Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-27T11:16:15.310Z Has data issue: false hasContentIssue false

Implementation of a Pedagogical Model of Ocean Citizenship: Students’ Perspective

Published online by Cambridge University Press:  18 October 2024

Caroline Schio*
Affiliation:
Instituto de Educação, Universidade de Lisboa, Lisboa, Portugal
Pedro Reis
Affiliation:
Instituto de Educação, Universidade de Lisboa, Lisboa, Portugal
*
Corresponding author: Caroline Schio; Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

This article evaluates the implementation of the pedagogical model by Schio and Reis (2024), aimed at promoting ocean citizenship within basic education. The evaluation is based on a pilot project from the 2021/2022 school year, which involved 543 students, aged 10 to 11, from 10 Blue Schools located along the Portuguese coast. This paper reports on phases 3 and 4 of the Design-Based Research cycle, corresponding to the implementation and evaluation phases of the pedagogical model. Preliminary results allowed us to verify the emergence of new knowledge, skills, values, critical thinking and attitudes, reflecting the development of ocean citizenship competencies among students. These outcomes affirm the model’s applicability and its potential to seamlessly integrate ocean citizenship into the basic education curriculum. However, it was observed that the activism dimension requires additional emphasis. Further testing in diverse educational settings is crucial to refine the model, adjust to local nuances and maximise its impact on nurturing future generations committed to ocean sustainability.

Type
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 (https://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 on behalf of Australian Association for Environmental Education

Contextualisation

Ocean literacy is a powerful tool for enhancing awareness and understanding of the ocean’s critical role and value in our lives (IOC-UNESCO, 2021). It transcends mere skill development and knowledge generation, embodying a systemic and multidimensional strategy to foster behavioural shifts. This approach aims to cultivate ocean citizenship, engaging society at large in devising and applying solutions to contemporary oceanic challenges (Brennan, Ashley & Molloy Reference Brennan, Ashley and Molloy2019, IOC-UNESCO, 2021; McKinley, Burdon & Shellock Reference McKinley, Burdon and Shellock2023; NOAA, 2021). A broader concept of ocean citizenship involves understanding the relationship between our daily lives and the health of the marine environment, exercising the right to participate in transforming society’s relationship with the ocean and accepting responsibility for informed personal and collective actions that contribute to a sustainable marine environment (Buchan, Evans, Pieraccini & Barr Reference Buchan, Evans, Pieraccini and Barr2023; Fletcher & Spotts, 2007; Mckinley & Fletcher, Reference Mckinley and Fletcher2012; Mckinley, Reference Mckinley2010). It emphasises awareness, behaviour change and advocacy for improved marine governance and health, which are key competencies in ocean citizenship.

Building on this foundation, this article aims to evaluate the students’ experience implementing a pedagogical model proposed by Schio and Reis (Reference Schio and Reis2024) (Figure 1), designed to foster ocean citizenship through a pilot project carried out in the 2021/2022 school year. The development of the pedagogical model was extensively described in Schio and Reis (Reference Schio and Reis2024) applying phases 1 and 2 of the Design-Based Research (DBR) cycle. Grounded in systems thinking principles and literature on ocean literacy and citizenship, it merges conceptual and practical aspects through citizen science and youth activism to engage students in research, monitoring and conservation activities along their coastlines.

Figure 1. Pedagogical model for promoting ocean citizenship in basic education as proposed by Schio & Reis (Reference Schio and Reis2024, p.16).

The conceptual component of the model encompasses four dimensions — training, experiences, involvement and activism — each associated with specific actions and competencies for development, complemented by a toolkit to stimulate these actions. Concurrently, the practical component of the model comprises six educational activities tethered to a coastal monitoring project, executed by students under teacher guidance (Figure 1). This paper reports on phases 3 and 4 of the DBR cycle, corresponding to the implementation and evaluation phases of the pedagogical model, providing outcomes that assess the applicability and educational contributions of the model to foster ocean citizenship in basic education.

Studies suggest that enhanced ocean literacy leads to greater valuation of marine environments (Guest, Lotze & Wallace Reference Guest, Lotze and Wallace2015), respect for the sustainability of marine ecosystems (Santoro, Santin, Scowcroft, Fauville & Tuddenham Reference Santoro, Santin, Scowcroft, Fauville and Tuddenham2017) and a heightened willingness to endorse policies promoting ocean health (Steel et al., Reference Steel, Smith, Opsommer, Curiel and Warner-Steel2005). To address the critical challenge of fostering societal involvement in ocean sustainability by 2030, it is essential to develop strategies that strengthen social connections with the ocean, especially among those with limited access to the sea (Kelly et al. Reference Kelly, Evans, Alexander, Bettiol, Corney, Cullen-Knox, Cvitanovic, de Salas, Emad, Fullbrook, Garcia, Ison, Ling, Macleod, Meyer, Murray, Murunga, Nash, Norris, Oellermann, Scott, Stark, Wood and Pecl2022). Consequently, adopting a systemic perspective that acknowledges the complexity of the human–ocean relationship is crucial for creating innovative approaches to support this end.

According to McKinley et al. (Reference McKinley, Burdon and Shellock2023), this complexity includes ten dimensions that should be integrated in ocean literacy initiatives: knowledge, communication, behaviour, awareness, attitudes, activism, emotional connection, access and experience, adaptive capacity and trust and transparency. The success of these initiatives will largely depend on effectively integrating these dimensions and employing new strategies to actively engage citizens in marine conservation. Building on this framework, ocean literacy endeavours should extend beyond ocean science to encompass experiential learning, access to innovative technologies and insights into citizenship, personal and social responsibility, and the nuances of translating knowledge into actionable outcomes (Fielding et al., Reference Fielding, Copley and Mills2019; IOC-UNESCO, 2022; Kelly et al., Reference Kelly, Evans, Alexander, Bettiol, Corney, Cullen-Knox, Cvitanovic, de Salas, Emad, Fullbrook, Garcia, Ison, Ling, Macleod, Meyer, Murray, Murunga, Nash, Norris, Oellermann, Scott, Stark, Wood and Pecl2022; Santoro et al., Reference Santoro, Santin, Scowcroft, Fauville and Tuddenham2017).

Proposing concrete, achievable and empowering projects that address local issues can build belief in the feasibility of change (Reis, Reference Reis, Hadjichambis, Autor, Čincera, Pauw, Gericke and Knippels2020), thus motivating citizen engagement and their “power to act” towards desired global and marine transformations. The Schio and Reis (Reference Schio and Reis2024) pedagogical model (Figure 1) advances these aims, providing a pragmatic and structured approach for fostering ocean citizenship in basic education. By exploring the impact of these pilot experiences on students’ learning and the development of ocean citizenship, the study aims to contribute with valuable insights and pedagogical strategies to the broader field of environmental education practice.

Methodology

The pedagogical model was developed through phases 1 and 2 of the DBR method, as detailed in Schio and Reis (Reference Schio and Reis2024). DBR is a systemic, interventionist and collaborative approach that incorporates various methodological strategies across iterative cycles of design, reflection and redesign (Ponte et al., Reference Ponte, Carvalho, Mata-Pereira and Quaresma2016; Romero-Ariza, Reference Romero-Ariza2014). The DBR cycle consists of four phases: 1) diagnosis, 2) planning, 3) action (implementation) and 4) evaluation (Coghlan & Brannick, Reference Coghlan and Brannick2001) (Figure 2). This article describes the application of phases 3 (action) and 4 (evaluation), presenting the results of the students’ experiences in carrying out the activities proposed in the model. A subsequent publication will discuss the teacher evaluation aspect.

Figure 2. An example of a cyclical design process according to Coghlan and Brannick (Reference Coghlan and Brannick2001) (p. 24).

Implementation of the pedagogical model (DBR phase 3 — action)

As a pilot project, the pedagogical model was first tested in Blue Schools. Run by the Portuguese Ministry of the Economy and Maritime Affairs, this programme certifies schools dedicated to integrating ocean literacy into their curricula, raising awareness of ocean conservation within the educational community (Costa et al., Reference Costa, Mata, Conceição, Silva, Koutsopoulos and Stel2021). The model’s implementation in schools entailed six educational activities, as defined by Schio and Reis (Reference Schio and Reis2024), executed by students under teacher supervision within a coastal monitoring project. These activities included: 1) contextualising ocean-related issues; 2) conducting three beach monitoring outings; 3) evaluating field data; 4) documenting results; 5) disseminating findings; and 6) initiating school/community intervention actions. Figure 3 illustrates the correlation between the six activities and their connection to the model’s conceptual dimensions and actions. This figure helps clarify these relationships, thereby facilitating the subsequent evaluation of the model’s educational impact.

Figure 3. Implementation stages of the pedagogical model’s educational activities, linked to its conceptual dimensions and actions, adapted from Schio and Reis (Reference Schio and Reis2024) (p.15).

Designed to engage both students and teachers, these activities aimed to: a) foster connections and strengthen socio-emotional bonds with the ocean; b) enhance understanding of their local marine and coastal environments through participatory learning and citizen science research, encouraging active investigation and problem-solving; and c) promote critical reflection on the socio-environmental challenges of their coastal zones, leading to think about potential solutions.

This initiative was embraced by 543 students from 26 fifth and sixth-grade classes, aged 10 and 11, across 10 Blue Schools situated in various Portuguese coastal regions (see Figure 4). The diverse fieldwork settings included twelve coastal beaches, one river beach and two estuary beaches. Schools were advised to prepare a research toolkit comprising compasses, magnifying glasses, mini microscopes, shovels, sieves, measuring tapes, thermometers, buckets, stakes, strings, water analysis kits and more. The research tools are essential not only to facilitate the observation of environmental parameters and objects on the beach, but also to stimulate curiosity, motivation, engagement and the cognitive process during the investigative practice (Figure 5).

Figure 4. Distribution of schools participating in the programme along the Portuguese coast.

Figure 5. Coastal monitoring practice illustrations. The left side of the image shows a diagram of the survey transect consisting of five 2 × 2 m squares, totalling 20 square metres. On the right side, illustrations depict the students’ performing analyses with their research tools.

For data collection during the coastal monitoring field trips, we utilised the field sheet from the Brazilian Monitoramento Mirim Costeiro programme (www.monitoramentomirimcosteiro.com.br) as a template (Figure 6). This choice was informed by the alignment of Schio and Reis (Reference Schio and Reis2024)’s four prescribed field trip analyses with the socio-environmental parameters employed by the Brazilian programme. These analyses comprised: 1) observing the day’s weather conditions; 2) assessing seawater quality; 3) conducting a beach sand survey using a 5-square transect, each measuring 2 × 2 m for a total of 20 m2 (Figure 5); and 4) examining socio-economic activities, services and structures along the beach.

Figure 6. Field sheet for data recording during coastal monitoring excursions, based on the Brazilian Monitoramento Mirim Costeiro programme.

Guided by their teachers, students were tasked with: a) entering the gathered field data into an Excel file distributed to the schools; b) organising the data into graphs, tables, diagrams, etc.; and c) engaging in analysis, discussion and reflection on the collected data to identify potential enhancements to the observed coastal environment. Teachers were asked to facilitate this process by integrating the results into interdisciplinary curricular activities, bridging them with other subjects. The outcomes were then shared through murals, social networks, and other communication platforms, reaching audiences both within and outside the educational institution. Furthermore, students were encouraged to reflect on the results to think about actionable solutions aimed at addressing the identified coastal issues.

Evaluation of student’s experience (DBR Phase 4)

The evaluation of student experiences within the pedagogical model was conducted using face-to-face focus group interviews with each of the 26 participating classes, using the following questions:

  1. 1. How was the experience of becoming researchers and beach monitors?

  2. 2. Of all the activities you did on the beach, which did you enjoy the most?

  3. 3. Was there anything you did not like?

  4. 4. What new things did you learn that you didn’t know before?

  5. 5. What were the main results you found in beach monitoring research?

  6. 6. Did you observe any environmental problems or impacts on the coast? What can be done about that?

  7. 7. Are you motivated to continue this project throughout the school year?

  8. 8. Are you curious to know what students from other schools monitoring other beaches found in their research?

  9. 9. Do you have any suggestions for changes or improvements for future activities?

Additionally, a visual analysis of student activities, showcased through videos presented at a year-end videoconference, supplemented this evaluation. The content analysis method was employed to analyse the focus group interview transcripts, involving a systematic interpretation of data to identify patterns, themes and underlying meanings. This approach aimed to draw insightful conclusions about the subject matter (Krippendorff, Reference Krippendorff2018). Through categorisation and analysis of students’ descriptions, reflections and reactions to the activities, it was possible to identified key themes indicative of students’ assimilation of ocean citizenship concepts and highlighted potential areas for enhancing the pedagogical model.

Results and discussion

During the focus group meetings with the 26 participating classes, students universally reported (n = 26) that they: a) enjoyed the experience; b) perceived the importance of their activities; c) felt motivated to participate in the programme; and d) appreciated the opportunity to learn in a practical and scientific manner. The beach visits and hands-on scientific activities emerged as the most impactful aspects of their experience.

Students’ feedback revealed several key elements characterising their engagement with the model’s activities. A word cloud was generated to visually represent these elements, with the size of each term proportional to its frequency in student narratives. The terms “discovery,” “novelty,” and “surprise” were most prominent, followed by “pleasure/fun” and “perspective opening” (see Figure 7). For the content analysis, five categories were created combining these key elements by similarity, such as “Discovery/Surprise/Novelty,” “Protagonism,” “Pleasure/Fun,” “Opening of Perspective/Purpose,” and “Reflection/Correlations”. Each category was exemplified by students’ quotes and systematised in Table 1, elucidating the significant impact of these key elements on the educational experience.

Figure 7. Categorisation of key elements derived from students’ feedback, forming the basis for analysing educational experiences.

Table 1. Quotes from students highlighting key elements of their experience, systematised into five categories

These key elements, identified through the students’ experiences with the model’s activities, serve as pivotal motivational tools to boost student engagement in ocean citizenship projects at schools. They combine aspects that stimulate children’s interest, curiosity, critical thinking, awareness, behaviour change and connection with their natural surroundings, consistent with the aims of ocean citizenship. The students’ scientific explorations beyond the classroom, filled with new discoveries and enjoyment, coupled with the inherently lively and dynamic learning environment provided by the beach, underscore the immense potential of such activities to cultivate student involvement, interest and skill development. Supporting evidence from various studies in ocean literacy across different educational settings (Baldrighi et al., Reference Baldrighi, Muzlovic, Annibaldi, Penna, Manini and Rosetti2022; Chen & Tsai, Reference Chen and Tsai2016; Freitas et al., Reference Freitas, Francis, Bellgrove and Venzo2023; Mokos et al., Reference Mokos, Realdon and Zubak Čižmek2020; O’Brien et al., Reference O’Brien, Freitas, Venzo and Francis2023; Winks et al., Reference Winks, Ward, Zilch and Woodley E2020) highlights the critical role of experiential and tangible learning in effectively engaging students. These approaches not only enhance their emotional connection with the marine environment but also foster the development of ocean citizenship competencies. Thus, enriching educational experiences, as provided by the pedagogical model to students, is crucial for advancing holistic and transformative education in ocean literacy and citizenship.

According to the systemic approach systematised by Schio and Reis (Reference Schio and Reis2024), the more enriched, diverse and contextually integrated the educational experience, the higher its capacity to resonate with learners, drawing them into addressing the challenges prevalent in their daily environments. The learning environment should evolve into a creative realm where learners, driven by curiosity and environmental challenges, proactively acquire knowledge through dynamic interactions with their surroundings (Alves, 2002; Maturana, Reference Maturana2009). This interaction is seen as a formative encounter with the world around them (Silva, Reference Silva2008). Moraes (Reference Moraes2004) posits that such experiences not only fortify the individual’s character, fostering confidence and security but also enhance life quality by making experiences enjoyable and meaningful, thereby cultivating essential skills for both personal development and humanity’s advancement.

During the focus groups, students most fondly recalled moments of digging, sifting and discovering objects in the sand (62%, n = 16), collecting beach litter (38%), conducting water analysis experiments (38%, n = 19), creating wind roses (31%, n = 8) and investigating their environment (23%, n = 6) (Figure 8). The exploration of the sand was the most mentioned aspect by the students, highlighting their motivation and curiosity to explore and find objects in the sand. Additionally, the use of microscopes stimulated the association of the sand formation process and its mineralogical composition, as exemplified in the student quotes in Table 1. By magnifying the sand grain under the microscope, the students not only realised that sand is composed of rock crystals but were also captivated by the beauty of the crystals — “It looked like a diamond!” — and their imagination was sparked by the shapes of the grains: “When I looked at the sand under the microscope, it looked like a cave.”

Figure 8. Overview students’ favourite moments.

This feedback underscores the motivational power of practical and scientific tasks in stimulating learning and environmental consciousness. Rubem Alves (2002) suggests that intelligence is inherently practical, and knowledge acquired through life-enhancing activities is enduring, becoming ingrained within us. Engaging with the world outside traditional classroom confines is essential, as it stimulates the senses, emotions and intellect, exposing learners to experiences beyond their daily reality, a cornerstone of Transdisciplinary Educational Experiments (Matarezi, Reference Matarezi2005).

Utilising research tools to explore the coastal environment not only equipped students with new skills through investigative activities but also sparked discoveries that fuelled their interest, curiosity and motivation. Significant to their learning experience was the broadening of perspectives on the studied environment and a reflective consideration of observed challenges. For instance, the task of collecting rubbish emerged as a particularly meaningful activity, highlighting students’ recognition of their contributory role in ocean and planetary stewardship, thereby serving as a powerful motivator and engaging factor.

Paulo Freire (Reference Freire2011) underscored the significance of anchoring learning in meaningful themes derived from life experiences, advocating for education that is deeply rooted in and reflective of the sociocultural realities of the learner’s community. Such enriched learning experiences prompt individuals to critically reassess their practices and address life’s challenges in a more integrated and systemic manner. This evolved perspective and emotional resonance with the world around them invariably influence behavioural and attitudinal shifts, propelling individuals towards purposeful action.

Tonso (Reference Tonso2005) highlights that if we want to transform our students, we have to “touch” them, highlighting the integral role of affectivity in learning. The student quotes in Table 1 express their motivation and enjoyment in exploring the beach and discovering new things they never knew before, as well as their desire to clean and protect the environment after observing pollution problems that harm the ecosystem. Their expressions of feelings support the importance of creating educational experiences that reinforce emotional connections with the environment, which is essential if we want to foster a generation that is aware and committed to a more sustainable way of life. This view is supported by Maturana (2001), Moraes (Reference Moraes2004) and Morin (Reference Morin2011), who emphasis the pivotal influence of emotions and feelings in shaping human competencies, actions and behaviours. McKinley and Fletcher (Reference Mckinley and Fletcher2012) further advocate for nurturing an awareness and understanding of marine issues, emphasising the need for a shift in values towards assuming personal responsibility for the marine environment.

Hence, fostering ocean citizenship committed to marine conservation necessitates educational experiences that not only educate but also emotionally engage individuals, deepening their connection to the sea. This approach, aimed at redefining the human–ocean relationship, calls for more opportunities for interaction and emotional involvement with the marine world, enriching the learning experience with moments of joy, discovery and profound learning.

During the 26 focus group sessions, students shared aspects of the experience they found less enjoyable. Notably mentioned were the adverse weather conditions encountered during field trips — cold (38%, n = 10), strong wind (15%, n = 4) and very high tide (8%, n = 2) — alongside a perceived shortage of leisure time (15%, n = 4) and a longing to enter the sea (23%, n = 6) (Figure 9). Despite understanding the scientific nature of these excursions, many expressed a strong desire to get into the sea, a sentiment stemming perhaps from their infrequent visits to the beach, despite residing in coastal areas. Addressing this gap, one teacher organised a visit to a calm, monitored beach towards the academic year’s end, enabling students to safely swim in the sea, thereby enriching the educational impact and fostering deeper connections with the marine environment.

Figure 9. Systematisation of less favoured moments as reported by students.

Further feedback highlighted constraints in participation and engagement, particularly during initial activities like weather condition assessments, where the collective task led to periods of inactivity for some students. This contrasted with more hands-on tasks like sand exploration in the squares, which kept students engaged with individual research tools. Such moments underscore the importance of active participation in maintaining student motivation and interest. Some students mentioned that they didn’t like finding a lot of rubbish on the beach, and even more so because they had seen a person throwing rubbish on the ground. Others mentioned the opposite, that they didn’t like not finding any rubbish, as they found few objects to explore in their research squares. This divergence underscores the complexity of environmental education, where even the absence of pollution can serve as a powerful teaching moment about conservation success.

Students provided valuable suggestions to enrich future activities, emphasising a desire for a more immersive and extensive exploration of marine environments. Their proposals included: a) increasing the number of research squares and extending the monitoring to diverse beach areas; b) scheduling activities during low tide to maximise sand exposure; c) creating quizzes for inter-school engagement; d) incorporating diving masks for underwater rubbish collection; e) including opportunities for swimming; f) exploring various beaches; g) allotting more time for activities; h) organising boat trips; and i) distributing scientist coats to participants. The desire expressed by one student to own a scientist’s coat and the interest of another in receiving a microscope for Christmas underscores the profound motivational impact of these experiences, affirming their potential to inspire youth towards marine-related careers (IOC-UNESCO, 2022).

Research by Garcia-Vazquez, Garcia-Ael, Mesa, Dopico, and Rodriguez (Reference Garcia-Vazquez, Garcia-Ael, Mesa, Dopico and Rodriguez2022) and Guest et al. (Reference Guest, Lotze and Wallace2015) corroborates the link between ocean engagement and marine conservation awareness. These studies highlight that direct interaction with the marine environment enhances ocean literacy, fosters a deeper appreciation for the marine ecosystem and stimulates interest in marine-related professions. Moreover, emphasising the emotional aspects of ocean citizenship could significantly influence behaviours, such as reducing single-use plastic consumption and promoting eco-friendly alternatives (Garcia-Vazquez et al., Reference Garcia-Vazquez, Garcia-Ael, Mesa, Dopico and Rodriguez2022).

Adopting uniforms, accessories, and providing hands-on sea experiences serve as powerful strategies to kindle the exploratory spirit in young individuals, moulding them into proactive stewards of their coastal environments. According to Santos and Costa-Pinto (Reference Santos and Costa-Pinto2005), it is precisely these experiences that amplify an individual’s capacity to effect change, paving the way for transformative actions rooted in a profound understanding of environmental stewardship.

To address observed coastal challenges, students suggested practical measures including: 1) installing additional waste bins, specifically for cigarette butts and recyclables; 2) erecting signage to discourage littering; 3) launching educational campaigns with local business participation during peak seasons; 4) enhancing visibility of programme achievements through school blogs and social networks; 5) enforcing littering penalties with the aid of security personnel; and 6) organising more beach cleanup events. These recommendations are categorised under “Garbage Disposal,” “Practical Actions,” “Communication,” and “Partnerships,” as depicted in Table 2. These insights not only reflect the students’ commitment to addressing marine pollution but also their capacity for critical thinking and solution-oriented approaches to environmental challenges.

Table 2. Student recommendations for coastal environmental improvement

The suggestions from students reveal a rich tapestry of ideas and actionable insights, showcasing the emergence of critical thinking, activism and ocean citizenship cultivated through their educational journey. These insights, when effectively bridged among schools, public authorities and local communities, possess immense potential for real-world application, promising significant, positive changes within communities. McKinley and Fletcher (Reference Mckinley and Fletcher2012) highlight the pivotal role of citizens, especially young learners, in assuming active roles for enhanced governance and marine conservation.

Discussions within the focus groups illuminated how students, influenced by their educational experiences, have begun to alter their daily habits and those of their families, underpinning a genuine commitment to ocean preservation: “Once, I was walking with my grandmother and she threw some trash on the ground. Immediately, I picked it up and explained to her that the trash could eventually end up in the sea and harm the animals.”. This grass roots level of engagement suggests a powerful avenue for fostering environmental awareness and action through a bottom-up process, characterising students as key agents of change in their families and broader communities.

According to Squarcina and Pecorelli (Reference Squarcina and Pecorelli2017), one approach in which the concept of citizenship has been applied is through a personal disposition that motivates individuals to act by contributing to the common good of their community and seek territorial improvements. Developing awareness of how our daily choices, both individual and collective, impact the oceans, and fostering behavioural changes to support their preservation, are essential traits of ocean citizenship. This also involves recognising our rights and responsibilities towards this common good (McKinley, Reference Mckinley2010).

The students’ narratives express various aspects found in the pedagogical model’s set of competencies and the literature (Buchan et al., Reference Buchan, Evans, Pieraccini and Barr2023; Fletcher and Spotts, Reference Fletcher and Potts2007; Mckinley & Fletcher, Reference Mckinley and Fletcher2012; Mckinley, Reference Mckinley2010) that are essential for developing ocean citizenship. These aspects include acquiring new knowledge, cultivating values of respect and care for the ocean, developing skills to act in favour of ocean preservation and becoming more aware of their role as agents of change.

The educational activities within the pedagogical model not only fostered the development of new competencies in the students but also addressed the actions anticipated in each model dimension, as well as the range of tools selected by Schio and Reis (Reference Schio and Reis2024) to foster ocean citizenship initiatives (Figure 10). These outcomes affirm the model’s applicability and its potential to promote ocean citizenship in basic education. However, it was observed that certain aspects, particularly the activism dimension, require further emphasis. While students reported personal behavioural changes, they lacked examples of direct actions addressing the observed coastal issues. Consequently, developing strategies to bolster this dimension is crucial, encouraging students, teachers and the entire school community to undertake tangible interventions to address the challenges facing their coastal zones.

Figure 10. Dimensions, actions, tools and competencies that structure the conceptual base of the pedagogical model (Schio & Reis, Reference Schio and Reis2024, p.13).

The coastal monitoring project culminated in a celebratory videoconference among the participating schools, marking the end of the school year. This event was charged with enthusiasm as students from all 26 classes showcased the diverse and impactful work conducted across various Portuguese coastal regions. Each class shared a three-minute video highlighting their activities, findings and personal reflections on their commitment to ocean preservation. The culmination of this event was the presentation of personalised certificates to each student, honouring their contributions as ocean monitors and ocean guardians.

The presentations revealed a wide spectrum of interdisciplinary work undertaken throughout the year, integrating the project’s themes across various subjects, as shown in the diagram in Figure 11 and illustrated in Appendix I. This approach not only demonstrated the pedagogical model’s transdisciplinary nature but also emphasised the collaborative potential among educators to engage in cohesive and complementary educational efforts. This methodology aligns with Brennan et al. (Reference Brennan, Ashley and Molloy2019), who advocate for using System Dynamics simulations to enhance ocean literacy, emphasising the importance of cross-curricular integration for a more holistic understanding of marine issues.

Figure 11. Diagram of interdisciplinary activities carried out by students throughout the school year.

The model’s emphasis on extracurricular activities, coastal visits and the cultivation of social and emotional connections with the sea, alongside promoting activism and ocean citizenship, mirrors the IOC-UNESCO (2022) proposal for blue school curriculum development. Such alignment suggests that the pedagogical model not only adheres to but advances the goals set forth by the Ocean Decade (IOC-UNESCO, 2021) and Education for Sustainable Development, particularly SDG 14: “Protect the oceans and marine resources through ocean literacy and action” (UNESCO, 2020) (p. 17).

Figure 12 displays a diagram summarising indicators of the key outcomes of students’ experiences with the pedagogical model’s educational activities. These outcomes not only highlight the emergence of new competencies in students, fostering essential skills and attitudes towards ocean conservation, but also demonstrate the model’s potential to promote ocean citizenship in basic education.

Figure 12. Indicators of the key outcomes of students’ experiences, highlighting the potential of the pedagogical model to promote ocean citizenship in basic education.

Considering the ten dimensions of ocean literacy outlined by McKinley et al. (Reference McKinley, Burdon and Shellock2023), the evaluation of the pedagogical model through students’ experiences has shown promising coverage across most areas, as illustrated in Table 3, highlighting the model’s multidimensional approach. However, activism was identified as an area needing further emphasis, particularly in encouraging students to implement their suggested ideas. The dimension of adaptive capacity was challenging to correlate with students’ experiences, but potential correlations could be explored in the future with longer-term monitoring of the pedagogical model’s impact. As this remains a pilot project, further implementation in diverse educational settings is necessary to gather more specific and robust data to substantiate these findings.

Table 3. Correlation between the results of the pedagogical model and the ten ocean literacy dimensions outlined by McKinley et al. (Reference McKinley, Burdon and Shellock2023)

Although the pedagogical model has demonstrated significant potential for adoption by schools and for promoting ocean citizenship in primary education, its full effectiveness will only be realised after several design cycles and necessary refinements. Furthermore, it is essential to consider the suggestions mentioned by the students to maximise the impact of the educational experience, especially those experiences that strengthen the students’ bond and emotional connection with the sea.

Conclusion

The testing of the pedagogical model with 543 students from 26 5th and 6th-grade classes (children aged 10 and 11) allowed us to verify the emergence of new knowledge, skills, values, critical thinking and attitudes, reflecting the development of ocean citizenship competencies among students. The practical, exploratory and participatory aspects of the model’s activities have demonstrated the significant potential of such projects to stimulate students’ curiosity, motivation, protagonism and engagement in ocean conservation. Investigating the coastal environment not only allowed students to develop new competencies through scientific activities but also led to new discoveries, broadened perspectives and critical reflection on the current challenges related to ocean sustainability and our role as agents of change.

By promoting extracurricular activities, coastal visits, social connections with the sea, and fostering activism, protagonism, and ocean citizenship in basic education, the proposed pedagogical model encompasses characteristics identified by IOC-UNESCO (2022) as essential for developing a blue school curriculum. This pedagogical experience confirmed not only the viability of the proposed model, but also its potential to integrate ocean citizenship in basic education, in line with the goals of the Decade of the Ocean and the UN’s 2030 Agenda. However, it was observed that the activism dimension requires additional emphasis in order to reinforce the importance of schools promoting actionable interventions in their local community.

Furthermore, it would be interesting to test the pedagogical model in different school environments and contexts, namely schools inland or without access to the sea, in island environments or in other aquatic environments such as rivers, lagoons, etc. This iterative approach will make it possible not only to refine the model, but also to obtain more robust evidence of its effectiveness. In addition, incorporating students’ perceptions and suggestions into the model’s evolution process is fundamental to enhancing the educational experience, strengthening their social connections with the sea and making ocean citizenship education a key element in nurturing a more aware generation engaged in protecting the oceans.

Acknowledgements

We deeply thank the schools, teachers, students, and supporting institutions for their invaluable contributions and dedication, which were crucial for the success and enrichment of this research on ocean citizenship.

Financial support

This research was funded by a Ph.D. fellowship from FCT — Portuguese Foundation for Science and Technology, grant number 2022.10641.BD, and by National Funds through FCT — Portuguese Foundation for Science and Technology, I.P., under the scope of UIDEF — Unidade de Investigação e Desenvolvimento em Educação e Formação, UIDB/ 04107/2020, https://doi.org/10.54499/UIDB/04107/2020.

Ethical standards

The study was conducted in accordance with the Declaration of Helsinki, and approved by the Ethics Committee of Instituto de Educação, Universidade de Lisboa (on the 26 of January 2022).

Appendix 1 – Examples of interdisciplinary work carried out by teachers

Maths — analysing data, producing graphs and tables.

Portuguese — research and production of a text on marine pollution.

Science — Production of factsheets on coastal biodiversity and the different zones of the ocean.

Visual and Technological Education (VTE) — Collages, models, drawings, posters, and the production of magnetic pens.

Information and Communication Technology (ICT) — Project news journal.

Publicising the project at school — Fairs, exhibitions, murals with project news.

Publicising the project at school — News about the project in the school newspaper.

Publicising the project — Padlet with information shared with parents.

Author Biographies

Caroline Schio holds a degree in Oceanography from the University of Vale do Itajaí, Brazil (2007), a postgraduate qualification in Fisheries Economics and Management from the University of Barcelona (2009), and a Master’s degree in Agroecosystems from the Federal University of Santa Catarina (2015), Brazil. She is currently pursuing a PhD in Science Education at the University of Lisbon. With over 12 years of experience leading the Monitoramento Mirim Costeiro Program for elementary school students, Caroline has also served as the president of the Monitoramento Mirim Costeiro Institute for 5 years and has spent 2 years contributing to the Maçarico Ocean Literacy program with Colab + ATLANTIC in Portugal.

Pedro Reis holds a PhD (2004) and a Master of Education (1997) from the University of Lisbon, as well as a Bachelor’s degree in Biology (1988) from the same institution. Before becoming a professor, he worked as a science teacher in elementary and secondary schools. Currently, he coordinates the Research Group on Didactics at the Institute of Education, University of Lisbon, where he also leads the PhD program in Science Education and the Master’s program in Innovation in Education.

References

Alves, R. (2012). A escola com que sempre sonhei sem imaginar que pudesse existir. [The school I always dreamed of, without imagining it could exist]. 13th edition. Papirus.Google Scholar
Baldrighi, E., Muzlovic, P., Annibaldi, A., Penna, A., Manini, E., Rosetti, E., et al. (2022). ADSWIM and WATERCARE projects meet kids and youth: The challenge of bringing the world of research to school to merge research, education and communication. Water, 14(12), 1843. DOI: 10.3390/w14121843.CrossRefGoogle Scholar
Brennan, C., Ashley, M., & Molloy, O. (2019). A system dynamics approach to increasing ocean literacy. Frontiers in Marine Science, 6, 360. DOI: 10.3389/fmars.2019.00360.CrossRefGoogle Scholar
Buchan, P.M., Evans, L.S., Pieraccini, M., & Barr, S. (2023). Marine citizenship: The right to participate in the transformation of the human-ocean relationship for sustainability. PLOS ONE, 18(3), e0280518. DOI: 10.1371/journal.pone.0280518.CrossRefGoogle Scholar
Chen, C.-L., & Tsai, C.-H. (2016). Marine environmental awareness among university students inTaiwan: A potential signal for sustainability of the oceans. Environmental Education Research, 22(7), 958977. DOI: 10.1080/13504622.2015.1054266.CrossRefGoogle Scholar
Coghlan, D., & Brannick, T. (2001). Doing action research in your own organization. Sage.Google Scholar
Costa, R.L., Mata, B., Conceição, P., & Silva, F. (2021). Fostering ocean literate generations: The Portuguese Blue School. In Koutsopoulos, K. C. & Stel, J. H. (Eds.), Ocean literacy: Understanding the ocean. Springer.Google Scholar
Fielding, S., Copley, J.T., & Mills, R.A. (2019). Exploring our oceans: Using the global classroom to develop ocean literacy. Frontiers in Marine Science, 6, 340. DOI: 10.3389/fmars.2019.00340.CrossRefGoogle Scholar
Fletcher, S. & Potts, J. (2007). Ocean citizenship: an emergent geographical concept. Coastal Management, 35(4), 511524.CrossRefGoogle Scholar
Freire, P. (2011). Extensão ou comunicação? [Extension or communication?]. 15th edition. Paz e Terra.Google Scholar
Freitas, C., Francis, P., Bellgrove, A., Venzo, P. et al. (2023). Adopting ocean-themed picture books to promote ocean literacy in primary education. Children’s Literature in Education. https://dx.doi.org/10.1007/s10583-023-09534-y CrossRefGoogle Scholar
Garcia-Vazquez, E., Garcia-Ael, C., Mesa, M.L.C., Dopico, E., & Rodriguez, N. (2022). Enhancing marine citizenship as a strategy to promote the reduction of single-use plastics consumption in different cultures. Frontier in Marine Science, 9, 941694. DOI: 10.3389/fmars.2022.941694.CrossRefGoogle Scholar
Guest, H., Lotze, H.K., & Wallace, D. (2015). Youth and the sea: Ocean literacy in Nova Scotia, Canada. Marine Policy, 58, 98107.CrossRefGoogle Scholar
IOC-UNESCO. (2021). Ocean literacy framework for the UN decade of ocean science for sustainable development 2021–2030. IOC Ocean Decade Series, 22. UNESCO.Google Scholar
IOC-UNESCO. (2022). A New Blue Curriculum – A toolkit for policy-makers. IOC Manuals and Guides, 90. UNESCO.Google Scholar
Kelly, R., Evans, K., Alexander, K., Bettiol, S., Corney, S., Cullen-Knox, C., Cvitanovic, C., de Salas, K., Emad, G.R., Fullbrook, L., Garcia, C., Ison, S., Ling, S., Macleod, C., Meyer, A., Murray, L., Murunga, M., Nash, K.L., Norris, K., Oellermann, M., Scott, J., Stark, J.S., Wood, G., Pecl, G.T. (2022). Connecting to the oceans: Supporting ocean literacy and public engagement. Reviews in Fish Biology and Fisheries, 32(1), 123143. DOI: 10.1007/s11160-020-09625-9.CrossRefGoogle Scholar
Krippendorff, K. (2018). Content analysis: An introduction to its methodology. Sage Publications.Google Scholar
Matarezi, J. (2005). Estruturas e espaços educadores. [Structures and educational spaces]. In Encontros e Caminhos: formação de educadoras(es) ambientais e coletivos educadores (pp. 159173). MMA, Diretoria de Educação Ambiental.Google Scholar
Maturana, H.R. (2009). Emoções e linguagem na educação e na política. [Emotions and Language in Education and Politics]. 4th edition. UFMG.Google Scholar
Mckinley, E. (2010). A critical evaluation of the application of marine citizenship in sustainable marine management in the UK. Thesis submitted for the degree of Doctor of Philosophy. School of Applied Sciences, Bournemouth University, 388 p.Google Scholar
Mckinley, E., & Fletcher, S. (2012). Improving marine environmental health through marine citizenship: A call for debate. Marine Policy, 36(3), 839843.CrossRefGoogle Scholar
McKinley, E., Burdon, D., & Shellock, R.J. (2023). The evolution of ocean literacy: A new framework for the United Nations Ocean Decade and beyond. Marine Pollution Bulletin, 186, 114467. DOI: 10.1016/j.marpolbul.2022.114467.CrossRefGoogle Scholar
Mokos, M., Realdon, G., & Zubak Čižmek, I. (2020). How to increase ocean literacy for future ocean sustainability? The influence of non-formal marine science education. Sustainability, 12(24), 10647. DOI: 10.3390/su122410647.CrossRefGoogle Scholar
Moraes, M.C. (2004). Pensamento eco-sistêmico: educação, aprendizagem e cidadania no século XXI. [Eco-systemic Thinking: Education, Learning, and Citizenship in the 21st Century]. Vozes.Google Scholar
Morin, E. (2011). Os sete saberes necessários à educação do futuro. [The Seven Knowledges Necessary for the Education of the Future]. 2nd edition. Cortez; UNESCO.Google Scholar
O’Brien, M., Freitas, C., Venzo, P., & Francis, P. (2023). Fostering ocean literacy through informal marine education programs. Marine Pollution Bulletin, 1, 15208. DOI: 10.1016/j.marpolbul.2023.115208.Google Scholar
Ponte, J.P., Carvalho, R., Mata-Pereira, J., & Quaresma, M. (2016). Investigação baseada em design para compreender melhor as práticas educativas. [Design-Based Research to Better Understand Educational Practices]. Quadrante, 25(2), 7798.Google Scholar
Reis, P. (2020). Environmental citizenship & youth activism. In Hadjichambis, A.C., Autor, D.P.-H., Čincera, J., Pauw, J.B.-D., Gericke, N. & Knippels, M.-C. (Eds.), Conceptualizing environmental citizenship for 21st century education. Series “Environmental Discourses in Science Education (pp. 139148). Springer.CrossRefGoogle Scholar
Romero-Ariza, M. (2014). Uniendo investigación, política y práctica educativas: DBR, desafíos y oportunidades. [Bridging educational research, policy, and practice: DBR, challenges, and opportunities]. Magis. Revista Internacional de Investigación en Educación, 7(14), 159.CrossRefGoogle Scholar
Santoro, F., Santin, S., Scowcroft, G., Fauville, G., & Tuddenham, P. (2017). Ocean literacy for all: A toolkit. UNESCO.Google Scholar
Santos, C.C., & Costa-Pinto, A.B. (2005) Potência de ação. In: Encontros e Caminhos: formação de educadoras (es) ambientais e coletivos educadores. Brasília: MMA, Diretoria de Educação Ambiental, 295–302.Google Scholar
Schio, C., & Reis, P. (2024). Design of a pedagogical model to foster ocean citizenship in basic education. Sustainability., 16(3), 967. DOI: 10.3390/su16030967.CrossRefGoogle Scholar
Silva, A.T.R. (2008). Ecoformação: Reflexões para uma pedagogia ambiental, a partir de Rousseau, Morin e Pineau. [Eco-formation: Reflections on environmental pedagogy, drawing from Rousseau, Morin, and Pineau]. In Desenvolvimento e Meio Ambiente. (vol. 18, pp. 95104). Editora UFPR.Google Scholar
Squarcina, E., & Pecorelli, V. (2017). Ocean citizenship. The time to adopt a useful concept for environmental teaching and citizenship education is now. Journal of Research and Didactics in Geography, 4553. https://doi.org/10.4458/9446-04.Google Scholar
Steel, B.S., Smith, C., Opsommer, L., Curiel, S., & Warner-Steel, R. (2005). Public ocean literacy in the United States. Ocean & Coastal Management., 48(2), 97114.CrossRefGoogle Scholar
Tonso, S. (2005). Cardápio de aprendizagem. [Learning Menu]. In Encontros e Caminhos: Formação de educadoras (es) ambientais e coletivos educadores (pp. 4756). MMA, Diretoria de Educação Ambiental.Google Scholar
UNESCO (2020). Education for sustainable development: A roadmap. UNESCO. https://doi.org/10.54675/YFRE1448.Google Scholar
Winks, L., Ward, M., Zilch, J., Woodley E, . (2020). Residential marine field-course impacts on ocean literacy. Environmental Education Research, 26(7), 969988. DOI: 10.1080/13504622.2020.1758631.CrossRefGoogle Scholar
Figure 0

Figure 1. Pedagogical model for promoting ocean citizenship in basic education as proposed by Schio & Reis (2024, p.16).

Figure 1

Figure 2. An example of a cyclical design process according to Coghlan and Brannick (2001) (p. 24).

Figure 2

Figure 3. Implementation stages of the pedagogical model’s educational activities, linked to its conceptual dimensions and actions, adapted from Schio and Reis (2024) (p.15).

Figure 3

Figure 4. Distribution of schools participating in the programme along the Portuguese coast.

Figure 4

Figure 5. Coastal monitoring practice illustrations. The left side of the image shows a diagram of the survey transect consisting of five 2 × 2 m squares, totalling 20 square metres. On the right side, illustrations depict the students’ performing analyses with their research tools.

Figure 5

Figure 6. Field sheet for data recording during coastal monitoring excursions, based on the Brazilian Monitoramento Mirim Costeiro programme.

Figure 6

Figure 7. Categorisation of key elements derived from students’ feedback, forming the basis for analysing educational experiences.

Figure 7

Table 1. Quotes from students highlighting key elements of their experience, systematised into five categories

Figure 8

Figure 8. Overview students’ favourite moments.

Figure 9

Figure 9. Systematisation of less favoured moments as reported by students.

Figure 10

Table 2. Student recommendations for coastal environmental improvement

Figure 11

Figure 10. Dimensions, actions, tools and competencies that structure the conceptual base of the pedagogical model (Schio & Reis, 2024, p.13).

Figure 12

Figure 11. Diagram of interdisciplinary activities carried out by students throughout the school year.

Figure 13

Figure 12. Indicators of the key outcomes of students’ experiences, highlighting the potential of the pedagogical model to promote ocean citizenship in basic education.

Figure 14

Table 3. Correlation between the results of the pedagogical model and the ten ocean literacy dimensions outlined by McKinley et al. (2023)