Next Article in Journal
Assessing the Impact of Entrepreneurial Education on Entrepreneurial Intentions among Romanian Doctoral Students and Postdoctoral Researchers
Next Article in Special Issue
Providing a Roadmap for Future Research Agenda: A Bibliometric Literature Review of Sustainability Performance Reporting (SPR)
Previous Article in Journal
Core Elements Affecting the Circularity of Materials
Previous Article in Special Issue
Global Inequalities in the Bioeconomy: Thinking Continuity and Change in View of the Global Soy Complex
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
Sustainability
Volume 14
Issue 14
10.3390/su14148368
sustainability-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles thumb_up
...
Endorse textsms
...
Comment
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

Carving out a Niche in the Sustainability Confluence for Environmental Education Centers in Cyprus and Greece

by
Filippos Eliades
1,
Maria K. Doula
1,
Iliana Papamichael
1,
Ioannis Vardopoulos
2,
Irene Voukkali
1 and
Antonis A. Zorpas
1,*
1
Laboratory of Chemical Engineering and Engineering Sustainability, Faculty of Pure and Applied Sciences, Open University of Cyprus (OUC), Giannou Kranidioti 33, Latsia, Nicosia 2220, Cyprus
2
Department of Economics and Sustainable Development, School of Environment, Geography and Applied Economics, Harokopio University (HUA), 70 Eleftheriou Venizelou Avenue, 17676 Kallithea, Attica, Greece
*
Author to whom correspondence should be addressed.
Sustainability 2022, 14(14), 8368; https://doi.org/10.3390/su14148368
Submission received: 3 June 2022 / Revised: 4 July 2022 / Accepted: 4 July 2022 / Published: 8 July 2022
(This article belongs to the Special Issue Prospects and Challenges of Bioeconomy Sustainability Assessment)
Browse Figures
Versions Notes

Abstract

:
Given the environmental issues that today’s societies confront, such as climate change, waste management, ecosystem deterioration, etc., environmental education is becoming increasingly important. Adoption of environmental education as an integral part of the educational system is required for the Environmental Education Center (EEC) to be able to provide knowledge, skills, and values so that society can become active and environmentally responsible through awareness-raising. According to the scholarly published research, EECs can positively affect local communities and create an environmentally friendly culture. In addition, given that EECs can even play a significant part in the development of lifelong learning activities at the education and sustainable development nexus, it is considered critical to establishing future potentials and dynamics. Thus, aiming to analyze EECs’ strengths, weaknesses, opportunities, and threats (SWOT analysis) within our complex and ever-evolving world, educators, students, and other fellow citizens in Cyprus and Greece participated in a survey in which they were asked to fill in a questionnaire, specifically developed for each group category. The findings of this study provide a deeper understanding of the implications arising as a result of effective environmental education absence, as well as the importance of a holistic approach through EECs. Moreover, it offers the research community a solid framework for future innovation in citizen engagement and training.

Graphical Abstract

1. Introduction

The personal relationship of individuals with the environment in the present time proves to be the beginning of all the problems that govern it [1,2,3]. The increasingly rapid growth rates and the lack of rational management of environmental issues have the effect of continually degrading and destroying natural resources, resulting in the degradation and deterioration of ecosystems [4,5].
According to Global Environment Outlook 5 (2012) [6], the five environmental issues that require immediate management in Europe are air quality, biodiversity, chemicals and waste, climate change and drinking water [7,8]. An important role in tackling these problems on a local scale, which is the beginning of the widening of initiatives and actions at a broader level (regional, national, transnational), is held by local communities [9]. The first and most important stage in the development of active and sensitized local societies is their training as well as their practical application to local, initial environmental issues, more generally or more broadly [10].
Sustainable development seeks to secure a new policy where economic development interacts in harmony with environmental protection and social well-being [11,12]. With “lighthouse” in the triptych Economy, Society and Environment, Sustainable Development is defined as “development that satisfies the present, without affecting the potential of future generations to meet its needs” [13,14]. Such an approach effectively limits the uncontrolled economic development that has the sole purpose of economic prosperity, without taking into account the environmental parameter and corresponding limits to environmental protection that only concentrates on the environment [15].
In this framework, it is considered that the education of citizens regarding sustainability constitutes one of the most powerful drivers to combat the areas of concern and a critical intervention from local authorities to establish the potential impact on climate change mitigation [16,17]. An important pillar of boosting awareness among citizens includes prevention activities. According to the Waste Framework Directive [18], waste prevention measures need to be taken before the categorization of material or discarded products (i.e., chemicals, materials, substances). On the contrary, prevention activities should aim at the reduction of the quantity of waste beforehand. Therefore, waste prevention activities should not be based on general observations and implementations that might confuse the learning process of the citizens but should focus on individual waste streams, behaviors, local culture and waste characteristics (i.e., composition, production, recycling, and recovery, etc.) [17,19]. Awareness activities relating to sustainable development and waste reduction (i.e., recycle, reuse, refurbish and recovery) are key components to the transition towards sustainable development [20,21,22].
According to Pappas et al. (2022) [23], both industrial and domestic alterations are able to reduce greenhouse gas emissions and aid the development of strategies toward sustainability. An important component of the implementation of such activities is the acceptance of them on behalf of the public through a willingness to contribute to such a concept and not only the enforcement of policies towards the final goal of climate mitigation. Understanding the problems and opportunities to the transition towards sustainability from all sides comes only through education of the citizens and the integration of individual responsibility and thoughtful actions before an item becomes waste [23]. Areas of investigation include the environment (i.e., limited resources, health implications due to climate change and waste accumulation), society (i.e., social behavior and acceptance towards sustainability, job openings due to new sustainable development strategies) and economy (i.e., waste disposal fees, increase in prices due to limited resources).
Because of the importance of social interaction and innovation to address sustainability challenges, environmental and sustainable education has been deemed of utmost importance in higher education institutions. The main objectives of environmental education include not merely increasing eco-awareness among citizens but also creating sensitivity around environmental topics. It aims at improving critical thinking and interactions between the public and the environment, but also, it assists individuals in more research regarding environmental issues [17,24]. Education regarding sustainable development empowers learners to make informed critical decisions while taking both individual and collective actions to change society regarding the environment. Environmental education is a lifelong process not bound by age which enhances the cognitive, socio-emotional, socio-economic and socio-environmental progression of learning. It responds to urgent and dramatic challenges faced by the globe due to continuous and collective human activity with catastrophic environmental, social and economic consequences which endanger the survival of our own species. It provided the learners with the necessary skills, values and knowledge to address global issues like climate change, resource usage and waste, loss of biodiversity, etc. It is necessary for the comprehension of consequences and opportunities of everyday actions on behalf of the citizens, while at the same time, can act as a pressure lever towards inert governmental bodies from the citizens and vice versa [25,26].
The integration of sustainable education in the curriculum aims to cultivate social innovators and contributors who are willingly participating in local and EU strategies and plans regarding sustainable development [27]. The development of effective environmental education programs is a tool for the enhancement of positive environmental attitudes and values, boosts knowledge and skills for individuals and communities and strengthens the collaboration of the public, authorities, stakeholders, decision-makers, scientists and academia for a positive environmental action [28]. At the same time, according to Ardoin and Bowers (2020) [29], environmental education in the early childhood years gives even better results than in higher years and has gained increasing momentum. This is due to the combination of persistent environmental challenges of the world along with existing interests exhibited by children. In their systematic review, Ardoin and Bowers (2020) [29] investigated empirical studies of environmental education programs focusing on a 25-year span. Results from 66 investigated studies indicated that participants of earlier ages (0–8 years old) revealed the development of environmental literacy, cognitive development as well as emotional and social development. However, according to Moustairas et al. (2022) [30], obstacles to public acceptance of the development of education centers are affected by many variables and mostly demographics, environmental consciousness, recycling behavior and economic incentives.
Emerging from this growing interest in environmental education, environmental education centers (EEC) were established. These institutions are highly connected to environmental international and local movements and are considered one of the most important factors of extra-curriculum education [31,32]. They are encouraged to cooperate with citizens and prolong the learning experience to replace traditional learning [33]. They have substantial power to influence local communities, students and, by extension, policymakers in the transition towards sustainability [34]. EECs of all countries take the largest share in the realization of the vision of Environmental Education/Education for Sustainable Development [35,36]. EECs are standard learning organizations and constitute a network of decentralized public educational structures for environmental education and sustainability and support at the local, national and international levels. EECs serve the following goals [34,35,36]:
  • The development and implementation of educational programs for students of all levels of education,
  • The development of training programs and the provision of training to educators, either by living or distance, or by combining them,
  • The production and distribution of educational material in schools and the community in paper and/or digital form,
  • The development of national and regional thematic and/or methodological networks,
  • Cooperation with schools and general structures and education staff with the community and public and private bodies,
  • Cooperation with Universities and Technological Educational Institutes for relevant research and educational activities.
This research aims to analyze and evaluate the contribution of EECs to environmental education in Cyprus and Greece, as well as new trends in education, the adoption of which by EECs will further strengthen their role.

2. Literature Review

This study explores EECs whose primary purpose is to deliver environmental education in order to promote environmental awareness. This criterion is satisfied by a group of institutions that differ in terms of organizational structure and form, teaching goals, objective(s) and means, as well as content and accessibility. However, the scope of this analysis exempts academic entities with a primary commitment to research.
Continuous and lifelong learning constitute the main characteristics of sustainable development education. Therefore, activities of EECs are to be developed in a holistic and expansive manner to include all three pillars of sustainability (environmental, social, and economic). To benefit from such establishments, social learning should be a key ingredient where people from different backgrounds and experiences, values and learning perspectives come together and commit to problem-solving of not yet found sonot-yet for sustainability. The purpose of EECs is also the motivation of civilians to not only participate but to innovate regarding pre-existing perspectives and designs and come up with new ideas derived from everyday life [37].
The United States, Canada, Australia, and several European Union member states have established both publicly as well as privately funded EECs. Despite the considerable differences, similar trends and patterns could well be identified around the planning and development of EECs. Several EECs are working to promote environmental education and awareness. The types of these EECs vary according to their origin, environment and funding as well as continued development over the years. They include school farms, eco-museums connected to natural spaces, interpretation and natural centers [38,39].
For instance, support for environmental education is state-dependent within the systems of government in the United States, Canada, and Australia, resulting in various degrees of EEC growth [40,41,42,43]. In Europe, and in particular Italy, Slovenia, Spain, Cyprus, and Greece, governing systems benefit from the EU’s supporting policies and, consequently, monetary resources in order to develop EECs [44]. Conversely, when central government financing ran out in Great Britain, the entire EEC network established to that point was privatized [45]. Thus, it is difficult to avoid the view that the passive support of higher administrative political systems not only supports the EECs development but also reinforces those establishments’ resilience and sustainability.
International research on EECs mainly adopts a qualitative perspective and has only marginally addressed the perceptions of EECs’ functions and contributions. For the needs of the present research, a review of certain previous studies on the perceptions of the direct and indirect recipients of environmental education, as well as the direct and indirect outcomes makes much sense.
Simmons (1991) [46] surveyed EEC workers, finding substantial support for goals and objective(s) set by environmental education institutions related to behavioral change, owning to heightened environmental awareness, although with doubts about localized environmental issues with political overtones. Hart (1996) [47] observed a widespread absence of empirical studies monitoring teachers’ perceptions attitudes, pedagogical tools and methods and levels of engagement in environmental education. Nevertheless, according to Mavrikaki et al. (2004) [48], environmental education is a valuable educational procedure that, however, engages just a minority of instructors due to its elective nature. Flogaitis, Daskolia and Liarakou (2005) [49] used a survey to assess the environmental education approaches, motives and counter-motives linked to environmental education. Based on the empirical findings, the researchers argue that praxis-focused training sessions might help environmental education diffusion. Following that, Erickson and Erickson (2006) [50] explored the aspects related to the EECs’ performance from the management point of view, concluding that strong personnel (i.e., educators) is the most important aspect. Around the same period, Ballantyne and Packer (2006) [43] conducted in-depth interviews with EECs’ senior management in order to understand and assess the various ways in which such centers partnered with or worked within compulsory education establishments. Their findings support that the cooperation mechanics developed establish fully-fledged relations in a way that environmental education consistency, advancement and continuance are ensured, even after the completion of the individual environmental education programs.
Ernst (2009) [51] rendered the fine nuances between environment-based education and general environmental education and is currently investigating the qualitative and quantitative aspects of environmental education activity in the United States, supporting that lack of funds was the primary constraint on environmental education. Conversely, in 2012, within the context of a larger research project on environmental and outdoor/nature-based education, a study attempted—to the best of the authors’ knowledge—to collect and analyze educators’ perspectives for the first time. Despite the fact that the majority of the survey respondents indicated that outdoor/nature-based training was not a part of their initial education syllabus, their replies suggest that outdoor/nature-based education plays a significant part in the overall learning outcomes [52].
A recent (2018) study, upon comparing EECs, supports that such centers primarily focus on providing a supporting mechanism for other organizations, the formation of networks, and developing initiatives to address local environmental demands, rather than contesting a strategic implementation role directly conducting environmental education [53]. In addition, it is stressed that EECs should invest in developing national, regional and local environmental education policies in close cooperation with the competent bodies, as well as seek stronger and more direct participation in achieving sustainable development goals.
Building on previous learnings, Moustairas et al. (2022) [30] attempted to determine the elements influencing public support for establishing EECs. According to their findings, the formation of an EEC is influenced by demographics (admittedly country/region and culture specific), environmental awareness, recycling behavior, and economic incentives. This conclusion reflects on the public’s feeling of individual efficacy and sense of responsibility, supporting that environmentally friendly activities do not solely fall within a bourgeoisie of environmental gurus, thus arguing that those principles have a limited role in establishing a society’s “eco-consciousness.” Furthermore, the authors, through their statistical analysis, indicate that the acceptability rates of establishing an EEC will rise if further importance is placed on local sustainable development, effectively complementing the Agenda 2030 sustainable development goals as well as the circular economy model.
While EECs are encouraged to engage in lifelong and conventional training, they are also encouraged to join forces with regional and local authorities and the forces of production, as well as civil society in making decisions directly or indirectly relating to their quality of living, in order to become a channel in achieving sustainable development [54]. An empirical study was conducted in 2013 attempting to investigate the role of EECs in remote regions [37]. The research suggests that the activity of EECs in remote areas positively affects the local community, both in terms of direct benefits for consumers, businesses, and the economy as well as indirect benefits, such as creating desirable places to live with a strong identity and pride in the community, and—perhaps most importantly—that young learners are becoming environmentally aware and can develop into prospective enforcers of sustainability.
However, when the scope is narrowed from the importance of the development of lifelong learning environmental education activities to the benchmarking of the defining potential and future dynamics, pertinent research becomes scarce, thus leaving room for the current research to fill this gap, attempting to assess the various arguments in favor of and against EECs’ course of action within a constantly changing world and under the pressure of environmental degradation.

3. Materials and Methods

To assess the role and contribution of EECs as well as their greater influence on society, this study focuses on the following research questions [55,56]; (a) What is the degree of influence of the EECs in shaping environmental consciousness? (b) What are EECs’ contributions to the dissemination of sustainability principles? (c) What are the learners’ views on environmental issues and to what extent are they influenced by EECs actions? (d) What are the limiting factors, the necessary structures and processes that will contribute to the modernization of the EECs in order to gain momentum and increase their impact?
In order to identify issues encountered by EECs in their operations and attainment of their goals, as well as contemporary developments in environmental education, this study attempts to comparatively determine those aspects between Greece and Cyprus that are considered an advantage and which are not. To do so, the current research adopts data from the internationally published scholarly literature on the role and the actions of EECs in Greece and Cyprus. In addition, the Strategic Planning of the European Union, which contains policies, directives, and regulations, as well as information from the Pedagogical Institutes of the two countries, were used.
A strategic research approach was developed, and the means to collect the necessary information were defined as follows:
  • Target Audience: For the scope of the current research, the audience that was targeted was EECs educators, students of the Lower and Upper Secondary School age (i.e., 12–18 years old), as well as their parents (including custodians).
  • Collect Responses: The target audience was invited to participate in a survey. The survey included closed-ended questions that will be addressed in the form of questionnaires in each target group. The survey was designed and conducted in accordance with the Greek and Cypriot legislation and with institutional requirements. All participants gave their informed consent to participate prior to the start of the survey. They were informed about the aim of the study and that they could terminate their participation at any time without negative consequences. The survey was anonymous, and the participants gave consent to use their answers for research. The participation of both countries is presented in Table 1. The survey was conducted during the spring and summer 2020 terms, namely from mid-January to late July.
  • Data Processing: Survey data processing, including sorting and cleaning, and converting data into a usable format, towards transforming the raw data into structured information that can then be analyzed for insights.
  • Exploratory Analysis: This part concerns the collection, organization, analysis, interpretation and presentation of the data in relation to the research issues on which the research focuses.
  • SWOT Analysis: A framework for identifying Strengths, Weaknesses, Opportunities and Threats (herein after; SWOT Analysis) was conducted to identify the strengths and weaknesses of the contribution of EECs to environmental education, as well as the threats and opportunities for overcoming any weaknesses and addressing threats towards a more effective, creative, and innovative operation of these educational institutions. SWOT analysis is a strategic planning tool used that constitutes a cognitive process that studies the relations between external and internal factors and surroundings of a territory, business, product, or organization based on mixed subjective and objective evaluation [57,58]. The SWOT acronym is derived from the English words: Strengths, Weaknesses, Opportunities and Threats [59,60] and is a key to identifying strengths, eliminating weaknesses, as well as seizing opportunities and responding to threats. Strengths are positive aspects of the analysis, while weaknesses are negatives related to the system’s internal aspects. On the other hand, opportunities and threats refer to the external aspects and refer to positive or negative interactions with the system respectively [61]. The internal evaluation of the environment under consideration aims to identify the strengths and weaknesses mainly of internal resources such as personnel, products and services [62], while also examining threats and risks due to the external competitive environment [63].
  • TOWS Matrix: SWOT analysis has been adopted by many organizations [64] and businesses, mainly because of its simplicity and the advantages it offers, such as addressing weaknesses that affect the achievement of goals, understanding the business or organization’s philosophy, the prospect of exploiting the strengths to achieve the desired goal [65,66]. Coupling the S-W-O-T parameters by two, after identifying them and ranking them, yields four coupled parameters, each corresponding to a strategy type. The characterization and type of strategies resulting from this coupling, namely the TOWS matrix, where the strategic planning framework is specifically at the decision-making stage, are [67,68,69,70]:
    • Development Strategy (maxi–maxi), “S-O”: This strategy focuses on exploiting the strong points to seize opportunities.
    • Corrective Strategy (mini–maxi), “W-O”: This strategy seeks to minimize and improve weaknesses that hinder opportunities.
    • Maximizing Strategy (maxi–mini), “S-T”: This strategy focuses on exploiting the strong points to address and minimize threats to the environment.
    • Defense Strategy (mini–mini), “W-T”: The goal of the strategy is to minimize weaknesses in order to avoid threats.
The right strategy choice is derived from the image described by the SWOT matrix and results in proportion to the overriding parameter. If the “S-O” Development Strategy prevails, then the organization has many opportunities as well as advantages and is recommended to adapt. A “W-O” Correction Strategy is appropriate when the organization’s internal weaknesses prevent it from taking advantage of existing opportunities. Therefore, in this case, this strategy focuses on addressing and correcting the weaknesses as much as possible. If the “S-T” Improvement Strategy prevails, it means that although the organization faces many external threats, it has strong points and advantages in mitigating them to achieve its goals. The “W-T,” Defense Strategy is chosen if an organization receives many external threats and its internal forces are insufficient to deal with them. The overall research roadmap for the current research is graphically presented in Figure 1.

4. Results

The founding of the EECs emerged in the 1970s when the idea of Environmental Education was reinforced through the conferences of Tbilisi (1977) and Moscow (1987) [71]. The enlargement of Environmental Education was primarily aimed at implementing actions in direct contact with the environment, which would be ensured by the operation of the EECs. This enabled the educational community and students [43] to develop skills on the subject of environmental protection, supplying it with knowledge and techniques that theoretical education could not provide in the past. These newly acquired skills will include awareness and sensitivity, knowledge and understanding of key concepts (i.e., circular economy, sustainable development, etc.), cultivation of talented individuals regarding sectors of environmental protection (i.e., environmental engineering, governmental bodies, law, etc.), new attitudes towards sustainability, willingness to actively participate in national or EU legislation and action plans as well as the necessary critical thinking skills to identify challenges and opportunities for improving individual prevention activities of everyday life [72,73]. EECs evolved further in 1990, in the sense of “Sustainable Development” as a central term of Environmental Education, while the idea came to fruition in the mid-decade with the Rio Agenda 21 conference in 1992, stressing the urgent need to create EECs as facilitators in linking education and society [74]. Since then, EECs have become the connecting link between education and the social community, offering all social strata the opportunity to directly interact with environmental issues, educating and directing critical thinking, awareness and participation.
In Cyprus, the establishment of the EECs was launched in 2000, when the Ministry of Education of Cyprus developed the “National Strategic Plan for Environmental Education Focusing on Sustainable Development,” which was completed in 2004. With the adoption of EU policies, the implementation of its planning integrates Environmental Education into the education system of Cyprus, aiming to inform students and the general public about environmental issues through the actions developed by Tosh and extra curriculum activities [75]. There are five EECs in Cyprus today, and two more centers are expected to open and operate. Each one of Cyprus’ EECs supports specific programs that can be taught by students in all schools in the country but also functions as a network, thereby achieving constructive cooperation between them [76].
In Greece, EECs were established by law 1892/90. Following the implementation of this Law, the creation of EECs began, setting out the aims, functions and actions around the EU as well as the qualified staff for the Centers [77]. Sixty EECs operate in Greece today throughout its land and island area. The first EEC was established in 1993 in Achaea’s Kleitoria [44] and others throughout the country. Moving on to the idea, the main directions of the Ministry of National Education and Religious Affairs were the rational distribution of the student population, the genuine interest in local communities and the utilization of existing infrastructure. Thus, eight more EECs were established in 1995, twelve in 1997, seventeen in 1998, thirty-one in 2003 and fourteen in 2006 [78]. The EECs are distributed so that each prefecture of Greece is supported by one EEC, and each district by nine. However, the student population is not generally evenly distributed, with the result that some EECs are underperforming.

4.1. Level of Training and Evaluation of EECs Educators

As regards the possession of postgraduate degrees by educators and as shown in Figure 2 and Figure 3 for the question “What is the specialization of your postgraduate and doctoral studies, if any?” an advantage is the possession of postgraduate studies in the subject. Namely, 67% of Cypriots declared that they hold a postgraduate degree in Environmental Education and Sustainable Development and 11% in Ecology, Management and Protection of the Natural Environment, Natural Sciences Teaching and Environmental Education and Biotechnology, Ecology and Biodiversity. On the contrary, in the case of Greece, 76% of the respondents did not hold a postgraduate degree, which is a weakness of the EECs with regard to the existing training and specialization of their educators, while 8% of the educators hold the title of Educational Planning, Investment Finance in REN (Renewable Energy) and Models of Design and Development of Educational Units, Physical Education and Quality of Life. A big difference is presented in the two cases as Cyprus has a clear advantage over Greece, as shown by the results.
To the question “How do you assess the level of training of your educators?” in the case of Cyprus, 49% of students consider their level very high, 33% high, 17% satisfactory and 1% moderate. In the case of Greece, only 18% consider that the level is very high, 43% high, 34% satisfactory and then 3% moderate and low (Figure 4). Although objectively, students are not able to evaluate the training of their instructors, it is a very serious threat, especially for Greece, the non-acceptance and assessment of the level of training of the educators by the students. In the case of Cyprus, the training of educators is better, according to the viewpoint of the student learners; however, improvements are needed. This indicates significant internal weakness of structures to highlight the skills of educators or to select managers with knowledge transfer skills to gain the acceptance of learners, a parameter necessary to accept the knowledge being passed.

4.2. Knowledge of the Differences between Different Forms of Environmental Education

An overwhelming majority of 89% of educators in Cyprus (Figure 5), answered the question “Do you know the characteristics that differentiate Environmental Education from Education for Sustainable Development?” stating that they know the differences between the two terms, shaping the answer to a free text in the questionnaire, indicative of the level of training. In the case of Greece, half of the responders (Figure 5) responded that they are not aware of the characteristics that differentiate environmental education from education to sustainable development, which demonstrates the need for training and is currently assessed as a weakness.

4.3. Feedback in EECs by Students

For both countries, there is a lack of feedback from trainees or school units about their satisfaction after the end of their visit to the EEC. Relatively to Cyprus, 67% say it is sometimes, 22% is always done, while the remaining 11% is rare. A total of 33% (Figure 6) of educators say they receive feedback sometimes or rarely and, perhaps for this reason, a large percentage of them are satisfied with the degree of influence of EECs but feel that improvements are needed. In fact, the degree of influence may be partly exacerbated by the degree of learners’ satisfaction, which many times educators may not know.
For Greece, half of educators said they always receive feedback (Figure 6) on students’ satisfaction while half stated that they do not receive any.
The lack of feedback deprives the EEC of both countries of knowing their outward image, which would help them to understand the degree of influence they exert. This may be the result of possible incomplete cooperation between EECs and school units or the absence of the implementation of an effective operational protocol.

4.4. Satisfaction of Trainees with the Practical Part of Education

The students who participated in activities with a practical part also replied to the question “If your training had a practical part, are you satisfied with your degree of participation in it?.” According to Figure 7, 74% of students responded in Cyprus that they are very satisfied with their participation in the practical part, while 23% answered moderately and 3% little. In Greece, satisfaction for the practical part is expressed by the students at 86%, while 11% express moderate satisfaction. Greece’s dissatisfaction corresponds to 3% of the respondents. Therefore, in the case of student satisfaction for practical actions, 26% of the non-positive answers should be recorded as a weakness in the case of Cyprus, it needs attention and especially redesign of the actions so that the EECs can gain all the students.
There is a contradiction in Cyprus with the question “From the image you have acquired to this day, to what extent learners are satisfied in the case of practical training?” as 100% of educators (Figure 8) replied that the students are very satisfied, confirming the conclusion that led to the following questions that Cypriot educators seem to have no real picture of the degree of EEC influence on students, which is a serious threat in this case. On the contrary, in the case of Greece, educators seem to have become more aware and understand their influence on students and therefore also an opportunity that, if successful, will be able to redefine new strategies to approach the issues they are developing and approaching the target group.
Cypriot educators appear not to have a real situation of the degree of influence of EECs on students, which is a major threat in this case. On the contrary, in the case of Greece, educators seem to have become more aware and understanding of their influence on students, and therefore this is also an opportunity that they will be able to redefine if they use it, new strategies for approaching the issues they are developing and targeting target groups.

4.5. General SWOT Results

Proceeding to the SWOT matrix, the results are derived, by conjugating Opportunities with Strengths (S–O), Opportunities with Weaknesses (O–W), Threats with Strengths (T–S) and Threats with Weaknesses (T–W). The results in Cyprus are 30 cases/opportunities, 17 threats/strengths, 21 opportunities/weaknesses and 12 threats/weaknesses. The case of Greece, there are 13 cases/opportunities, 11 threats/strengths, 10 opportunities/weaknesses and 32 threats/weaknesses.

4.6. SWOT Matrix Findings Analysis

At the end of the analysis, consequently, with the extraction of results from the SWOT matrix, the division of factors into quadrants resulted in the case of Cyprus having the “O–S” Development Strategy while in the case of Greece, the dominant factor distribution is that of “T–W”, Shrink and Defense.
It is clear that in the case of Cyprus, the combination of high teacher education with the interest shown by pupils and parents is the key to a sound Development Strategy, where by adopting innovative teaching methods, they will be able to raise the awareness of the public [50,79] and reverse any negative situation. The willingness of Cypriot teachers to collaborate with both research and academic institutions and similar infrastructures can offer a variety of contemporary environmental topics, providing new knowledge to the public and exerting a positive influence on them. Equally important in raising the awareness of trainees are the appropriate staff and infrastructure available in the Cypriot EECs, enhancing their role and strength. Finally, funding through European programs and/or by the state will add additional momentum and weight to the work that Cypriot EECs have to do with the adoption of Strategic Development (Figure 9).
In the case of Greece, the adoption of Strategic Defense seems to be the safest solution, as due to the economic crisis, the EECs could not remain unaffected, resulting in a lack of infrastructure and basic tools to complete their environmental education actions. Despite the public awareness and cooperation with academic institutions, non-adoption of the Strategic Planning proposed by the European Union has had a negative impact on the proper functioning of EECs, which has weakened their contribution to the public and thus it also diminished public interest, jeopardizing its viability. It is easily understood that the adoption of a Strategic Defense will “freeze” the adverse situation [80] in which the EECs are located and will have the time needed to adopt radical changes that could reverse the negative condition (Figure 9).

5. Conclusions

In the case of Cyprus, the recommended strategy is a Development Strategy because of the combination of high education of educators and the interest shown by students and parents. At the same time, the willingness of Cypriot educators to cooperate with both research and university institutions and similar infrastructures can offer a variety of modern environmental issues, providing new knowledge to the public and exerting a positive influence on them. An equally important parameter for educating learners is the appropriate staff and infrastructure in Cypriot EECs, enhancing their role and strength.
Regarding Greece, the adoption of Strategic Defense seems to be the safest solution because of the economic crisis as EECs could not remain unaffected, resulting in the lack of infrastructure and key tools for completing their educational environmental actions. Furthermore, despite public awareness and cooperation with university institutions, non-adoption of the Strategic Plan proposed by the European Union has had a negative impact on the proper functioning of the EECs and therefore the impact of EECs is decreasing and the students’ interest also.
It is easy to see that the adoption of a Strategic Defense will “freeze” the situation in which the EECs are located and will have the required time to adopt radical changes that could overturn the negative situation. In any case, the establishment of EECs in Greece and Cyprus as well as any part of the world requires further action on behalf of different districts which wish to start up such centers. Environmental awareness and education in the form of EECs can provide the setting stone for the transition to a more sustainable society, if the EECs are established and modified wisely, according to the area’s profile. It is strongly suggested that further research regarding specific areas for establishing EECs in Greece and Cyprus are investigated, for a prosperous and worthwhile goal toward climate mitigation and sustainability.

Author Contributions

Conceptualization, M.K.D. and A.A.Z.; methodology, F.E., M.K.D., I.V. (Ioannis Vardopoulos), I.V. (Irene Voukkali), I.P. and A.A.Z.; validation, F.E., M.K.D., I.P. and A.A.Z.; resources, M.K.D. and A.A.Z.; investigation, F.E., M.K.D., I.V. (Ioannis Vardopoulos), I.V. (Irene Voukkali), I.P. and A.A.Z.; data curation, F.E., M.K.D., I.V. (Ioannis Vardopoulos), I.V. (Irene Voukkali), I.P. and A.A.Z.; writing—original draft preparation, F.E., M.K.D. and A.A.Z.; writing—review and editing, I.V. (Ioannis Vardopoulos), I.V. (Irene Voukkali), I.P. and A.A.Z.; supervision, M.K.D. and A.A.Z.; project administration, M.K.D. and A.A.Z.; funding acquisition, A.A.Z. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Institutional Review Board Statement

Ethical review and approval were waived for this study. The survey was anonymous, gathering no sensitive data, and the participants gave consent to use their answers for research.

Informed Consent Statement

Informed consent was obtained from all subjects involved in the study.

Data Availability Statement

The data presented in this study are available upon substantiated request from the corresponding author.

Acknowledgments

The authors would like to acknowledge all, who have directly or indirectly helped in carrying out this study.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Loughland, T.; Reid, A.; Walker, K.; Petocz, P. Factors influencing young people’s conceptions of environment. Environ. Educ. Res. 2003, 9, 3–19. [Google Scholar] [CrossRef]
  2. D’Adamo, I.; Gastaldi, M.; Morone, P. Economic sustainable development goals: Assessments and perspectives in Europe. J. Clean. Prod. 2022, 354, 131730. [Google Scholar] [CrossRef]
  3. Cotler, H.; Cuevas, M.L.; Landa, R.; Frausto, J.M. Environmental Governance in Urban Watersheds: The Role of Civil Society Organizations in Mexico. Sustainability 2022, 14, 988. [Google Scholar] [CrossRef]
  4. Weart, S.R. The idea of anthropogenic global climate change in the 20th century. WIREs Clim. Chang. 2010, 1, 67–81. [Google Scholar] [CrossRef]
  5. Colasante, A.; D’Adamo, I.; Morone, P.; Rosa, P. Assessing the circularity performance in a European cross-country comparison. Environ. Impact Assess. Rev. 2022, 93, 106730. [Google Scholar] [CrossRef]
  6. UNEP. Global Environment Outlook 5. Environment for the Future We Want; Progress Press: Valletta, Malta, 2012. [Google Scholar]
  7. Beg, N. Linkages between climate change and sustainable development. Clim. Policy 2002, 2, 129–144. [Google Scholar] [CrossRef]
  8. D’Adamo, I.; Gastaldi, M.; Morone, P.; Rosa, P.; Sassanelli, C.; Settembre-Blundo, D.; Shen, Y. Bioeconomy of Sustainability: Drivers, Opportunities and Policy Implications. Sustainability 2022, 14, 200. [Google Scholar] [CrossRef]
  9. Cifrić, I. Environmental literacy between cultural tradition and environmental routine. Soc. Ekol. 1996, 5, 403–421. [Google Scholar]
  10. Sathiendrakumar, R. Greenhouse emission reduction and sustainable development. Int. J. Soc. Econ. 2003, 30, 1233–1248. [Google Scholar] [CrossRef]
  11. Lélé, S.M. Sustainable development: A critical review. World Dev. 1991, 19, 607–621. [Google Scholar] [CrossRef]
  12. D’Adamo, I.; Gastaldi, M.; Imbriani, C.; Morone, P. Assessing regional performance for the Sustainable Development Goals in Italy. Sci. Rep. 2021, 11, 24117. [Google Scholar] [CrossRef] [PubMed]
  13. Lior, N. Sustainable energy development: The present (2009) situation and possible paths to the future. Energy 2010, 35, 3976–3994. [Google Scholar] [CrossRef]
  14. Vardopoulos, I.; Stamopoulos, C.; Chatzithanasis, G.; Michalakelis, C.; Giannouli, P.; Pastrapa, E. Considering urban development paths and processes on account of adaptive reuse projects. Buildings 2020, 10, 73. [Google Scholar] [CrossRef]
  15. Giddings, B.; Hopwood, B.; O’Brien, G. Environment, economy and society: Fitting them together into sustainable development. Sustain. Dev. 2002, 10, 187–196. [Google Scholar] [CrossRef]
  16. Álvarez-Nieto, C.; Richardson, J.; Navarro-Perán, M.Á.; Tutticci, N.; Huss, N.; Elf, M.; Anåker, A.; Aronsson, J.; Baid, H.; López-Medina, I.M. Nursing students’ attitudes towards climate change and sustainability: A cross-sectional multisite study. Nurse Educ. Today 2022, 108, 105185. [Google Scholar] [CrossRef] [PubMed]
  17. Zorpas, A.A.; Voukkali, I.; Loizia, P. Effectiveness of waste prevention program in primary students’ schools. Environ. Sci. Pollut. Res. 2017, 24, 14304–14311. [Google Scholar] [CrossRef] [PubMed]
  18. European Commission. European Commission Directive 2008/98/EC of the European Parliament and of the Council of 19 November 2008 on waste and repealing certain directives. Off. J. EU 2008, 34, 99–126. [Google Scholar]
  19. Zorpas, A.A.; Navarro-Pedreño, J.; Jeguirim, M.; Dimitriou, G.; Almendro Candel, M.B.; Argirusis, C.; Vardopoulos, I.; Loizia, P.; Chatziparaskeva, G.; Papamichael, I. Crisis in leadership vs. waste management. Euro-Mediterranean J. Environ. Integr. 2021, 6, 80. [Google Scholar] [CrossRef]
  20. Abeliotis, K.; Chroni, C.; Lasaridi, K. Consumers’ Behavior Regarding Food Waste Prevention. In Encyclopedia of Food Security and Sustainability; Elsevier: Amsterdam, The Netherlands, 2019; pp. 510–514. [Google Scholar] [CrossRef]
  21. Vardopoulos, I.; Konstantopoulos, I.; Zorpas, A.; Limousy, L.; Bennici, S.; Inglezakis, V.; Voukkali, I. Sustainable metropolitan areas perspectives through assessment of the existing waste management strategies. Environ. Sci. Pollut. Res. 2021, 28, 24305–24320. [Google Scholar] [CrossRef]
  22. Xu, L.; Zhong, Y.; He, X.; Shi, X.; Song, Q. Perception and Behavioural Changes of Residents and Enterprises under the Plastic Bag Restricting Law. Sustainability 2022, 14, 7792. [Google Scholar] [CrossRef]
  23. Pappas, G.; Papamichael, I.; Zorpas, A.; Siegel, J.E.; Rutkowski, J.; Politopoulos, K. Modelling Key Performance Indicators in a Gamified Waste Management Tool. Modelling 2021, 3, 27–53. [Google Scholar] [CrossRef]
  24. Kougias, K.; Sardianou, E.; Saiti, A. Attitudes and Perceptions on Education for Sustainable Development. Circ. Econ. Sustain. 2022, 1–21. [Google Scholar] [CrossRef]
  25. UNESCO. What Is Education for Sustainable Development? Available online: https://www.unesco.org/en/education/sustainable-development/need-know (accessed on 26 June 2022).
  26. Sardianou, E. Sustainable Development Integration in Higher Education. In Oxford Research Encyclopedia of Education; Oxford University Press: Oxford, UK, 2020; ISBN 9780190264093. [Google Scholar]
  27. Wang, H.; Jiang, X.; Wu, W.; Tang, Y. The effect of social innovation education on sustainability learning outcomes: The roles of intrinsic learning motivation and prosocial motivation. Int. J. Sustain. High. Educ. 2022; ahead of print. [Google Scholar] [CrossRef]
  28. Ardoin, N.M.; Bowers, A.W.; Gaillard, E. Environmental education outcomes for conservation: A systematic review. Biol. Conserv. 2020, 241, 108224. [Google Scholar] [CrossRef]
  29. Ardoin, N.M.; Bowers, A.W. Early childhood environmental education: A systematic review of the research literature. Educ. Res. Rev. 2020, 31, 100353. [Google Scholar] [CrossRef]
  30. Moustairas, I.; Vardopoulos, I.; Kavouras, S.; Salvati, L.; Zorpas, A.A. Exploring factors that affect public acceptance of establishing an urban environmental education and recycling center. Sustain. Chem. Pharm. 2022, 25, 100605. [Google Scholar] [CrossRef]
  31. Gomes, L.A.; Brasileiro, T.S.A.; Caeiro, S.S.F.S. Sustainability in Higher Education Institutions in the Amazon Region: A Case Study in a Federal Public University in Western Pará, Brazil. Sustainability 2022, 14, 3155. [Google Scholar] [CrossRef]
  32. Theodoropoulou, E.; Vardopoulos, I.; Sardianou, E.; Mitoula, R.; Kavouras, S. Sustainable development: Setting the curricula for environmental and occupational safety and health skills and education. In Proceedings of the 2019 International Institute of Engineers and Researchers International Conference on Natural Science and Environment, Florence, Italy, 19–20 December 2019; pp. 22–26. [Google Scholar]
  33. Grigoriou, M.; Efstathiadou, E. Environmental Education Centers and Experiential Learning: Views and Opinions of an EEC Director. Available online: https://ejournals.lib.uoc.gr/index.php/edusci/article/view/1218 (accessed on 1 July 2022).
  34. Jorgenson, S.N.; Stephens, J.C.; White, B. Environmental education in transition: A critical review of recent research on climate change and energy education. J. Environ. Educ. 2019, 50, 160–171. [Google Scholar] [CrossRef]
  35. Caeiro, S.; Azeiteiro, U.M. Sustainability Assessment in Higher Education Institutions. Sustainability 2020, 12, 3433. [Google Scholar] [CrossRef]
  36. Kavouras, S.; Vardopoulos, I.; Mitoula, R.; Zorpas, A.A.; Kaldis, P. Occupational health and safety scope significance in achieving sustainability. Sustainability 2022, 14, 2424. [Google Scholar] [CrossRef]
  37. Pitoska, E.; Lazarides, T. Environmental Education Centers and Local Communities: A Case Study. Procedia Technol. 2013, 8, 215–221. [Google Scholar] [CrossRef]
  38. Medir, R.M.; Heras, R.; Geli, A.M. Guiding documents for environmental education centres: An analysis in the Spanish context. Environ. Educ. Res. 2014, 20, 680–694. [Google Scholar] [CrossRef]
  39. Chao, Y.-L. A Performance Evaluation of Environmental Education Regional Centers: Positioning of Roles and Reflections on Expertise Development. Sustainability 2020, 12, 2501. [Google Scholar] [CrossRef]
  40. Clair, R.S. Words for the world: Creating critical environmental literacy for adults. New Dir. Adult Contin. Educ. 2003, 2003, 69–78. [Google Scholar] [CrossRef]
  41. Marcinkowski, T.J. Contemporary Challenges and Opportunities in Environmental Education: Where Are We Headed and What Deserves Our Attention? J. Environ. Educ. 2009, 41, 34–54. [Google Scholar] [CrossRef]
  42. Eagles, P.F.J.; Richardson, M. The Status of Environmental Education at Field Centers of Ontario Schools. J. Environ. Educ. 1992, 23, 9–14. [Google Scholar] [CrossRef]
  43. Ballantyne, R.; Packer, J. Promoting Learning for Sustainability: Principals’ Perceptions of the Role of Outdoor and Environmental Education Centres. Aust. J. Environ. Educ. 2006, 22, 15–29. [Google Scholar] [CrossRef]
  44. Yanniris, C. 20+ Years of Environmental Education Centers in Greece: Teachers’ Perceptions and Future Challenges. Appl. Environ. Educ. Commun. 2015, 14, 149–166. [Google Scholar] [CrossRef]
  45. Higgins, P.; Kirk, G. Sustainability Education in Scotland: The Impact of National and International Initiatives on Teacher Education and Outdoor Education. J. Geogr. High. Educ. 2006, 30, 313–326. [Google Scholar] [CrossRef]
  46. Simmons, D.A. Are We Meeting the Goal of Responsible Environmental Behavior? An Examination of Nature and Environmental Education Center Goals. J. Environ. Educ. 1991, 22, 16–21. [Google Scholar] [CrossRef]
  47. Hart, P. Problematizing Enquiry in Environmental Education: Issues of Method in a Study of Teacher Thinking and Practice. J. Environ. Educ. 1996, 1, 56–88. [Google Scholar]
  48. Mavrikaki, E.; Kyridis, A.; Tsakiridou, E.; Golia, P. Greek educators’ attitudes and beliefs about the application of environmental education in elementary school. In International Perspectives in Environmental Education; Leal Filho, W., Littledyke, M., Eds.; Peter Lang: Frankfurt, Germany, 2004; pp. 29–36. [Google Scholar]
  49. Flogaitis, E.; Daskolia, M.; Liarakou, G. Greek kindergarten teachers’ practice in environmental education. J. Early Child. Res. 2005, 3, 299–320. [Google Scholar] [CrossRef]
  50. Erickson, E.; Erickson, J. Lessons Learned from Environmental Education Center Directors. Appl. Environ. Educ. Commun. 2006, 5, 1–8. [Google Scholar] [CrossRef]
  51. Ernst, J. Influences on US middle school teachers’ use of environment-based education. Environ. Educ. Res. 2009, 15, 71–92. [Google Scholar] [CrossRef]
  52. Pedretti, E.; Nazir, J.; Tan, M.; Bellomo, K.; Ayyavoo, G. A baseline study of ontario teachers’ views of environmental and outdoor education. Pathw. Ont. J. Outdoor Educ. 2012, 24, 4–12. [Google Scholar]
  53. Yu-Long, C.; Heekyung, K.; Chankook, K. A comparison of the regional environmental education centers in Korea and Taiwan: Systems, roles, and practices. J. Environ. Educ. Res. 2018, 14, 121–152. [Google Scholar] [CrossRef]
  54. Wals, A.E.J.; Hoeven, N.; Blanken, H. The Acoustics of Social Learning; Wageningen Academic Publishers: Wageningen, The Netherlands, 2009. [Google Scholar]
  55. Eliadis, F.; Doula, M.; Zorpas, A. The Role of Environmental Education Centers in Climate Change Education and Awareness Raising of the Society. The Cases of Cyprus and Greece. 2019. Available online: https://www.researchgate.net/publication/332259354_The_role_of_Environmental_Education_Centers_in_climate_change_education_and_awareness_raising_of_the_society_The_cases_of_Cyprus_and_Greece/citations (accessed on 3 July 2022).
  56. Eshun, F.; Wotorchie, R.K.; Buahing, A.A.; Harrison-Afful, A.A.; Atiatorme, W.K.; Amedzake, G.; Adofo-Yeboah, Y.; Mante, V. A Survey of the Role of Environmental Education in Biodiversity Conservation in the Greater Accra Region of Ghana. Conservation 2022, 2, 297–304. [Google Scholar] [CrossRef]
  57. Amin, S.H.; Razmi, J.; Zhang, G. Supplier selection and order allocation based on fuzzy SWOT analysis and fuzzy linear programming. Expert Syst. Appl. 2011, 38, 334–342. [Google Scholar] [CrossRef]
  58. Voukkali, I.; Zorpas, A. Evaluation of urban metabolism assessment methods through SWOT analysis and analytical hierocracy process. Sci. Total Environ. 2021, 807, 150700. [Google Scholar] [CrossRef]
  59. Posthuma-Trumpie, G.A.; Korf, J.; van Amerongen, A. Lateral flow (immuno) assay: Its strengths, weaknesses, opportunities and threats. A literature survey. Anal. Bioanal. Chem. 2009, 393, 569–582. [Google Scholar] [CrossRef]
  60. Vardopoulos, I.; Tsilika, E.; Sarantakou, E.; Zorpas, A.; Salvati, L.; Tsartas, P. An integrated SWOT-PESTLE-AHP model assessing sustainability in adaptive reuse projects. Appl. Sci. 2021, 11, 7134. [Google Scholar] [CrossRef]
  61. Symeonides, D.; Loizia, P.; Zorpas, A.A. Tire waste management system in Cyprus in the framework of circular economy strategy. Environ. Sci. Pollut. Res. 2019, 26, 35445–35460. [Google Scholar] [CrossRef] [PubMed]
  62. Dyson, R.G. Strategic development and SWOT analysis at the University of Warwick. Eur. J. Oper. Res. 2004, 152, 631–640. [Google Scholar] [CrossRef]
  63. Phadermrod, B.; Crowder, R.M.; Wills, G.B. Importance-Performance Analysis based SWOT analysis. Int. J. Inf. Manag. 2019, 44, 194–203. [Google Scholar] [CrossRef]
  64. Helms, M.M.; Nixon, J. Exploring SWOT analysis—Where are we now? J. Strateg. Manag. 2010, 3, 215–251. [Google Scholar] [CrossRef]
  65. Ławińska, O.; Korombel, A.; Zajemska, M. Pyrolysis-Based Municipal Solid Waste Management in Poland—SWOT Analysis. Energies 2022, 15, 510. [Google Scholar] [CrossRef]
  66. Tsangas, M.; Jeguirim, M.; Limousy, L.; Zorpas, A. The Application of Analytical Hierarchy Process in Combination with PESTEL-SWOT Analysis to Assess the Hydrocarbons Sector in Cyprus. Energies 2019, 12, 791. [Google Scholar] [CrossRef]
  67. Ghazinoory, S.; Esmail Zadeh, A.; Memariani, A. Fuzzy SWOT analysis. J. Intell. Fuzzy Syst. 2007, 18, 99–108. [Google Scholar]
  68. Seebohm, L. SWOT/TOWS. Collaborative Tools for Stragegic Line Planning. 2014. Available online: https://dokumen.tips/documents/swot-tows-concurrent-collaborative-tools-for-strategic-line-planning-presented.html?page=2 (accessed on 3 July 2022).
  69. Oxford College of Marketing. TOWS Analysis: A Step By Step Guide. Available online: https://blog.oxfordcollegeofmarketing.com/2016/06/07/tows-analysis-guide/ (accessed on 3 July 2022).
  70. Weihrich, H. The TOWS matrix—A tool for situational analysis. Long Range Plann. 1982, 15, 54–66. [Google Scholar] [CrossRef]
  71. Loubser, C.P.; Ferreira, J.G. Environmental Education in South Africa in Light of the Tbilisi and Moscow Conferences. J. Environ. Educ. 1992, 23, 31–34. [Google Scholar] [CrossRef]
  72. United States Environmental Protection Agency (EPA). What Is Environmental Education. Available online: https://www.epa.gov/education/what-environmental-education (accessed on 26 June 2022).
  73. Sun, C.; Liu, J.; Razmerita, L.; Xu, Y.; Qi, J. Higher Education to Support Sustainable Development: The Influence of Information Literacy and Online Learning Process on Chinese Postgraduates’ Innovation Performance. Sustainability 2022, 14, 7789. [Google Scholar] [CrossRef]
  74. Hollweg, K.S. One Environmental Education Center’s Industry Initiative: Collaborating to Create More Environmentally and Economically Sustainable Businesses. Appl. Environ. Educ. Commun. 2009, 8, 67–77. [Google Scholar] [CrossRef]
  75. Zachariou, A.; Symeou, L. The Local Community as a Means for Promoting Education for Sustainable Development. Appl. Environ. Educ. Commun. 2009, 7, 129–143. [Google Scholar] [CrossRef]
  76. Viloria, L.A. A network of regional centres of environmental education and training: A strategy for developing countries. Mar. Pollut. Bull. 1991, 23, 633–635. [Google Scholar] [CrossRef]
  77. Zikas, V. Environmental Education and Physical Education. A Work Plan for Lyceum. Master’s Thesis, University of the Aegean, Mitilini, Greece, 2008. (In Greek). [Google Scholar]
  78. Antonopoulos, G.; Skanavis, C. Promoting an environmental awareness centre to enhance educational activities in Linaria port, Skyros. Int. J. Green Econ. 2020, 14, 95. [Google Scholar] [CrossRef]
  79. Abeliotis, K.; Goussia-Rizou, M.; Sdrali, D.; Vassiloudis, I. How parents report their environmental attitudes: A case study from Greece. Environ. Dev. Sustain. 2010, 12, 329–339. [Google Scholar] [CrossRef]
  80. Xingang, Z.; Jiaoli, K.; Bei, L. Focus on the development of shale gas in China—Based on SWOT analysis. Renew. Sustain. Energy Rev. 2013, 21, 603–613. [Google Scholar] [CrossRef]
Sustainability 14 08368 g001 550
Figure 1. Graphical illustration of the research roadmap.
Figure 1. Graphical illustration of the research roadmap.
Sustainability 14 08368 g001
Sustainability 14 08368 g002 550
Figure 2. Level and type EECs educators in Cyprus.
Figure 2. Level and type EECs educators in Cyprus.
Sustainability 14 08368 g002
Sustainability 14 08368 g003 550
Figure 3. Level and type EECs educators in Greece.
Figure 3. Level and type EECs educators in Greece.
Sustainability 14 08368 g003
Sustainability 14 08368 g004 550
Figure 4. Evaluation of EECs educators by students in Cyprus and Greece.
Figure 4. Evaluation of EECs educators by students in Cyprus and Greece.
Sustainability 14 08368 g004
Sustainability 14 08368 g005 550
Figure 5. Differences between Environmental Education and Education for Sustainable Development in Cyprus and Greece.
Figure 5. Differences between Environmental Education and Education for Sustainable Development in Cyprus and Greece.
Sustainability 14 08368 g005
Sustainability 14 08368 g006 550
Figure 6. The feedback received in Cyprus and Greece.
Figure 6. The feedback received in Cyprus and Greece.
Sustainability 14 08368 g006
Sustainability 14 08368 g007 550
Figure 7. Satisfaction of trainees with the practical part of education in Cyprus and Greece.
Figure 7. Satisfaction of trainees with the practical part of education in Cyprus and Greece.
Sustainability 14 08368 g007
Sustainability 14 08368 g008 550
Figure 8. Satisfaction of trainees with the practical part of education according to educators in Cyprus and Greece.
Figure 8. Satisfaction of trainees with the practical part of education according to educators in Cyprus and Greece.
Sustainability 14 08368 g008
Sustainability 14 08368 g009 550
Figure 9. Outline of recommendations regarding the strategy to be followed in Cyprus (Development Strategy) and Greece (Strategic defense) and key aspects of them.
Figure 9. Outline of recommendations regarding the strategy to be followed in Cyprus (Development Strategy) and Greece (Strategic defense) and key aspects of them.
Sustainability 14 08368 g009
Table
Table 1. Involvement of social groups in research.
Table 1. Involvement of social groups in research.
CountryStudentsParentsEducators
Cyprus72729
Greece77-12
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Share and Cite

MDPI and ACS Style

Eliades, F.; Doula, M.K.; Papamichael, I.; Vardopoulos, I.; Voukkali, I.; Zorpas, A.A. Carving out a Niche in the Sustainability Confluence for Environmental Education Centers in Cyprus and Greece. Sustainability 2022, 14, 8368. https://doi.org/10.3390/su14148368

AMA Style

Eliades F, Doula MK, Papamichael I, Vardopoulos I, Voukkali I, Zorpas AA. Carving out a Niche in the Sustainability Confluence for Environmental Education Centers in Cyprus and Greece. Sustainability. 2022; 14(14):8368. https://doi.org/10.3390/su14148368

Chicago/Turabian Style

Eliades, Filippos, Maria K. Doula, Iliana Papamichael, Ioannis Vardopoulos, Irene Voukkali, and Antonis A. Zorpas. 2022. "Carving out a Niche in the Sustainability Confluence for Environmental Education Centers in Cyprus and Greece" Sustainability 14, no. 14: 8368. https://doi.org/10.3390/su14148368

Note that from the first issue of 2016, this journal uses article numbers instead of page numbers. See further details here.

Article Metrics

Back to TopTop