeric equivalent responses (1 = “Strongly Disagree” and 6 = “Strongly Agree”). The values were then fitted to an ordered logistic regression model with the “polr” function in R’s MASS package (Venables and Ripley, Reference Venables and Ripley2002) with variables including coral restoration experience, experience diving in the Bay Islands, gender and place of origin. The “stepAIC” function was used for stepwise selection to determine the optimal model, then tested for goodness of fit by running a type II ANOVA with Wald chi-square tests on a cumulative link model using the “clm” function in R’s ordinal package (Christensen, Reference Christensen2023) with the selected parameters.

Open-ended survey questions

The qualitative coding of open-ended survey responses and semi-structured interviews was performed in Atlas.ti version 23.2.1. Responses to the three open-ended survey questions about ways to protect coral reef health were coded in several iterative rounds. “Don’t know” and “nothing” were each coded as well; answers that did not emerge among multiple respondents were coded as “other.”

These data were treated as binary in analysis, for example, 0 to indicate absence of a particular code for a given respondent or 1 to indicate the code’s presence. Because of the relatively small sample size, Fisher‘s Exact Test (“fisher.bintest” in R package RVAideMemoire) was used instead of a chi-square test to determine the significance of the relationships between certain variables and responses, including how restoration experience and gender correlated with the likelihood of mentioning lowering carbon emissions or coral restoration as a way to protect coral reef health. The codes representing the 10 most common responses to the open-ended questions were visualized using ggplot2 in R, grouped by the three restoration experience groups analyzed (control, learner and experienced).

Interviews

Interview transcripts were coded inductively in several iterative and reflexive rounds of thematic analysis (Guest et al., Reference Guest, MacQueen and Namey2011) within Atlas.ti to identify and refine recurrent emergent themes. A blended deductive–inductive approach (as described by Proudfoot, Reference Proudfoot2023) was used for coding, with interviews read closely for any emergent themes, as well as for themes elucidating participants’ cognitive, affective and behavioral engagement with coral reefs and restoration.

Results

Demographics

All demographic data collected are displayed in Figure 1. Survey respondents were predominantly from the United States (n = 49), with Canada (n = 14), Europe (n = 10) and Honduras (n = 6) being the next most common places of origin. Fewer than 11% (n = 9) of survey respondents were from Latin America. The experienced restoration volunteers skewed female when compared with both the control group and the restoration learners (76% of experienced restoration volunteers surveyed were female, whereas restoration learners and control divers were evenly split).

Figure 1. Number of survey respondents grouped by their coral restoration experience and plotted by (A) age, (B) gender, (C) place of origin, (D) place of residence, (E) overall diving experience and (F) Bay Islands diving experience. Not all plots total to 83 (the number of surveys collected) due to the exclusion of less common answers (e.g., n = 1 for “India” as place of origin).

Experienced coral restoration divers also had more overall dive experience as well as experience diving in the Bay Islands, while control group divers were less likely to have experience scuba diving, overall or in the Bay Islands.

Surveys

Likert-type model selection

The model that minimized the Akaike information criterion (AIC) value for the Likert-type question responses (Figure 2) included both coral restoration experience and Bay Islands diving experience as positively correlated with higher rankings on the Likert-type question, but excluded gender and place of origin (AIC = 248.72). The goodness of fit test returned a significant result for coral restoration experience (p = 0.01616) and a marginally significant result for participants’ number of dives in the Bay Islands (p = 0.06052). The model was very significant for control divers compared with restoration learners (p = 0.00882) and marginally significant for restoration learners compared with experienced restoration divers (p = 0.05097), but was not significant for the control group compared with experienced restoration divers (p = 0.72093). It was also significant for the lowest level of Bay Islands dive experience compared with both the intermediate (p = 0.04295) and highest (p = 0.04158) tiers of participants’ total Bay Islands dives.

Figure 2. Survey responses (n = 83) expressing level of agreement with the statement “I do a lot to protect the health of coral reefs,” grouped by level of restoration experience.

Open-ended questions

Open-ended survey responses about protecting coral reef health were coded as 632 distinct segments, with a median of two coded segments per open-ended question per respondent. Recurring responses about protecting coral reef health were ultimately grouped into 12 distinct codes (Table 1).

Table 1. Top responses coded in response to the three open-ended survey questions: List any actions you think individuals or communities could take that would help protect the health of coral reefs; List any actions you think governments could take that would help protect the health of coral reefs; and In what ways, if any, have you helped protect the health of coral reefs in the last year?

Divers at all levels of restoration experience (control divers, restoration learners and experienced coral restoration divers) were similarly likely to list coral restoration as a way to protect coral reef health for at least one of the open-ended questions about protecting coral reef health. However, the frequency of other responses varied notably by restoration experience, for example, 18% of control divers writing at least one response coded as fisheries-related compared with 44/45% for experienced restoration divers and restoration learners, respectively (p = 0.04396, Fisher’s exact test).

The “lower carbon emissions” response showed a similar contrast, with fewer than 14% of control group divers identifying “lower carbon emissions” as a way to protect coral reef health compared with 32% of restoration learners and 30% of experienced restoration divers; however, this difference was not statistically significant (p = 0.2006, Fisher’s exact test). There was a significant difference (p = 0.0236) based on gender, with 14% of male participants listing lower carbon emissions in at least one of their open-ended responses compared with 37% of females.

The top 10 most common responses overall are shown with the proportion of survey respondents from each tier of restoration experience who gave that response in Figure 3.

Figure 3. Top 10 ways to protect the health of coral reefs identified by participants in response to (A) any of the three open-ended survey questions, (B) individual or community actions, (C) government actions, and (D) personal actions (those the participant personally takes or intends to take). Responses were aggregated with survey questions, “List any actions you think individuals or communities could take that would help protect the health of coral reefs”; “List any actions you think governments could take that would help protect the health of coral reef” and “In what ways, if any, have you helped protect the health of coral reefs in the last year?” Responses are ordered by the proportion of restoration learners (green bar) that indicated a given response for at least one of the three open-ended survey questions. See Table 1 for the descriptions and examples of the open-ended responses.

Semi-structured interviews

A blended inductive and deductive approach yielded a median of 36 coded segments per semi-structured interview, with themes related to divers’ motivations, perceptions and behavior (Table 2). Participants most commonly described coral restoration in terms of its experiential or “hands-on” qualities, as well as in reference to the scope and/or scale of the work (each brought up in 10 of the 14 interviews, or 71%). Coral restoration was also described as challenging (five interviews/36%), fun or enjoyable (four interviews/29%) and relaxing (three interviews/21%).

Table 2. Themes coded in at least 20% (three or more) of semi-structured interviews

Both newly certified restoration divers and seasoned professionals often discussed experts and science, typically in the context of minimizing their own experiences or contributions. Participant 2, a recreational diver who had recently completed restoration training and decided to begin professional dive training at the time of the interview, commented in regard to her self-appraisal of her own efforts to protect coral reef health:

I’m not a marine biologist. I’m not a professional. I’m not someone who’s doing anything in that sense. I am purely a recreational diver – well now, hooray, a professional diver. But I’m not a scientist, if you know what I mean…I agree that I’m doing something, and previously as a purely recreational diver, I was actively getting involved. But yeah, you certainly can’t be the person who says ‘I strongly agree that I am doing everything I can for the reefs’, because you know, that’s not my job.

Participant 18, a dive professional who teaches and certifies new coral restoration volunteers, expressed similar reservations:

I am working on it quite a bit but at the same time, it’s not completely because I am not a scientist. I am not a marine biologist. That is not my background. My background is a dive professional…

Participant 18 went on to describe an extensive career of marine stewardship and advocacy. Other participants emphasized experts and scientists as a source of hope for coral reefs because of their work in coral restoration, but positioned themselves outside of contributing to that work. Participant 21, a short-term visitor interviewed after completing the restoration training, encapsulated these perspectives:

I think it’s really, really cool to see people who are dedicating their lives to that. I think that’s the thing that probably sparked some hopefulness is seeing the dedication that you guys have. It makes me – it makes me want to do it. I’m a photographer, I’m not a scientist, so I won’t….

Other emergent themes included doubt or uncertainty, including personal doubt (e.g., participant 63, “You’re not sure if you’re helping”); restoration process doubt (e.g., participant 76, “It also made me feel the slightest bit like ‘okay, this algae is just gonna grow back’…hopefully this helps the coral because I’m being told that it does, so I’m going to do this, but part of me is like, I don’t know.”) and moral doubt (e.g., participant 69, “Sometimes I wonder if it’s okay for humans to intervene so much in these things…it’s like the manipulation of all this, right? But then I say, ‘Okay, humans have put their hands in many things, sometimes for good, sometimes for bad’. So I just think, ‘I hope this is for the good’. Because nature itself knows and regenerates itself, too.”). At least one expression of doubt or uncertainty occurred in half of the interviews.

Scuba diving culture and tourist behavior were also recurrent emergent themes, with at least one of these discussed in 79% of the interviews. Several dive professionals emphasized the importance of serving as role models and safeguards against destructive practices (e.g., participant 47, “We [dive professionals] also have to take care of our part. When we have visitors, maybe they are not aware, but we are.”). Tourists placed responsibility on other tourists more so than on dive professionals (e.g., participant 49, a short-term visitor, who said, “All their sunscreen, all them with no consciousness about [how] you can’t touch the reef, you can’t step on the reef, you need to protect it … There’s just so many things that people are not educated [about]… it makes me so sad and scared for that impact, the cruise ship impact, and the people who just come off the ship.”).

Discussion

Recreational and professional scuba divers can be valuable allies for ocean conservation goals (Forrest et al., Reference Forrest, Favoretto, Nisa and Aburto-Oropeza2023), including coral restoration efforts (Hesley et al., Reference Hesley, Kaufman and Lirman2023). Through surveys and interviews conducted with divers in Roatan, Honduras, this research provides nuanced insights into the attitudes and perceptions of divers engaged in coral restoration. The study reveals that divers with experience in coral restoration programs do not necessarily perceive their contributions to coral health as surpassing those of non-participating divers (Figure 2), even though they demonstrate a more profound understanding of coral reef threats (Figure 3). Volunteers involved in coral restoration were more than twice as likely as their non-participating counterparts to note the importance of reducing carbon emissions for coral health. However, they are not more likely than control divers to identify coral restoration as a way to protect reef health. This study builds upon the premise of Sebastian et al. (Reference Sebastian, Sparks, Resolute and Prasetijo2024) that “community-based restoration efforts can be utilized as a conservation education tool to promote ecological awareness, stewardship and inspire future conservationists.” While volunteers display a strong baseline awareness and concern for coral reef threats, their participation in restoration projects nevertheless enhances their understanding of coral conservation.

Awareness of threats to coral reefs

These findings suggest some support for the popular concept among reef restoration practitioners that engaging in coral restoration can raise engagement with coral reef threats (Schmidt-Roach et al., Reference Schmidt-Roach, Duarte, Hauser and Aranda2020). However, the survey responses and interviews more clearly indicate that participation in coral reef restoration is a self-selecting activity among divers already concerned with the wellbeing of coral reefs. This is particularly evidenced by the fact that when restoration learners enroll as volunteers, they demonstrate a stronger baseline awareness than control divers of the need to lower carbon emissions (Kleypas et al., Reference Kleypas, Allemand, Anthony, Baker, Beck, Hale, Hilmi, Hoegh-Guldberg, Hughes, Kaufman, Kayanne, Magnan, Mcleod, Mumby, Palumbi, Richmond, Steneck, Voolstra and Gattuso2021; Hoegh-Guldberg and Manzello, Reference Hoegh-Guldberg and Manzello2023) to protect coral reefs (Figure 3).

Conversely, control divers were the most likely group to offer responses about protecting coral reef health in the “reduce plastic/litter” category (Figure 3), although this response was among the most common for all restoration groups. This supports prior research (e.g., Dean et al., Reference Dean, Gulliver and Wilson2021; Apps et al., Reference Apps, Heagney, Thi Khanh Ngoc, Dimmock and Benkendorff2023; Waters et al., Reference Waters, Wilson and Dean2023), suggesting that divers and general non-experts have a mixed understanding of the major threats facing coral reefs and may focus on visible threats like plastic or diver behavior (Dearden et al., Reference Dearden, Bennett and Rollins2007) while underestimating the importance of key actions for coral reef survival, such as curtailing greenhouse gas emissions.

Gender and coral reef threats

A notable gender gap emerged in the responses about protecting coral reef health, with 37% of all female respondents providing a response in the “lower carbon emissions” grouping for at least one of the questions compared with 14% of men. Of the five males in the experienced restoration diver category, none gave responses that included “lower carbon emissions,” and women were more likely to bring up lowering carbon emissions than their male counterparts in every restoration experience group. This difference is particularly striking since lowering carbon emissions is considered by most experts to be the chief requirement for coral reef survival (Kleypas et al., Reference Kleypas, Allemand, Anthony, Baker, Beck, Hale, Hilmi, Hoegh-Guldberg, Hughes, Kaufman, Kayanne, Magnan, Mcleod, Mumby, Palumbi, Richmond, Steneck, Voolstra and Gattuso2021; Hoegh-Guldberg and Manzello, Reference Hoegh-Guldberg and Manzello2023).

The gender gap in identifying carbon emissions as necessary for protecting coral reef health may reflect the well-documented tendency for women across demographic groups to have more knowledge and concern on average than men about both climate change and broader environmental issues (McCright, Reference McCright2010; McCright and Xiao, Reference McCright and Xiao2014). Although there is some debate as to how universal the climate and environment gender gap is outside Western nations (Knight, Reference Knight2019), the high proportion of U.S. respondents in this study (59%) makes a stark gender divide plausible.

Perceptions of expertise

Experienced coral restoration volunteers demonstrated a more comprehensive understanding of coral reef threats than control group divers, but did not assess themselves significantly differently from control divers in agreement with “I do a lot to protect coral reef health” (Figure 2). Several interviews further support the notion that restoration divers, whether new learners or experienced, are hesitant to characterize their own contributions to conserving the reef as meaningful compared with the efforts of scientists or experts, who they perceive as more impactful. Interview subjects who acknowledged that they knew more, cared more or acted more than a typical diver on behalf of coral reefs were then quick to discount these comparative strengths.

One possible interpretation aligns with the tendency of competent people to underestimate their own abilities (Kruger and Dunning, Reference Kruger and Dunning1999), hypothesized to be in part due to a better metacognitive assessment of “knowing what they don’t know” compared with less competent populations but also due to high-performers overestimating others’ competence (Dunning, Reference Dunning2011). Highly motivated and experienced restoration divers may therefore more accurately recognize the complexity and challenges of protecting coral reef health than their less experienced counterparts, comparable to Fuchs’s (Reference Fuchs2023) finding that “attitude and intention deteriorated” with gains in environmental education among college students. The comparative nature of volunteers’ low self-assessments of their contributions, for example, by invoking scientists, researchers or professionals in coral conservation, may merit further research and consideration in shaping communities of restoration involving non-experts, as the authors found little literature documenting or refuting this phenomenon.

Limitations

An opportunistic subset of the control population (anyone who dove at the same dive shops administering the restoration courses during the time period when the study was conducted) was asked to complete the survey. Although any eligible diver could contribute by scanning the QR codes in participating dive shops, in practice nearly all control surveys were acquired by direct interaction when approached by a researcher after or between dives. This may have resulted in unintentional sampling bias in control group divers. The survey format may also have biased control group divers toward considering coral restoration in their open-ended responses, since all survey respondents were required to select their level of coral restoration experience before answering the other survey questions.

In addition, demographic data did not distinguish between Hondurans from the Bay Islands and those originally from the Honduran mainland, a potentially relevant oversight since many Bay Islanders have substantial linguistic and cultural differences from mainland Hondurans (Stonich et al., Reference Stonich, Sorensen and Hundt2009) that may uniquely influence their relationships to the reef. However, since a small proportion of respondents were originally from Honduras, the authors do not believe this significantly biased the results.

Finally, it is relevant to note that the scope of this research focused only on coral restoration programs run by NGOs with reef conservation as core to their stated missions, and which explicitly teach restoration volunteers why specific restoration choices had been made and why the organizations were undertaking coral restoration in the first place. The NGOs involved in this research also mandate that volunteer divers learn about the wide range of threats to Roatan’s reef system before they begin learning specific restoration techniques; explanations of the historic and present-day causes of reef decline take 30 minutes or more. However, other coral restoration initiatives across the world may be far less thorough in informing volunteer divers. In addition, other coral restoration efforts can arise from objectives such as mandated remediation for environmental damage or for-profit entities (Suggett et al., Reference Suggett, Edwards, Cotton, Hein and Camp2023), which may intend coral restoration to bolster their public image. This distinction matters in particular for research on engagement outcomes for volunteers, both in terms of the baseline engagement and knowledge of people who self-select to participate and in what they take away from the experience.

Conclusions and recommendations

This study underscores the significant role that coral restoration initiatives play in elevating awareness and deepening understanding of the critical threats facing coral reefs. Participants in these programs exhibit a higher baseline commitment to reef protection, driven by their direct involvement and increased awareness of environmental challenges. This engagement highlights coral restoration not just as a conservation strategy but as an effective educational tool that enhances ecological consciousness among community members and volunteers.

However, our findings also reveal a noteworthy communication challenge within the coral restoration community. Despite their active participation and substantial contributions to reef health, many volunteers grapple with a sense of doubt and a perceived lack of legitimacy in their efforts, primarily because they do not identify as scientists. This sentiment reflects a broader misconception that scientific expertise is the sole custodian of environmental stewardship.

Addressing this issue presents a critical opportunity for coral restoration programs. There is a pressing need to broaden the narrative to include all stakeholders in environmental conservation efforts. By emphasizing that every individual’s efforts are valid and valuable, restoration programs can empower participants and reinforce the idea that the responsibility for our planet’s health is shared, not exclusive to the scientific community. Ultimately, expanding this inclusive approach will not only enhance the effectiveness of coral restoration efforts but also foster a more engaged, informed and committed global community dedicated to sustaining the health of our oceans.

Further research is necessary to evaluate whether the findings outlined here can be applied in broader contexts, such as coral restoration programs with similar volunteer models outside of Roatan. Related research questions, such as which educational interventions might effectively boost volunteer engagement with non-restoration coral health measures, and how to best empower participants to view themselves as meaningful contributors and ambassadors, are ripe for future exploration.

Supplementary material

The supplementary material for this article can be found at http://doi.org/10.1017/cft.2024.13.

Open peer review

To view the open peer review materials for this article, please visit http://doi.org/10.1017/cft.2024.13.

Data availability statement

All data and detailed explanations of how analysis was conducted on the data are available in the Cambridge Open Engage repository at https://www.cambridge.org/engage/coe/article-details/658deed6e9ebbb4db9f0a2b0.

Acknowledgements

This research would not have been possible without support from partner organizations including the Roatan Marine Park and Bay Islands Reef Restoration, as well as the funding and support of the Fulbright Program and National Geographic Society. Yolanda Lee Waters contributed valuable early feedback on the research design. Juan Manuel Castro Antunez and Verónica Coates back-translated the survey and semi-structured interview questions, respectively, from Spanish to English to independently test consistency between the versions. Aditya Khandelwal advised on code in R.

Author contribution

Conceptualization: S.G.; Data curation: S.G.; Formal analysis: S.G.; Investigation: S.G.; Methodology: S.G., A.R.; Original draft: S.G.; Review and editing: A.R.; Software resources: A.R.; Supervision: A.R.; Validation: A.R.

Financial support

Funding for this research came from the U.S. State Department Bureau of Educational and Cultural Affairs Fulbright Program as a 2022–2023 Fulbright-National Geographic Storytelling award.

Competing interest

The authors declare no competing interests.

References

Anthony, KRN, Helmstedt, KJ, Bay, LK, Fidelman, P, Hussey, KE, Lundgren, P, Mead, D, McLeod, IM, Mumby, PJ, Newlands, M, Schaffelke, B, Wilson, KA and Hardisty, PE (2020) Interventions to help coral reefs under global change – a complex decision challenge. PLoS One 15(8), e0236399. https://doi.org/10.1371/journal.pone.0236399.CrossRefGoogle Scholar
Apps, K, Heagney, E, Thi Khanh Ngoc, Q, Dimmock, K and Benkendorff, K (2023) Scuba divers, coral reefs, and knowledge of ocean acidification. Marine Policy 155, 105779. https://doi.org/10.1016/j.marpol.2023.105779.CrossRefGoogle Scholar
Arrivillaga, A and Arreola, ME (2016) The Mesoamerican Barrier Reef System. In Marine Transboundary Conservation and Protected Areas. Routledge.Google Scholar
Bayraktarov, E, Banaszak, AT, Maya, PM, Kleypas, J, Arias-González, JE, Blanco, M, Calle-Triviño, J, Charuvi, N, Cortés-Useche, C, Galván, V, Salgado, MAG, Gnecco, M, Guendulain-García, SD, Delgado, EAH, Moraga, JAM, Maya, MF, Quiroz, SM, Cervantes, SM, Morikawa, M, Nava, G, Pizarro, V, Sellares-Blasco, RI, Ramos, SES, Cubero, TV, Villalpando, MF and Frías-Torres, S (2020) Coral reef restoration efforts in Latin American countries and territories. PLOS ONE 15(8), e0228477. https://doi.org/10.1371/journal.pone.0228477.CrossRefGoogle ScholarPubMed
Bayraktarov, E, Stewart-Sinclair, PJ, Brisbane, S, Boström-Einarsson, L, Saunders, MI, Lovelock, CE, Possingham, HP, Mumby, PJ and Wilson, KA (2019) Motivations, success, and cost of coral reef restoration. Restoration Ecology 27(5), 981991. https://doi.org/10.1111/rec.12977.CrossRefGoogle Scholar
Boström-Einarsson, L, Babcock, RC, Bayraktarov, E, Ceccarelli, D, Cook, N, Ferse, SCA, Hancock, B, Harrison, P, Hein, M, Shaver, E, Smith, A, Suggett, D, Stewart-Sinclair, PJ, Vardi, T and McLeod, IM (2020) Coral restoration – a systematic review of current methods, successes, failures and future directions. PLoS One 15(1), e0226631. https://doi.org/10.1371/journal.pone.0226631.CrossRefGoogle ScholarPubMed
Christensen, R (2023). Ordinal–Regression Models for Ordinal Data. R package version 2023.12-4. https://CRAN.R-project.org/package=ordinal.Google Scholar
Dean, AJ, Gulliver, RE and Wilson, KA (2021) “Taking action for the reef?” – Australians do not connect reef conservation with individual climate-related actions. Conservation Letters 14(2), e12765. https://doi.org/10.1111/conl.12765.CrossRefGoogle Scholar
Dearden, P, Bennett, M and Rollins, R (2007) Perceptions of diving impacts and implications for reef conservation. Coastal Management 35(2–3), 305317.CrossRefGoogle Scholar
Doiron, S and Weissenberger, S (2014) Sustainable dive tourism: Social and environmental impacts – the case of Roatan, Honduras. Tourism Management Perspectives 10, 1926. https://doi.org/10.1016/j.tmp.2013.12.003.CrossRefGoogle Scholar
Dunning, D (2011) The Dunning–Kruger effect. Advances in Experimental Social Psychology, Vol. 44. London: Elsevier, 247296. https://doi.org/10.1016/B978-0-12-385522-0.00005-6.Google Scholar
Escovar-Fadul, X, Hein, M, Garrison, K, McLeod, E, Eggers, M and Comito, F (2022) A Guide to Coral Reef Restoration for the Tourism Sector: Partnering with Caribbean Tourism Leaders to Accelerate Coral Restoration. The Nature Conservancy. https://www.nature.org/content/dam/tnc/nature/en/documents/Coral_Restoration_Guide_for_the_Tourism_Sector.pdf.Google Scholar
Fadli, N, Campbell, SJ, Ferguson, K, Keyse, J, Rudi, E, Riedel, A and Baird, AH (2012) The role of habitat creation in coral reef conservation: a case study from Aceh, Indonesia. Oryx 46(4), 501507. https://doi.org/10.1017/S0030605312000142.CrossRefGoogle Scholar
Forrest, MJ, Favoretto, F, Nisa, ZA and Aburto-Oropeza, O (2023) A deeper dive into the blue economy: The role of the diving sector in conservation and sustainable development goals. Frontiers in Marine Science 10, 1212790. Available at https://www.frontiersin.org/articles/10.3389/fmars.2023.1212790 (accessed 25 January 2024).CrossRefGoogle Scholar
Fuchs, K (2023) Consciousness toward environmental sustainability, tourism education, and the Dunning–Kruger effect. Tourism: An International Interdisciplinary Journal 71(1), 211216. https://doi.org/10.37741/t.71.1.13.CrossRefGoogle Scholar
Funderburk, T (2023) Personal communication with author SG (10/30/2023).Google Scholar
Gibbs, MT, Gibbs, BL, Newlands, M and Ivey, J (2021) Scaling up the global reef restoration activity: Avoiding ecological imperialism and ongoing colonialism. PLoS One 16(5), e0250870. https://doi.org/10.1371/journal.pone.0250870.CrossRefGoogle ScholarPubMed
Guest, G, MacQueen, KM and Namey, EE (2011) Applied Thematic Analysis. SAGE Publications.Google Scholar
Hein, MY, Birtles, A, Willis, BL, Gardiner, N, Beeden, R and Marshall, NA (2019) Coral restoration: Socio-ecological perspectives of benefits and limitations. Biological Conservation 229, 1425. https://doi.org/10.1016/j.biocon.2018.11.014.CrossRefGoogle Scholar
Hein, MY, Vardi, T, Shaver, EC, Pioch, S, Boström-Einarsson, L, Ahmed, M, Grimsditch, G and McLeod, IM (2021) Perspectives on the use of coral reef restoration as a strategy to support and improve reef ecosystem services. Frontiers in Marine Science 8, 618303. Available at https://www.frontiersin.org/articles/10.3389/fmars.2021.618303.CrossRefGoogle Scholar
Hein, MY, Willis, BL, Beeden, R and Birtles, A (2017) The need for broader ecological and socioeconomic tools to evaluate the effectiveness of coral restoration programs. Restoration Ecology 25(6), 873883. https://doi.org/10.1111/rec.12580.CrossRefGoogle Scholar
Hesley, D, Kaufman, M and Lirman, D (2023) Citizen science benefits coral reefs and community members alike. Frontiers in Environmental Science 11, 1250464. Available at https://www.frontiersin.org/articles/10.3389/fenvs.2023.1250464.CrossRefGoogle Scholar
Hoegh-Guldberg, O and Manzello, DP (2023) Coral reefs in peril in a record-breaking year. Science 382(6676), 12381240. https://doi.org/10.1126/science.adk4532.CrossRefGoogle Scholar
Hofman, K, Hughes, K and Walters, G (2020) Effective conservation behaviours for protecting marine environments: The views of the experts. Journal of Sustainable Tourism 28, 119. https://doi.org/10.1080/09669582.2020.1741597.CrossRefGoogle Scholar
Howlett, L, Camp, EF, Edmondson, J, Edmondson, J, Agius, T, Hosp, R, Coulthard, P, Edmondson, S and Suggett, DJ (2022) Adoption of coral propagation and out-planting via the tourism industry to advance site stewardship on the northern great barrier reef. Ocean & Coastal Management 225, 106199. https://doi.org/10.1016/j.ocecoaman.2022.106199.CrossRefGoogle Scholar
Hughes, TP, Baird, AH, Morrison, TH and Torda, G (2023) Principles for coral reef restoration in the anthropocene. One Earth 6(6), 656665. https://doi.org/10.1016/j.oneear.2023.04.008.CrossRefGoogle Scholar
Instituto Hondureño de Turismo (2022) Statistics, Reportes Dinámicos, Visitantes Años 2018–2022 (Accessed 2 April 2024).Google Scholar
Kleypas, J, Allemand, D, Anthony, K, Baker, A, Beck, M, Hale, L, Hilmi, N, Hoegh-Guldberg, O, Hughes, T, Kaufman, L, Kayanne, H, Magnan, A, Mcleod, E, Mumby, P, Palumbi, S, Richmond, R, Steneck, R, Voolstra, C and Gattuso, J-P (2021) Designing a blueprint for coral reef survival. Biological Conservation 257. https://doi.org/10.1016/j.biocon.2021.109107.CrossRefGoogle Scholar
Knight, KW (2019) Explaining cross-national variation in the climate change concern gender gap: A research note. The Social Science Journal 56(4), 627632. https://doi.org/10.1016/j.soscij.2018.08.013.CrossRefGoogle Scholar
Kruger, J and Dunning, D (1999) Unskilled and unaware of it: How difficulties in recognizing one’s own incompetence lead to inflated self-assessments. Journal of Personality and Social Psychology 77, 11211134. https://doi.org/10.1037//0022-3514.77.6.1121.CrossRefGoogle ScholarPubMed
Le, (J)D, Becken, S and Curnock, M (2022) Gaining public engagement to restore coral reef ecosystems in the face of acute crisis. Global Environmental Change 74, 102513. https://doi.org/10.1016/j.gloenvcha.2022.102513.CrossRefGoogle Scholar
Machado Toffolo, M, Simoncini, GA, Marchini, C, Meschini, M, Caroselli, E, Franzellitti, S, Prada, F and Goffredo, S (2022) Long-term effects of an informal education program on tourist environmental perception. Frontiers in Marine Science 9, 830085. https://doi.org/10.3389/fmars.2022.830085.CrossRefGoogle Scholar
McCright, AM (2010) The effects of gender on climate change knowledge and concern in the American public. Population and Environment 32(1), 6687. https://doi.org/10.1007/s11111-010-0113-1.CrossRefGoogle Scholar
McCright, AM and Xiao, C (2014) Gender and Environmental Concern: Insights from Recent Work and for Future Research. Society & Natural Resources 27(10), 11091113. https://doi.org/10.1080/08941920.2014.918235.CrossRefGoogle Scholar
Nedimyer, K, Gaines, K and Roach, S (2011) Coral tree nursery ©: An innovative approach to growing corals in an ocean-based field nursery. AACL Bioflux 4, 442446.Google Scholar
Powell, RB and Ham, SH (2008) Can ecotourism interpretation really lead to pro-conservation knowledge, attitudes and behaviour? Evidence from the Galapagos Islands. Journal of Sustainable Tourism 16(4), 467489. https://doi.org/10.1080/09669580802154223.CrossRefGoogle Scholar
Prideaux, B and Pabel, A (2018) Coral Reefs: Tourism, Conservation and Management. London: Routledge.CrossRefGoogle Scholar
Proudfoot, K (2023) Inductive/Deductive Hybrid Thematic Analysis in Mixed Methods Research. Journal of Mixed Methods Research 17(3), 308326. https://doi.org/10.1177/15586898221126816.CrossRefGoogle Scholar
Schmidt-Roach, S, Duarte, CM, Hauser, CAE and Aranda, M (2020) Beyond reef restoration: Next-generation techniques for coral gardening, landscaping, and outreach. Frontiers in Marine Science 7, 672. https://doi.org/10.3389/fmars.2020.00672.CrossRefGoogle Scholar
Sebastian, P, Sparks, L, Resolute, P and Prasetijo, R (2024) Connecting communities to coral reefs: A socio-ecological perspective on coral restoration programs in a remote marine protected area. Journal of Coastal Conservation 28(39). https://doi.org/10.1007/s11852-024-01041-6.CrossRefGoogle Scholar
Shaver, EC, McLeod, E, Hein, MY, Palumbi, SR, Quigley, K, Vardi, T, Mumby, PJ, Smith, D, Montoya-Maya, P, Muller, EM, Banaszak, AT, McLeod, IM and Wachenfeld, D (2022) A roadmap to integrating resilience into the practice of coral reef restoration. Global Change Biology 28(16), 47514764. https://doi.org/10.1111/gcb.16212.CrossRefGoogle ScholarPubMed
Stonich, SC, Sorensen, JH and Hundt, A (2009) Ethnicity, class, and gender in tourism development: The case of the Bay Islands, Honduras. Journal of Sustainable Tourism 3(1), 128. https://doi.org/10.1080/09669589509510705.CrossRefGoogle Scholar
Suggett, DJ, Edwards, M, Cotton, D, Hein, M and Camp, EF (2023) An integrative framework for sustainable coral reef restoration. One Earth 6(6), 666681. https://doi.org/10.1016/j.oneear.2023.05.007.CrossRefGoogle Scholar
Venables, WN and Ripley, BD (2002) Modern Applied Statistics with S, 4th Edn. New York: Springer. Available at https://www.stats.ox.ac.uk/pub/MASS4/.CrossRefGoogle Scholar
Waters, YL, Wilson, KA and Dean, AJ (2023) Plastic action or distraction? Marine plastic campaigns influence public engagement with climate change in both general and engaged audiences. Marine Policy 152, 105580. https://doi.org/10.1016/j.marpol.2023.105580.CrossRefGoogle Scholar
Westoby, R, Becken, S and Laria, AP (2020) Perspectives on the human dimensions of coral restoration. Regional Environmental Change 20(4), 109. https://doi.org/10.1007/s10113-020-01694-7.CrossRefGoogle Scholar
Wickham, H (2016) ggplot2: Elegant Graphics for Data Analysis. New York: Springer. Available at https://ggplot2.tidyverse.org.CrossRefGoogle Scholar
Yulia Lintangkawuryan, IGP (2023) Empowering voluntourism for sustainable marine ecotourism in tulamben, bali. Journal of Southwest Jiaotong University 58(4). http://jsju.org/index.php/journal/article/view/1740.Google Scholar
Figure 0

Figure 1. Number of survey respondents grouped by their coral restoration experience and plotted by (A) age, (B) gender, (C) place of origin, (D) place of residence, (E) overall diving experience and (F) Bay Islands diving experience. Not all plots total to 83 (the number of surveys collected) due to the exclusion of less common answers (e.g., n = 1 for “India” as place of origin).

Figure 1

Figure 2. Survey responses (n = 83) expressing level of agreement with the statement “I do a lot to protect the health of coral reefs,” grouped by level of restoration experience.

Figure 2

Table 1. Top responses coded in response to the three open-ended survey questions: List any actions you thinkindividualsorcommunitiescould take that would help protect the health of coral reefs; List any actions you thinkgovernmentscould take that would help protect the health of coral reefs; and In what ways, if any, haveyouhelped protect the health of coral reefs in the last year?

Figure 3

Figure 3. Top 10 ways to protect the health of coral reefs identified by participants in response to (A) any of the three open-ended survey questions, (B) individual or community actions, (C) government actions, and (D) personal actions (those the participant personally takes or intends to take). Responses were aggregated with survey questions, “List any actions you think individuals or communities could take that would help protect the health of coral reefs”; “List any actions you think governments could take that would help protect the health of coral reef” and “In what ways, if any, have you helped protect the health of coral reefs in the last year?” Responses are ordered by the proportion of restoration learners (green bar) that indicated a given response for at least one of the three open-ended survey questions. See Table 1 for the descriptions and examples of the open-ended responses.

Figure 4

Table 2. Themes coded in at least 20% (three or more) of semi-structured interviews

Supplementary material: File

Garcia and Rivera supplementary material

Garcia and Rivera supplementary material
Download Garcia and Rivera supplementary material(File)
File 696.6 KB

Author comment: Seeing the forest for the coral trees: involvement and perceptions of reef threats among coral restoration volunteers in Roatan, Honduras — R0/PR1

Comments

No accompanying comment.

Recommendation: Seeing the forest for the coral trees: involvement and perceptions of reef threats among coral restoration volunteers in Roatan, Honduras — R0/PR2

Comments

Both reviewers conclude that this topic is timely and relevant. Reviewer 1 points out some major structural issues that should be comprehensively addressed in order to consider the manuscript for publication. In particular, the authors need to:

- Be more explicit about survey design and methods for coding,

- Move details of data analysis from the Results to the Methods section,

- Move specific descriptions of the outcomes of the data analyses from the Discussion to the Results section,

- Use the Discussion section to provide a more comprehensive overview about how the results obtained from this study are consistent with or diverge from the broader literature around coral reef restoration and engaging citizen science in management practice, and

- Rename the Additional Discussion section to something like “Research Limitations”

If these major structural changes are made, I don’t believe there would be any need for a Conclusions section.

Lastly, this is a study involving Human Subjects Research, which would typically require ethics approval. Please provide information for any ethics approvals obtained.

Decision: Seeing the forest for the coral trees: involvement and perceptions of reef threats among coral restoration volunteers in Roatan, Honduras — R0/PR3

Comments

No accompanying comment.

Author comment: Seeing the forest for the coral trees: involvement and perceptions of reef threats among coral restoration volunteers in Roatan, Honduras — R1/PR4

Comments

Dear Drs. Spencer and Jupiter,

Thank you and the reviewers for all your help and flexibility. We are submitting the revised manuscript, “Seeing the Forest for the Coral-Trees: Involvement and Perceptions of Reef Threats among Coral Restoration Volunteers in Roatan, Honduras.” We have addressed all the changes recommended by the reviewers. Please see our detailed responses below.

We are confident the suggestions by the reviewers have improved the scientific quality of the manuscript and help clarify our main findings and research process.

Kind regards,

Sierra Garcia (on behalf of myself and Dr. Antonella Rivera)

Corresponding author

Recommendation: Seeing the forest for the coral trees: involvement and perceptions of reef threats among coral restoration volunteers in Roatan, Honduras — R1/PR5

Comments

In addition to the minor areas for revision raised by Reviewer 1, below are a few other minor points:

p. 7, line 41: I believe this should be "code’s"

p. 14, lines 3-7: Suggest editing the participants response so that they don’t come off sounding less intelligent. It is a kind thing to do. You are not changing their content, but just taking out the parts of verbal speech that when written down come off poorly. Suggested revision:

"I think it’s really, really cool to see people who are dedicating their lives to that and it’s for me . . . the thing that probably sparked some hopefulness is seeing the dedication that you guys have. It makes me—it makes me want to do it. . . . I’m a photographer, I’m not a scientist, . . ."

p. 16, line 23: This should be "comparable to Fuchs (2023)’s finding"

Lastly, the authors' response regarding the nature of the research falling clearly within the scope of low-risk human studies exempt from IRB oversight under Common Rule is probably applicable for this seemingly very low-risk questionnaire. However, moving forward, if the intent is to conduct further human subjects research, I would urge the Coral Reef Alliance to consider developing its own internal IRB process or partnering with an institution who does have an IRB. Just because the surveys were reviewed by the Bay Islands National Marine Sanctuary Technical Committee does not necessarily ensure that anyone on that committee has received the proper training to make assessments of risk in research as it pertains to human subjects. Moreover, some journals will not publish social research that has not had full ethics or IRB approval.

Decision: Seeing the forest for the coral trees: involvement and perceptions of reef threats among coral restoration volunteers in Roatan, Honduras — R1/PR6

Comments

No accompanying comment.

Author comment: Seeing the forest for the coral trees: involvement and perceptions of reef threats among coral restoration volunteers in Roatan, Honduras — R2/PR7

Comments

Dear Drs. Spencer and Jupiter,

Thank you for all your help and flexibility. We are submitting the newly revised manuscript, “Seeing the Forest for the Coral-Trees: Involvement and Perceptions of Reef Threats among Coral Restoration Volunteers in Roatan, Honduras.” We have addressed all the changes recommended by the reviewers, and are confident the suggestions by the reviewers have improved the scientific quality of the manuscript and help clarify our main findings and research process.

Warm regards,

Sierra Garcia (on behalf of myself and Dr. Antonella Rivera)

Corresponding author

Recommendation: Seeing the forest for the coral trees: involvement and perceptions of reef threats among coral restoration volunteers in Roatan, Honduras — R2/PR8

Comments

The authors have adequately responded to the further revisions requested. This is acceptable for publication.

Decision: Seeing the forest for the coral trees: involvement and perceptions of reef threats among coral restoration volunteers in Roatan, Honduras — R2/PR9

Comments

No accompanying comment.