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AN ACCUMULATION OF CATASTROPHE: A POLITICAL ECONOMY OF WILDFIRE IN THE WESTERN UNITED STATES Dockstader, Sue ( University of Oregon , 2024-03-25 ) This dissertation is an environmental sociological study of wildland fire in what is now the western United States. It examines wildfire management from roughly the 1900s to the present time employing a Marxist historical ...
Managing Life's Future: Species Essentialism and Evolutionary Normativity in Conservation Policy, Practice, and Imaginaries Maggiulli, Katrina ( University of Oregon , 2024-01-10 ) Folk essentialist and normative understandings of species are not only prevalent in popular layperson communities, but also end up undergirding United States conservation policy and practice due to the simplistic clarity ...
Unsettled Ecologies: Alienated Species, Indigenous Restoration, and U.S. Empire in a Time of Climate Chaos Fink, Lisa ( University of Oregon , 2024-01-10 ) This dissertation traces environmental thinking about invasive species from Western-colonial, diasporic settlers of color, and Indigenous perspectives within U.S. settler colonialism. Considering environmental discourses ...
Futuremaking in a Disaster Zone: Everyday Climate Change Adaptation amongst Quechua Women in the Peruvian Cordillera Blanca Moulton, Holly ( University of Oregon , 2024-01-10 ) Indigenous women in Peru are often labeled “triply vulnerable” to climate change due to race, gender, and economic marginalization. Despite Peru’s focus on gender, Indigeneity, and intersectionality in national adaptation ...
Land Acts: Land's Agency in American Literature, Law, and History from the Colonial Period to Removal Keeler, Kyle ( University of Oregon , 2024-01-10 ) This dissertation examines land’s agency and relationships to land in the places now known as the United States as these relationships appear in literature and law from early colonization to the removal period. Land Acts ...
PALEOTEMPERATURE, VEGETATION CHANGE, FIRE HISTORY, AND LAKE PRODUCTIVITY FOR THE LAST 14,500 YEARS AT GOLD LAKE, PACIFIC NORTHWEST, USA Baig, Jamila ( University of Oregon , 2024-01-09 ) The postglacial history of vegetation, wildfire, and climate in the Cascade Range (Oregon) is only partly understood. This study uses high-resolution analysis from a 13-meter, 14,500-year sediment core from Gold Lake to ...
On Western Juniper Climate Relations Reis, Schyler ( University of Oregon , 2022-10-26 ) Western juniper woodlands are highly sensitive to climate in terms of tree-ring growth, seedling establishment and range distribution. Understanding the dynamics of western juniper woodlands to changes in precipitation, ...
Stories We Tell, Stories We Eat: Mexican Foodways, Cultural Identity, and Ideological Struggle in Netflix’s Taco Chronicles Sanchez, Bela ( University of Oregon , 2022-10-26 ) Food is a biological necessity imbued with numerous social, cultural, and economic implications for identity production and everyday meaning-making. Food television is a unique medium for the meanings of food and foodways ...
Soil Nutrient Additions Shift Orthopteran Herbivory and Invertebrate Community Composition Altmire, Gabriella ( University of Oregon , 2022-10-26 ) Anthropogenic alterations to global pools of nitrogen and phosphorus are driving declines in plant diversity across grasslands. As such, concern over biodiversity loss has precipitated a host of studies investigating how ...
Multispecies Memoir: Self, Genre, and Species Justice in Contemporary Culture Otjen, Nathaniel ( University of Oregon , 2022-10-04 ) Liberal humanism articulates an individual, rational, autonomous, universal, and singularly human subject that possesses various rights and freedoms. Although the imagined subject at the heart of liberal humanist philosophy ...
Understanding How Changes in Disturbance Regimes and Long-Term Climate Shape Ecosystem and Landscape Structure and Function Wright, Jamie ( University of Oregon , 2022-10-04 ) Long-term and anthropic climatic change intersecting with disturbances alters ecosystem structure and function across spatiotemporal scales. Quantifying ecosystem responses can be convoluted, therefore utilizing multiproxy ...
Ikpíkyav (To Fix Again): Drawing From Karuk World Renewal To Contest Settler Discourses Of Vulnerability Vinyeta, Kirsten ( University of Oregon , 2022-10-04 ) The Klamath River Basin of Northern California has historically been replete with fire-adapted ecosystems and Indigenous communities. For the Karuk Tribe, fire has been an indispensable tool for both spiritual practice and ...
Grassland Restoration in Heterogeneous, Changing, and Human Dominated Systems Brambila, Alejandro ( University of Oregon , 2022-10-04 ) Ecological restoration is a powerful tool to promote biodiversity and ecosystem function. Understanding underlying system variability and directional change can help predict outcomes of restoration interventions. Spatial ...
Restoring What? And for Whom? Listening to Karuk Ecocultural Revitalization Practitioners and Uncovering Settler Logics in Ecological Restoration. Worl, Sara ( University of Oregon , 2022-05-10 ) What does it mean to restore a landscape degraded by settler colonialism? How might a well intentionedprocess like ecological restoration end up causing harm from underlying settler colonial logics? This thesis explores ...
Instigating Communities of Solidarity: An Exploration of Participatory, Informal, Temporary Urbanisms Meier, Briana ( University of Oregon , 2021-11-23 ) This dissertationexamines the potential for participatory, informal urbanisms to buildcollaborative relations across ontological, cultural, and political difference. This research contributes to thefield of urban, environmental ...
The Holy Oak School of Art and Ecology: A Proposal for Arts-Based Environmental Education Programming Best, Krysta ( University of Oregon , 2021-11-23 ) The following is a proposal for arts-based environmental education programming in elementary schools, after-school programs, and day-camp programs, entitled the Holy School of Art and Ecology. Ecophenomenological, arts-based ...
Settler Colonial Listening and the Silence of Wilderness in the Boundary Waters Canoe Area Hilgren, Bailey ( University of Oregon , 2021-11-23 ) The Boundary Waters Canoe Area soundscape in northern Minnesota has a long and contested history but is most often characterized today as a pristine and distinctly silent wilderness. This thesis traces the construction and ...
Species Dynamics and Restoration in Rare Serpentine Grasslands under Global Change Hernandez, Eliza ( University of Oregon , 2021-11-23 ) Conserving rare serpentine grasslands is a challenge with ongoing nitrogen deposition. Nutrient-poor patches are fertilized by nitrogen-rich smog and exotic grasses can rapidly spread. Water resources are also being altered ...
Place-making and Place-taking: An Analysis of Green Gentrification in Atlanta Georgia Okotie-Oyekan, Aimée ( University of Oregon , 2021-11-23 ) Despite the benefits of urban greenspace, Atlanta’s Westside Park is causing gentrification and displacement pressures in Grove Park, a low-income African-American community in northwest Atlanta, Georgia. This study used ...
Prairie Plant Responses to Climate Change in the Pacific Northwest Reed, Paul ( University of Oregon , 2021-09-13 ) Understanding how plants respond to climate change is of paramount importance since their responses can affect ecosystem functions and patterns of biodiversity. At the population level, climate change may alter phenology ...

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Research Methods for Environmental Education

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First Online: 30 September 2022

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Wei-Ta Fang ORCID: orcid.org/0000-0002-4460-0652 4 ,
Arba’at Hassan 5 &
Ben A. LePage ORCID: orcid.org/0000-0003-3155-7373 4 , 6

Part of the book series: Sustainable Development Goals Series ((SDGS))

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Research methods are the sum of knowledge, plans, strategies, tools, steps, and processes. In this chapter, we seek to understand the “research” nature of Environmental Education (EE), define the scope of research through a systematic investigation process by gathering and understanding past facts and discovering new facts through practical investigations, experiments, and verification methods to increase or modify the contemporary know-how in our environment. After exploring the history of EE, entering quantitative research on EE and qualitative research on EE, we use this chapter to improve the level of thinking of EE theory, using the learning methods of Benjamin S. Bloom, Harold R. Hungerford, and the emotional learning theory of ABC. We aim to understand the value of post-environmental learning, strengthen our transcendental cognition of animate and inanimate objects by looking at these aspects objectively and have a more general and mature view of the biotic and abiotic processes that shape the world around us.

At “Environmental education is the process of recognizing values and clarifying concepts to develop skills and attitudes necessary to understand and appreciate the inter-relatedness among man [sic], his culture , and his biophysical surroundings. Environmental education also entails practice in decision -making and self-formulation of a code of behaviour about issues concerning environmental quality .” UNESCO, International Working Meeting on Environmental Education in the School Curriculum , 1970

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The relational, the critical, and the existential: three strands and accompanying challenges for extending the theory of environmental education

Do Experiences with Nature Promote Learning? Converging Evidence of a Cause-And-Effect Relationship

A Typology of Research Paradigms and Sources of Knowledge in Educational Research

1 what is environmental education research.

In the previous chapter we mentioned that environmental educators must present the new and growing body of scientific knowledge and technologies to their students to meet changing social, economic, and cultural needs. The foundation of the environmental knowledge and the challenges facing environmental educators required for teachers and scientists today, is to re-examine the way we perform research, assess the questions that are relevant to modern issues, and to train EE professionals and educators (Fig. 3.1 ). We generate about 2.5 quintillion bytes of data daily (Humbetov 2021 ; Roque and Ram 2019 ), but most are out of touch with current and future societal, economic, and global environmental issues. Our environmental conditions are changing daily; some are normal and have been seen throughout Earth’s history. Human activities are simply accelerating a process that is occurring naturally. We may not necessarily know the exact time of a volcanic explosion or earthquake, but have a good idea on when they could happen based on past occurrences. This unfortunately does not meet society’s expectations on our ability to more accurately predict these changes based on the trajectory of the amount of data we’ve generated, technological improvements, societal expectations of the modern environment. Society is gob-smacked when scientists and educators can’t solve or explain environmental problems like global warming to the public in a way that they understand. Is it possible for the scientific community and environmental educators to distill complex environmental concepts, the problems and potential solutions, and correctly communicate them to the general public without creating panic? Therefore, in defining the goals of EE, we should strive to establish a professional standard for EE and the educators, and strengthen the standards needed for EE (Hudson 2001 ).

As scientists and educators, we have the opportunity and responsibility to expand the resource base of EE. Professor Fang sharing the Asia Chapter lessons learned and progress at an annual Society of Wetland Scientists (SWS) board meeting in 2015, from far left to right-sided: Wei-Ta Fang (Graduate Institute of Environmental Education, National Taiwan Normal University), Beth A. Middleton (Wetland and Aquatic Research Center, U.S. Geological Survey), Loretta Battaglia (Center for Coastal Studies, Texas A&M University-Corpus Christi) (Photo by Yung-Nane Yang)

So, in terms of a basic learning plan, what is the “research” of EE? After we have defined the state of the art and the scope of our research, we then strive to validate, dispel, increase, and/or modify contemporary environmental knowledge through a systematic investigation process, by collating and understanding past facts, and discovering new facts based on actual investigations, experiments, and verification methods. Therefore, we need to understand the personnel, culture, societal norms and values in space and in time, organizations, and materials in the environment using scientific and social science methods to analyze environmental issues, and to use these tools to develop a broad-based EE research program to address current and future needs. The needs of educational research are important.

Public education for the environment should have a positive impact on life in the future. Therefore, according to the concept of sustainable development, if our current and future generations want to enjoy the benefits of the planet’s natural heritage, EE must then be taken seriously. In the face of the increasingly cumbersome and complex issues of the twenty-first century, environmental problems are becoming increasingly difficult to understand and evaluate, but we need to become more heteroglossic to be effectively solve environmental problems. Heteroglossia however, has a problem of creating social controversies (Bakhtin 1981 , 1994 ; Guez 2010 ). Science and EE is not immune to heteroglossia. Scientific reasoning and rational interpretation and analysis of environmental problems can be solved, but each person and/or organization has their own opinion and interpretation of complex environmental issues that are communicated at levels that are appropriate and targeted to different audiences, while others are not. Despite having messaging that is appropriate to one group of stakeholders, other groups may “hear or understand” the message differently.

Operationally and from an environmental point of view, human beings often adopt non-sustainable resource use and management methods to deal with economic development. The quality of our environment is often the victim of politically-vested interests of the public agenda. Therefore, as environmental educators our challenge now is how to express the complexity of modern environmental problems in an understandable way using simple and understandable methods, while ensuring that the environmental science is accurate and effective in interpreting and assessing environmental problems without inciting panic. This requires a carefully crafted communications plan and potential solutions for the environmental problems being faced that has consensus among stakeholders.

Therefore, although we study the environment, we need to follow a process that includes a literature review, a list of the problems that have been identified in the literature, new ideas, assess, and understand processes to determine whether the data collection, analyses, and interpretations are reasonable and feasible, and where improvement is needed. The most important thing to remember is that when we observe the environment, we interpret our observations from the societal norms, values, and constructs that we are a part of, while recognizing these elements are spatially and temporally variable, in addition to theoretical estimation and speculation. The research of EE must of course be based on theory and must be corroborated by sound science, practical analyses, and summarized and organized in a manner that the public at large can understand and when appropriate, contribute to developing solutions or the discussion. The following issues need to be emphasized when combing research methods (Estabrooks 2001 ):

1.1 Instrumental Research Utilization

Instrumental research is the application of specific research results and transforming them into materials that are suitable for EE.

1.2 Conceptual Research Utilization

It is said that research may change one's thinking, but it does not necessarily change one's behavior (Heimlich and Ardoin 2008 ). Heimlich and Ardoin ( 2008 ) declared that human behavior is grounded in rational thought. Why environmental education is not effective? How it could be more effective? In this case, it is necessary to inform decision makers of the research, what the results mean, and then let the decision makers ponder why EE is not effective.

1.3 Symbolic Research Utilization

Conceptually, environmental education research is often abstract and based on paradigms that fit the social and economic needs of human populations in space and in time (Stevenson 2007 ; Ardoin et al. 2013 , 2020 ) The scientific and environmental concepts that are studied and ultimately presented to the public are explained or framed in a manner that pushes the science forward, but not too quickly or in a manner that society will lose interest or consider the results irrelevant to the problems society faces at that time (Ardoin et al. 2020 ). For example, the global change issues that we are concerned with today were not prevalent 100 years ago. Evolution was not accepted as a valid hypothesis until Darwin’s ( 1859 ) seminal work that appeared in the On the Origin of Species (1859), and even today, there are sectors of society that do not accept this hypothesis that shapes all life on the planet. Environmental education is the persuasive summary of what we know to be true, which in turn regulates human environmental behavior from actionable knowledge (Mach et al. 2020 ). Therefore, the scientific community and stakeholders need to develop processes where existing and new environmental/scientific data are collated, made relevant to society so that educational pedagogies and policies can be developed for the benefit of humans and the environment.

Therefore, research on EE must first emphasize the importance of the relevant topics, including the value of assessing the state of the art (all that is known on a topic) (Freeman III 1986 ), the problem statement (uncertainties or gaps) (Zehr 1999 ), the research to fill the gaps, and the writing stage (dissertations and peer-reviewed publications). Building on what is known is the process that the scientific community has followed for hundreds of years. It follows a process that helps scientists recognize emerging and important issues discussed by the international academic community (Fig. 3.2 ). Second, EE research requires an in-depth analysis of disputes (Lucas 1980 ; Tilbury 1995 ; Van Weelie and Wals 2002 ). In order to conduct logical dialectics, we need to propose a preliminary analysis structure, think repeatedly, and demonstrate the ability to control the research object. Third, in research, the research goals should be as specific as possible to avoid vague descriptions. In addition, performance needs to be measured, and currently this is based on the quality of academic research results published, important personal contributions, talent cultivation, and the research team’s academic community building and service experience (Estabrooks 2001 ). Although these elements are of the utmost importance, a dichotomy between science and the public is created (Eden 2010 ). The distillation and presentation of new ideas and relevance of the scientific data to the public at large is generally not considered important in academia. Environmental/science educators are then tasked with interpreting and translating the results generated in academia to the stakeholders, including and the public. This task is often difficult given that the goals of academia and society are generally not aligned.

From the discussions of education scholars with all folks, we understand that education is an educational activity that develops theory from practice from brainstorming to face-to-face communication (Person standing on the right side: President Cheng-Chih Wu, National Taiwan Normal University, Taiwan, 2022) (Photo by Wei-Ta Fang)

When the physical environment refers to something other than human beings, it is necessary to define the environmental boundaries or what is the environment. We can consider brainstorming as a form of productive discussion. EE emphasizes the importance of close cooperation between professional teams, local people, and stakeholders in a face-to-face setting to establish lines of communication, the exchange of ideas opinions, and trust. As a result, these types of local engagements or personal relationships are considered more effective than written documents (Wang et al. 2021 ). In addition, EE advocates the need for appropriate planning to experience the natural environment and promote concepts of environmental protection based on novel ideas. In the education process, continuous improvement of teaching skills encourages understanding the rapid changes in the environment and environmental conditions are needed to respond to the development of pedagogies focused on teaching environmental aspects. Therefore, regardless of the interaction between the individual and the environment, whether the individual cares for the environment or not, we must grasp the “initial intention” (Bratman 1981 ) that human beings generally benefit from the environment and the resources it provides.

According to the Avatamsaka Sutra 《華嚴經》 (V.17, in Chinese “Huayan,” in the late third or the fourth century CE) (Gimello 2005 ): “Those who traverse the three times in the worlds, you never forget why you started,”. In V. 19 it is said: “Like a bodhisattva’s original heart, it is not the same as the latter heart.” Later generations summarized their original intentions, explaining that “without forgetting their original intentions, they can always be obtained; their initial intentions are easy to obtain and always difficult to keep.” Therefore, in the process of EE, it is inevitable to feel lonely, because this is a lonely job (Hart 2002 ). The hardest part of doing any work that is beneficial to environmental protection is persistence, hoping to communicate hard, and persevere; endure the torment, and be able to win.

Therefore, in a team setting we need to establish good and clear lines of communication and collaboration for the course development team. In the initial stage of curriculum development, when the needs of learners cannot be fully collected, it is necessary to periodically review and adjust the needs of the people and adjust the curriculum based on feedback (Bester et al. 2017 ), which is a focus on the practical process of truth-seeking (Ansori et al. 2020 ). Research can be monetarily and intellectually expensive and could drive or impede the research questions being asked. Therefore, in the process of conducting research, even if in a vacuum, it’s important to stay on task and follow through on your original intentions and ideas. Building theory around hypotheses is challenging because changing paradigms not only requires the sound science to support new ideas, but acceptance of new ideas and in some cases changes in human behavior are needed. In addition to detailed observation, analysis, discussion, and constant self-criticism, it is also necessary to use seek the gift of feedback from one’s peers to modify better shape the initial theoretical prototype. Environmental education is structured around a mutually coordinated framework to achieve the goal of sustainable development. For details, please refer to Fig. 3.3 .

Innovative research methods toward developing sustainability models (Illustrated by Wei-Ta Fang)

2 Types of Environmental Education Research

The term EE appeared in 1947. When we talk about EE research, we think we need to break the question down. That is, what exactly is EE research? The mission of EE research is to promote research and academic understanding of EE and education around the goals of sustainable development. These goals are achieved by publishing one’s research findings in peer-reviewed journals. These journals were developed from EE programs and scientists across the globe. Many are founded on outstanding schools of education thought and practice and have been able to adapt to philosophical changes in space and in time (Stewart 2020 ). Therefore, it is important to identify journal philosophies, practical EE experience, education for sustainable development (ESD) goals, and the government policies that helped create the ecosystem around the science of the research and high-quality innovative papers from a new social contract (Lubchenco 1998 ). It is important to determine whether the scientists and editors are driving the direction of the science or it’s a question of dollars. Publishing houses businesses that like newspapers, are focused on generating revenue. The agencies that are providing the research funding are reacting to public pressure. The scientists then find themselves in a political, economic, and ethical mire because they need to follow the money and publish in the right type of journal. As the liaison between the academic community, stakeholders, and the public, environmental educators find themselves acting as sheriffs, lawyers, politicians, priests, and/or therapists in the process of distilling and disseminating the results of environmental study research and the meaning of these data to their students, stakeholders, and public.

2.1 International Periodicals

The Journal of Environmental Education (JEE) was founded in 1969 and Stapp ( 1969 : 30–31) published an article within which EE was defined. The journal was dedicated to the research and development of environmental protection communications, highlighting the opportunity of the media to attract public attention to environmental conditions and issues. The mission of JEE was to provide a critical and constructive forum for research on the theory and practice of environmental and sustainable education. Today JEE publishes articles on EE experience and theoretical analysis, including critical, conceptual, or policy analyses articles on environmental or sustainability-related education edited by Alberto (Tico) Arenas, Editor in Chief, the faculty of the Environmental and Sustainability Education in the College of Education, University of Arizona, USA. Arenas received his Ph.D. at the fields of Sociocultural Studies in Education at the University of California, Berkeley. Papers are interdisciplinary and cover research that ranges from early childhood to higher education, formal to informal approaches, literature reviews, and program evaluations.

A second influential journal, Environmental Education Research (EER) was founded in 1995 and the papers published in this journal are often literature reviews highlighting innovative empirical and theoretical research approaches, and papers within which key concepts and of EE and Sustainable Development Education (SDE) methods are analyzed (see Fig. 3.4 ). The JEE and EER provide readers with perspectives on EE theory and methodology. Their purpose is to improve research and practice on EE and SDE topics. The research published encourages examining methodological issues and challenges to the existing theoretical dialogue. New articles provide in-depth connections between theory and practice and strengthen the conceptual framework across disciplines. Both journals welcome reader responses to published papers to attract ideas and generate academic dialogue that promote the theory and practice of EE and SDE research.

Environmental Education Research ( EER ) was founded in 1995 and the papers published in this journal are often literature reviews highlighting innovative empirical and theoretical research approaches. Left: Alan Reid (Faculty of Education, Monash University, Australia), the Editor of EER , inquired one of the Ph.D. students, Chia-Huan Hsu (Right), during the Taiwan’s EE Conference, Jianshanpi Jiangnan Resort, Tainan, Taiwan in 2018 (Photo courtesy of Yi-Hsuan (Tim) Hsu, Middle, back to photographer) (Photo by Wei-Ta Fang)

We reviewed research articles published in EER and JEE and all of the papers that we reviewed were based on international problems, such as climate change, global warming, sustainable development goals (SDGs), and empirical articles that included critical analyses and discussions of the research methods and findings. Conclusions and suggestions are based on policy practice derogation. As such, according to the papers published in the JEE and EER , EE and SDE have a wide range of research content, including critical articles and analyses on education policy, philosophy, theory, and history. In addition, articles within which qualitative analyses and verification of the reliability and validity of the analyses that were performed are predominant. Data on program evaluations show the progress of innovation in this field (Reid and Scott 2013 ), explains program goals, and record the background, processes, and research results. These results are based on the consistency and empirical nature of the arguments and can be extended to other educational and cultural backgrounds.

2.2 Local Periodicals

In the Sinophone society there are not many journals that are focused on EE research, but they are becoming more prominent. The Journal of Environmental Education Research published by the Chinese Society for Environmental Education (CSEE) in Taiwan was launched in 2003 and contains research papers that address a variety of topics, including educational discourses and environmental philosophical works. The main contents include:

Research Articles : Reports on scientific research,

Academic Articles : Reviews on EE research and practices; and

Essays and Analyses : Discourses on the historical development, ideas, practices, and philosophy of EE.

Environmental education, as defined in the Journal of Environmental Education Research (JEER) , edited by Shin-Cheng Yeh at GIEE, NTNU, is extensive and includes “formal” and “informal” EE. Topics can cover a variety of environmentally related subject areas, such as: environmental ethics, environmental philosophy, sociology, psychology, commentary, communication, economics, planning and design, science and engineering, tourism, leisure and recreation, natural resource management, geography, culture and history, sustainable development, public health, food and agriculture ( https://www.ipress.tw/J0088?pWebID=54 ) (in Chinese). Approaches to propose/test/assess theories and practices of EE policy, curriculum planning, or teaching and learning from multiple perspectives are the focus of the papers published in JEER .

2.3 Research on Environmental Education

In the aforementioned discussion the development of international EE is akin to a tree Joy Palmer (1951–) used to compare the content and development direction of EE. He believed that EE in the twenty-first century is based on the roots of trees, some shallow, some deep, but prevalent in the soil. On this basis, students should understand the environment, possess environmental knowledge, skills, and values, and develop the ability to take care of the environment (Palmer 1998 ).

2.3.1 Theme of Environmental Education

Project Environment was implemented in the UK in 1974 and mentioned three topics: “education about the environment,” “education in/from the environment,” and “education for the environment” (Tilbury 1995 ; Palmer 1998 ). However, how can teachers use the spirit of suspicion, curiosity, and exploration in the development of EE to conduct ecological surveys under different hypothetical situations and attract students towards the field of scientific investigation in a tempting manner? In reality it comes down to what a person/teacher wants to achieve? Do they want to teach students how to perform outdoor teaching projects based on critical and creative thinking, integrate past experiences and ongoing course learning content, and/or use education and research to develop the process? At the present time, in the process of developing education and research teaching, the following three directions are mainly discussed through instructivism, constructivism, and deconstructionism.

Education about the Environment

The aim of EE is to teach students about the environment, let them understand environmental concepts, and to allow them to criticize issues in a logical and constructive manner. This approach needs to generate critical thinking and problem-solving abilities by building on existing environmental knowledge and developing an awareness of the biotic and abiotic elements of the world around them. Therefore, EE is to seek and discover the essence of environmental research by developing and testing hypotheses. Learning to identify environmental problems that society faces today and then formulate relevant questions is a learned process. Under the guidance of teachers, colleagues, and peers, information about the environment is collected that will form the foundation of the research being performed. Therefore, education about the environment is a type of guided EE.

Education in or from the Environment

The field of EE emphasizing outdoor education is important. Teachers teach students to use the natural environment for learning; nature is a classroom and we can use our natural curiosity for inquiry and discovery to strengthen the learning process (Chang and Ow 2022 ). In the learning process, we integrate environmental awareness, research data, and personal experience to develop environmental awareness and solve environmental problems. Using this model, an awareness is built around our knowledge and experience with the environment.

Education for the Environment

At this stage, we have the experience that the environment is the cause and human beings are the effect; or human beings are the cause and environment is the effect. From the deconstruction approach, teachers can encourage students to study the relationships between individuals and the environment. Through the screening and discussion of environmental issues, students can begin to understand the causes of environmental pollution and encouraged to integrate environmental responsibility and action into their behaviors.

Education about, in, and for the Environment

The focus of EE still needs to be integrated into a unified system because most educational processes, from knowledge to competence and construction, are full of divides. That is to say, the curved lines in Fig. 3.5 are all EE content and can achieve the goal of sustainability through education. In other words, the concept of EE is high, but after a student receive EE instruction of EE, does it produce an ethical value that has for the environment, cultivate the correct knowledge, build the ability to improve the environment, integrate a sense of environmental responsibility, and generate actions resulting in stronger environmental awareness? This is the ideal scenario for “about, in, and for” EE. Integrated EE learning and research can cultivate actions oriented towards developing problem-solving skills and knowledge that form environmental attitudes and values that contribute to the formation of responsible environmental behaviors (Fig. 3.5 ). Therefore, integrated EE is a process that develops environmental attitudes, values, morals, and ethics and educates students develop an awareness and behaviors in people that care, want to be close, and protect the environment through different learning processes.

Focus of EE (Illustrated by Wei-Ta Fang)

2.3.2 Proposals for Environmental Education

Environmental education emphasizes self-learning and in academia, self-directed learning is expected. In-depth study is conducted based on the interaction of learning methods, situations, and free choice (Falk et al. 2009 ; Falk 2017 ). Learners are free to design personal education plans for their environment through autodidacticism. However, because people have the inclination to be liked, disliked, and work hard, all the previous situations are ideal learning methods for social environmental education. Therefore, how do we educate kindergarten, elementary school to middle school, and college students in the formal environmental setting? How do we integrate knowledge and experience into learning experiences and encourage learners understand the environment around them and the resources provided by these ecosystems? This is explained further.

Instructivism

“Instructivism” is the approach of “guidance” that is advocated in the early stages of EE courses. It is based on the premise that teachers establish/provide the necessary learning resources and restrictions for students, set learning goals, understand themselves the principles of EE, design teaching methods that will allow students to attain the program goals and objectives, and emphasize the importance of professional knowledge learning in the curriculum goals. Instructivism provides a learning approach where students learn about the environment based on stimuli that emphasizes EE is a discipline within the constructs of ecology. Teachers must present the learning content in the way that meets the goals and objectives of the curriculum and use the appropriate tests to measure whether the students grasped the concepts and further expanded their knowledge and abilities on the information presented.

Under the notion of guiding theory of media richness by Chao et al. ( 2020 ), communication can still take place, but the scope will expand in concert with that of the knowledge field, allowing scholars and graduate students to gradually understand their own capabilities and vision from computer-mediated communication (Chao et al. 2020 ). Based on guidance-based learning, it is emphasized that learning is a two-way contract learning between teachers and students, rather than one-way teachers exerting their teaching authority. The learning contract is a kind of autonomous learning (autodidacticism), allowing learners to accept two-way contracts on their own, and teachers and students accept each other. In the integration of instructionalism into learning, based on the connection between “stimulus-and-response” (S-R), scholars are encouraged to try mistakes, and teachers can correct mistakes, and through the process of guidance, perform wrong learning and correct answer problems.

Constructivism

Constructivism is a philosophical idea derived from cognitionism and adopts a philosophical stand of “non-objectivism.” Constructivists believe that the ability to generate knowledge needs to pass through the actual field. Although the ecological environment of the so-called EE field exists objectively, the human understanding of ecology and the meaning given to it are determined by individuals. Therefore, human beings construct the concept of “environment” with their own experience.

Constructivist learning is a self-learning theory that scholars should establish after accumulating the basic work of self-learning. While constructivism and instructivism help students to acquire knowledge, constructivism adopts an open-ended learning method and instructivism adopts problem-solving learning method (Edelson et al. 1996 ; Herrington and Standen 1999 ). Their educational concepts are different and Constructivists believe that the learning method of EE is closer to that in nature (Klein and Merritt 1994 ). Students can learn on their own and build knowledge from observing and interacting with the environment. Therefore, the study of natural ecological knowledge is an education in/from the environment. It is based on the experience and understanding of environmental situations.

Constructivists therefore believe that human beings choose for themselves and are responsible for those choices. This kind of thinking gives human-beings greater freedom, but they must also accept greater responsibility, which is close to the existentialist thinking mode. Existentialists believe that the meaning of human existence cannot be answered by rational thinking. Therefore, from the philosophical thinking of “non-objectivism,” we understand that learning in/from the environment is personal, independent, and self-awareness is learned from subjective experience, which is not what teachers can do.

Constructivism encourages learners to actively experiment, experience, and take further actions in ecological experiences through the approach of “personal and direct participation in environment.” This will complete the learning process of education. Knowledge of EE is “learning by observing nature,” rather than relying on teachers to teach in the classroom what students should and should not do. Therefore, constructivism hopes that when scholars are confronting the conflict between theory and practice, that they form a sense of responsibility in the living environment and seek solutions on their own.

Deconstructivism

Deconstructivism is a critical way of learning in the course advancement and growth education. We observe education about the environment and only teach what the environment is and cannot produce environmental actions. It is only a state of knowing and not doing. Education in/from the environment is integrated into the context of nature and the effects of nature connectedness, but whether knowledge and action can be generated as a result is still questioned by scholars (Tilbury 1995 ). We interpret the different perspectives and look for reasons for these conflicts. When dealing with classic narrative structures, it is best to interpret them in the existing context/setting (Gough and Price 2004 ). For example, from the deconstruction of any EE dissertation, the existence of a certain type of prototype is required.

However, even though the process of construction is perfect, it means that we have seen in our research the strong and powerful natural connection to nature and even reached the wonderful feeling of unity between heaven and man. However, from the perspective of critics there are deficiencies that need to be carried out by deconstructive criticism. Here, we quote the Discussion of the Equality of Things, Zhuangzi of ancient Zhuang Zhou (莊子; 莊周) (Zhuangzi, 369–286 BC), who said:

There is nothing in the world greater than the tip of autumn down, and nothing in the world smaller than Mt. Tai (泰山). There is no one longer-lived than an infant died young, and no one shorter-lived than Ancestor Peng (彭祖), Heaven and earth and I are born together; the myriad things and I are one.

In other words, in the context of the two things, in the so-called environment, in terms of Zhuangzi’s deconstruction, there is no absolute standard for all sizes; there is no absolute standard for the length of all time. From Zhuangzi’s deconstruction method of time and space in the natural environment, in the process of deconstruction of “EE” textbooks and teaching methods, “instructivism” in the classroom and “constructivism” in the environment have always been in opposition and have a tense relationship.

“Instructivism” is described as “students memorizing the ecological knowledge to be a clear and unquestionable state forced by teachers”; however, “constructivism” is described as “both teachers and students do not know what to do. Teachers are only concerned with the psychological activities of students while learning knowledge, and not keen to test whether students really understand and memorized the knowledge required in the environment.” Deconstructionists discuss the EE teaching model to guide questions and construct critical ideas and theories, so that students can further investigate and conduct research on controversial environmental issues and generate questions. However, deconstructionists sometimes find too many problems, have the ability to be critical, and cannot participate in the process of environmental improvement. They blame others for not understanding environmental protection, but all lack the ability to improve the environment and cannot be integrated into the actual mainstream society. Therefore, what we need is the fourth kind of doctrine, which is the integration doctrine of EE.

Integrationism

The fourth doctrine refers to the integrationism of education about, in, and for the environment. The aforementioned methods of education do not actively fight against environmental, economic, and social injustices (Tilbury 1995 ). Even when criticism is made, it is limited to anonymous criticism and dares not to openly make constructive EE theory and practical contributions. Therefore, from the ontology of western scholarship, we need is an integrationism approach when it comes to the epistemology of the environment. “Nature” is not an absolute condition but relative in space and in time. In the dualistic structure of deconstruction, scholars criticize that although deconstruction can be used for academic criticism, it is difficult to understand its true definition and often belongs to political criticism. Therefore, we need a more rigorous academic and practical basis to explore the real complex interaction modes in the environment.

When investigating “deconstructivism,” scholars should learn French philosopher Derrida's caring and self-reflection skills for the world. Through self-reflection, critical thinking, and group evaluation, he transforms from a virtual situation into an enlarged body of the real environment. Recognize that only through reflection and mirroring can we improve our prejudices and ideas, as well as strengthen the responsibility of the citizens of the earth through actions. In recent years, due to the emphasis on sustainable development and the promotion of education for sustainable development, the paradigm of educational research has shifted from an empirical paradigm to an ecological paradigm in the real world. Positivism has turned to critical theory and hermeneutics, so the connotation of EE is increasing. In other words, more social evidence, argumentation, criticism, interpretation, dialogue, and social participation are needed to respond to the changing trends of the times, see Table 3.1 .

2.3.3 Research Directions of Environmental Education

Environmental Education Policy

Environmental Education is based on the following concepts of “One Planet, Environmental Justice, and Sustainable Development (Magraw and Lynch 2006 ; Habib 2013 );” therefore, how to improve the environmental literacy of the entire population and the practice of responsible environmental behavior is an important developmental direction for national environmental policies and environmental governance (Fig. 3.6 ). At present, the national EE program is the basis for environmental literacy policies (Liu et al. 2015 ). It is formulated by the Environmental Protection Administration of the Executive Yuan (Environmental Protection Administration 2014 ), and consults with the Ministry of Education and other units, and reports to the Executive Yuan for approval of the Taiwan’s environmental education program to carry out. This EE programs have been designed to enhance citizens’ understanding and awareness of the world’s environmental challenges, as well as to encourage active participation in environmental protection and, sustainable development (Huang et al. 2021 ).

EE policy is based on the mechanism from local system to global system (Illustrated by Wei-Ta Fang)

Environmental Education in the Schools

The school’s EE program aims to strengthen the nation’s establishment of environmental-related programs through the school system (from kindergartens, elementary schools, junior high schools, high schools to university undergraduates, graduate schools), classrooms, and outdoor environments. Environmental Education are built on a teachers’ environmental literacy of knowledge, attitudes, skills, and values.

Corporate Environmental Education

To promote corporate social responsibility, reduce environmental pollution and promote the recovery, regeneration or effective use of a producers' product(s), industry and government need to develop partnerships that promote environmental protection, improve employee environmental literacy, and environmental education.

Environmental Science Education

To strengthen the disciplines involved in the environmental sciences (e.g., ecology, geology, geography, conservation biology, resources technology, environmental engineering, environmental psychology, environmental politics, environmental society, environmental culture, environmental economy, and environmental engineering) science learning activities in the classroom, laboratory, and field must be organized in uncertain times (Wals et al. 2014 ; Kidman and Chang 2022 ). Environmental science education includes a good understanding of the living and physical aspects of the world around us.

In-Service Education

EE at communities is a process of disseminating environmental knowledge and skills from in-service education in society (le Roux and Ferreira 2005 ). Disseminating environmental knowledge and learned skills from learning fields such as museums, social education centers, EE facilities, ecotourism, community tours, and the visits strengthened the connotation of environmental literacy of community residents and In‐Service Education and Training (INSET) for teachers (le Roux and Ferreira 2005 ).

Environmental Philosophy

Environmental philosophy explores the relationship between natural environmental values, human dignity, animal welfare, and the interactions between humans and nature. Environmental philosophy includes environmental ethics, land morality, and the meaning of sustainable development. Environmental philosophy studies the earth’s ethics of earth resources, human depletion, environmental protection, and philosophical practice toward project planning, design, and evaluation (Fig. 3.7 ).

The research directions of EE could be embedded in the environmental philosophy associated with project planning, design, and evaluation (Illustrated by Wei-Ta Fang)

Environmental Interpretation

Environmental interpretation is suitable for non-formal EE. Through the strategy of environmental outdoor fields and to explain the planning and implementation of outdoor ecological basics, ecotourism, ecological guides, and outdoor education methods are used to communicate knowledge and strengthen the human and natural environment. Therefore, an interactive opportunity can inspire learners to improve their knowledge, attitude, and activity skills of environmental ecology.

Environmental Communication

Environmental communication is an activity that transmits environmental knowledge, methods, and thoughts through communication media, and cultivates environmental literacy for all. Environmental communication conveys the status and problems of environmental events and the creative process of multimedia forms such as text, sound, images, animations, and videos, that results in a tangible explanation of environmental protection. Environmental communication explores the symbols, discourses, and contextual relationships of environmental issues. The dissemination of environmental information through books, videos, media, and social networking platforms has aroused readers’ interest in environmental knowledge. Furthermore, Artificial Intelligence (AI) and digital technology will be a new topic for revolutionary transformation for EE research in science (Yeh et al. 2021 ; Stagg et al. 2022 ).

3 Research on the History of Environmental Education

Historical studies of EE can be traced back to the emergence of the fields of formal education and educational research (Gough 2012 ). If we study the history of EE, we can then use curriculum history or genealogy.

Generally speaking, the historical research of EE is a type of research that must first look for objective knowledge in archives. Topics related to the subject can be found in the library, documentary library, and computer network searches. How to explore the context of archives through archival retrieval systems has become a key factor in thinking about archive/metadata research. In the archive, we understand that the reason why we need to involve in EE is because of the threat of global environmental change. International conferences have mobilized scientists to think about how to save the planet from the scourge of global change. Therefore, the history of EE illustrates our efforts to survive. From the historical trajectory, it we can observe the change of human collective behavior and use the “structuralist and “post-structuralist” approaches” research on using historical data.

The process of these meetings is long. In 1972, the United Nations Conference on the Human Environment advocated “the importance of education.” The meeting stated that “Education in environmental matters, for the younger generation as well as adults, giving due consideration to the underprivileged, is essential in order to broaden the basis for an enlightened opinion and responsible conduct by individuals, enterprises and communities in protecting and improving the environment in its full human dimension.” The Tbilisi Declaration in 1977 participants, discussed and formalized the field of EE (Knapp 1995 ). The Earth Summit in Rio de Janeiro, Brazil, in June 1992. The meeting participants provided education, public awareness, and training for the global action plan on Basic Principles tabled in Agenda 21. However, in the Conference on Environment and Development, EE was focused on promoting sustainable development and improving people’s ability to solve environmental and development problems. Later, EE was called “education for sustainable development.” In 2009 the Bonn Declaration was developed and describes education for sustainable development and prescribes formal, non-formal, informal, vocational, and teacher education actions.

In many countries, the development of EE and the education for sustainable development (ESD) are different. Some scholars believe that “EE” has been diluted by “sustainable development education.” Knapp ( 1995 : 9) concluded that a name change was not in the best interests of EE. But overall, because EE has expanded into the economic and social fields, EE has been able to deepen its promotion effect in the world. European scholars of EE have incorporated EE research into their ESD programs. If we make inferences with the above-mentioned historical analysis methods, we can then understand that the budding and robustness of EE originated in the 1960s.

3.1 The Rise of Environmental Education

The field of EE originated in the 1960s. As the global environment deteriorated, it threatened human development. In the 1960s, scientists increasingly paid attention to the increasing scientific and ecological problems of the environment, and the public's need to understand these problems. These problems include the growing pollution of land, air, and water. In addition, the world’s population is growing, and natural resources are continuously depleting. As explained by the Declaration of the United Nations Conference on the Human Environment, or Stockholm Declaration in 1972:

We see around us growing evidence of man-made harm in many regions of the earth: dangerous levels of pollution in water, air, earth, and living beings; major and undesirable disturbances to the ecological balance of the biosphere; destruction and depletion of irreplaceable resources; and gross deficiencies, harmful to the physical, mental and social health of man, in the man-made environment, particularly in the living and working environment.

If education comes first in environmental improvement, educational research can stimulate effective ways of thinking and discussing human beings facing environmental problems (Carson 1962 ). American scholars Rachel Carson (1907–1964), Garrett J. Hardin (1915–2003), and Paul R. Ehrlich (1932–) yelled loudly, hoping to include education in the environmental agenda. However, EE is not just a social issue, but an educational issue. In addition, the relationship between science education and EE is implicit. In view of the seriousness of environmental problems, scholars in the 1970s hoped to solve environmental problems with science and technology. But a few scientists believe that science and technology alone are not enough. Therefore, through environmental chemistry, ecology, geology, geography, conservation biology, resource technology, and environmental engineering, the problems of environmental hazards that have been disturbed, could not be solved. Human ecologist Stephen Boyden said in 1970 (Boyden 1970 : 18):

The suggestion that all our problems will be solved through further scientific research is not only foolish, in fact dangerous. The environmental changes of our time have arisen out of the tremendous intensification of the interactions between cultural and natural processes. They can neither be considered left to the natural scientists nor as problems to be left to those concerned professionally with the phenomena of culture. All sectors of the community have a role to play, certain key groups have, at the present time, a special responsibility.

3.2 The Construction of Environmental Education

Since the 1970s, school education in western countries have incorporated ecological and environmental content into integrated teaching and incorporated it into the education curricula of schools at all levels. The Intergovernmental Biosphere Conferences in 1968 and 1970 both recommended EE should be incorporated into school curricula. Stapp ( 1969 : 31) emphasized the relationship of the environment using four goals EE (Stapp et al. 1969: 31):

It is recognized that the human system is composed of human, cultural and ecological environments (Boyden 1970 : 18). The biophysical environment is an integral part of the system, and humans can change the interrelationships of this system;

A broad understanding of natural and man-made biophysical environments and their role in contemporary society;

Basic understanding of the ecological and environmental problems facing human beings, how to solve them, and the responsibility of citizens and governments to work hard to solve problems; and

Attitudes about the quality of the biophysical environment, which will encourage citizens to participate in the solution of ecological and environmental problems.

According to Stapp and his colleagues, this method of education is different from conservation education (Boyden 1970 : 18). Conservation education focuses primarily on natural resources, not on the community and its related issues. Therefore, EE is not only concerned with the natural environment, but also with the working environment, as well as human well-being (Stapp et al. 1969: 30). In 1970, Stapp was invited to participate in the Australian Academy of Science Conference and proposed a curriculum in Australia. He emphasizes curriculum development procedures and administrative strategies rather than professional philosophical analysis. The experimental direction of Stapp led the practical development of EE.

The definition and goals of EE form the basis of some other concepts in the field. For example, in September 1970, the First International Working Meeting on EE in the School Curriculum, accepted the definition of EE as follows (UNESCO 1970 ):

Environmental education is the process of recognizing values and clarifying concepts, in order to develop skills and attitudes necessary to understand and appreciate the interrelations among man, his attitude and his bio-physical surroundings. Environmental education also entails practice in decision making and self-formation of a code of behavior about issues concerning environmental quality.

3.3 Ideology of the Declaration on Environmental Education

Environmental science education, usually in the form of ecological concepts, are incorporated into school curricula. However, true EE and learning have not been regarded as a priority for education, because in the West, EE is valued by scientists, environmentalists, and scholars, but not by governments.

In addition, the drafters of the EE declaration are all men. Although EE is based on novel ideas no attention was paid to gender equality. For example, 1975 was the International Women’s Year and the United Nations issued non-sexist writing guidelines, hoping to use as much gender equality as possible in international declarations. For example, try to replace sex identification in the declaration with neutral words/descriptors. These instructions were followed writing the 1975 Belgrade Charter, but the 1977 Tbilisi Declaration didn’t, which would make this document discriminatory on the basis of gender identification. Although some women consider human male activities to be a major factor in environmental degradation, it is important that all human beings be regulated by EE statements.

3.4 The Practical Power of Environmental Education

In the historical demonstration of EE, the practical power of EE needs to be evidence-based practice through empirical research. In science education, empirical research requires an experimental group and a control group to conduct evidence inference by employing intervention. However, EE is not education of knowledge, but education of practice. In other words, practical education requires behavioral changes, but this behavioral change comes from a sincere change in the heart, not a short-term plan that can be manipulated in a classroom-based laboratory. Therefore, the experimental limits of EE have received considerable criticism for its research results (Blumstein and Saylan 2007 ). In recent years, EE research has been mainly discussed in terms of “positivism,” “post-positivism,” “structuralism,” or “hermeneutics” and “critical theory.”

The Frankfurt school Jürgen Habermas (1929–) has criticized the issue of instrumental rationality. His claim on epistemology holds that human knowledge can be divided into three types (Habermas 1971 ):

Scientific research of experience-analysis: including the cognitive interest of technology;

The scientific research of history-hermeneutics: including the cognitive interest of practice; and

Critically oriented research: contains the cognitive purpose of liberation.

It could be argued that students who advocate the supremacy of techno-science, don’t care about the environment. Therefore, if EE is an instrumental research utilization, which then means that through manipulation and intervention, one can change the way one thinks, which is empirical; but changing one’s way of thinking does not necessarily change one's practices. Therefore, we need to adopt conceptual research, which is based on Habermas’ “hermeneutics” and “critical theory.” Conceptual research requires the power of social practice, and its purpose is to confirm the relationship between practice in a social context. In social practices, researchers emphasize the promise of change. There are two forms of this kind of commitment: one is activity, and the other is inquiry. In other words, social practice is usually applied in the context of human development and involves knowledge production and theoretical analysis. This knowledge is the knowledge generated after practice. Therefore, how to use research from the physical world to make sense requires research procedures. In other words, we need research as a persuasive tool, which requires time and money. Our research on how to continue to grow over time requires long-term observations, hypotheses of behavioral intent, and a correct measure of how others respond. In social practice, environmental literacy is regarded as a key factor in human growth (see Chap. 4 ). The practical factors occur that produce environmental literacy with the material, meaning, and procedures of the human world. The aforementioned research must confirm that ontology/epistemology/methodology have different assumptions, and the constructed worldview is also different.

3.5 Reflection on Environmental Education

If we say, the practical power of EE is action research. Action research is a type of self-criticism under collective action (Fig. 3.8 ). The purpose of understanding how practitioners deal with matters in a social context is to improve the public interest of the entire population, generate social justice, and understand the meaning of practice (Kemmis and McTaggart 1982 ). Kemmis and McTaggart ( 1982 ) adopted a self-reflective circle that can be divided into four elements: plan, action, observation, and reflection, and the extension of the plan will continue to be revised by plan, action, observation, and reflection (Fig. 3.8 ). A detailed research guide and experimental design reference manual were designed based on the concept of the course of the circle of action research (Kemmis and McTaggart 1982 ). His plans, actions, observations, and reflections, through revising and improving the plan, produce a circle of re-action, forming the characteristics of the EE field to promote EE.

Elements of research guidelines and experimental design (Illustrated by Wei-Ta Fang)

Box 3.1 Examples of Environmental Action Research in Taiwan in the 1990s

A self-reflective circle, which is divided the plan, action, observation, and reflection elements. This model is effectively a continuous improvement model where improvements/changes to the research and experimental design are made each time one moves around the circle. Therefore, according to the plan of the Environmental Protection Administration of the Executive Yuan (Taiwan EPA), how to promote campus ecological protection and community environmental protection, we cite the following case of the “National Little Environmental Planner” from Taiwan EPA.

Planning Basis

First, to promote EE in schools and strengthen environmental protection education, the Environmental Protection Administration of the Executive Yuan (Taiwan EPA) began to hold a National Conference on Children’s Environmental Protection in 1990, which was expanded in 1991 and renamed the National Conference of “Little Environmental Protection Administrator.” From 1991 to 1997, a total of 4500 national elementary school students participated in the conference. Therefore, how to pay attention to environmental issues through the activities of the Little Administrator of Environmental Protection. How to protect the environment when problems occur in the campus environment or when problems are encountered during the implementation of EE. For example: “How to deal with the fact that the ponds on the campus are seriously eutrophicated and become a breeding ground for mosquitoes?”.

Reference Methods

From European and American countries : Environmental planning methods, planning theory, citizen participation, case studies, roundtable discussions, computer-aided mapping, report presentations, The Global Learning and Observations to Benefit the Environment Program (GLOBE).

Japan : Town making plan, drawing of the environment map of amenity, outdoor visits, etc.

Taiwan , Republic of China ( Taiwan , ROC) : Local teaching materials and teaching methods, off-school teaching, national science exhibitions, etc.

Research Strategy

Think about the idea and solutions first. This project can be carried out from outside or inside the school. If it is outside the school, then start from the neighborhood, conduct environmental surveys, draw environmental maps, discuss urban and rural issues, and publish the research findings. When encountering environmental problems on campus, first perform the tasks and use scientific methods to collect information related to the issue, including expert interviews and detailed investigation. First, we can organize tasks and use scientific methods to collect information related to the issue, including expert interviews, data query, site surveys, questionnaires, etc. After the data are collected, we conduct preliminary consolidation (triage) and then use various democratic procedures, such as: conduct debates, discussions, and decisions to determine the best issue resolution method to use as a yardstick for follow-up action or provide it to administrative units for reference.

Take-Action

Take-action based on the above-mentioned solution strategy, that is, “how do we manage to solve it by hand?” Therefore, under the promotion of the plan of the Little Environmental Planners nationwide in 1997, through the guidance of schools’ teachers and the guidance of college student associations, the mothers and all residents of the community were affected and promoted (Fig. 3.9 ).

Assembly photos. Take-action based on the solution strategy for natural conservation, that is, “how do we manage to solve all environmental issues by hand?” (Photo by Wei-Ta Fang)

Reflective Thinking

Through “evaluation,” the actual implementation results of the strategy are resolved, and the results are reflected on reflection. At the beginning of the promotion of the plan, in 1997, this project was praised as an “unprecedented national EE plan.” Neighborhood neighborhoods started with a lot of interest, because planning in the United States started with towns and cities and communities.

Government Action

In order to evaluate the performance of Little Environmental Protection Administrators of counties and cities in promoting environmental protection, the Taiwan EPA selected the first (the year of 1996) National Little Environmental Protection Administrators and arranged to meet with President Li Teng-Hui (1923–2020), Republic of China (Taiwan) at the Presidential Office and Record a TV show. In 1997, he promoted the “Little Environmental Planner” activity, using the four elements of planning, action, observation, and reflection. In response to the actual needs of social environment changes and EE, the “National Conference of Little Environmental Protection Administrators” organized by the Taiwan EPA. “The Little Environmental Protection Administrators Meeting” organized by the states focused on actually promoting environmental protection work as an educational focus, in line with the concept of “general transformation of the living environment, and discussed the format of holding. According to the Taiwan EPA and the Ministry of Education (MOE) compiling the “National Records of Excellent Little Environmental Protection Administrators,” and “Environmental Protection Seeds” in 1998, it is good to look for local environmental issues and uses various scientific methods to collect relevant information. After collecting the data, draw an environmental map, write a small paper, and promote local environmental improvement, including river research, coastal protection research, campus noise decibel research. There are 79 environmental planner reports regarding to “The Little Environmental Protection Administrators Meeting” on environmental studies of the elementary school with fruitful results.

After more than 30 years of education reform, the MOE has promoted twelve years of national education, and has made quality-oriented education a priority in EE. It is believed that the cooperation between school education and community development promotes the planned Curriculum Guidelines of 12-Year Basic Education of the Ministry of Education in Taiwan, Republic of China (ROC). Community cooperation perspective. EE has undergone a generation of educational reforms, from the promotion of neighborhood education to the integration of cross-regional cultures, forming a new situation. Environmental education from parents, through the struggle of science and practice, has produced the next generation of EE from infusion education to transformation education. That is:

The Sustainable Future Equation:

4 Quantitative Research on Environmental Education

Quantitative research on EE is mainly based on “positivism.” In the research, we attach importance to collecting evidence, conducting data analysis, using validity and reliability to strengthen the reliability of data, and using variable operations to control variables. Perform statistical analysis to describe the phenomena such as personnel, features, etc. to be discussed.

4.1 Preparation and Measurement of Questionnaires and Tests

The differences between the scale and the questionnaire and the compilation structure include the theoretical basis for the scale. The questionnaire is only required to meet the theme. Therefore, the compilation of the scale is based on the theory proposed by scholars to determine its content. The researcher compiles the questionnaire according to the following three steps: determining the subject, collecting information, and compiling the question. Once this information is collected the questionnaire can be developed.

To strengthen the validity of the questionnaire/scale, it is recommended to ask three EE scholars and experts to review the questionnaire, provide feedback, and discuss whether the questionnaire/scale topics need to be revised. The most common form of attitude measurement is the Likert five-point scale.

4.2 The Experimental Research Methods of Environmental Education

The experimental approaches can be repeated. Different experimenters can get the same results if the premises/assumptions are the same and the operation steps are the same. Experiments are usually published in the form of experimental reports. Due to the need for funding for the experiment, under the consideration of reducing the probability of experimental failure and reducing the cost of the experiment, the quantitative experiment should divide the experimental object into small phenomena; also, because the reality cannot be recognized by the experimenter, it needs to be cut into experiments one by one to analyze. Quantitative experimental research includes scientific experiments on EE, the methods of which are described below:

4.2.1 Observation and Formation of the Topic

After thinking about the EE topic of interest, researchers conduct research on the topic. The subject should not be selected randomly, but should be based on topics of interest. After selecting, you need to read many documents to fully understand what all the documents in this field include, in order to reduce information gaps. Therefore, the topic should be selected carefully, and the knowledge of that topic needs be connected.

Forming of Hypothesis : Specify hypothetical relationships between two or more variables, test them, and make predictions;

Conceptual Definition : Describe the concept and generates correlation with other concepts;

Operational Definition : Define the parameter variables and how to measure and evaluate parameters in research;

Gathering of Data : Include determining the size of the parent space, where the parent parameter is a statistical measurement and is unknown. The sample space is selected for parameter sampling distribution, and specific research instruments are used to gather information from these samples. Instruments used for information and data collection must be safe and reliable;

Analysis of Data : Analyze the data and interpret the results to summarize the conclusions;

Data Interpretation : Use tables, graphics, or photos to represent, and then describe in words; and

Testing and Revising of Hypothesis : Make conclusions and repeat operations if necessary (i.e., conclusion, reiteration if necessary).

As mentioned previously, empirical research in “science education” requires the establishment of an experimental group and a control group to conduct evidence inference utilizing intervention. However, “EE” is not a knowledge-based education, but a practical education. That is to say, it is difficult for EE to conduct psychological experiments in a classroom-type laboratory through short-term plans to get the answers we want. Therefore, the “experimental results” of EE require careful examination of the “empirical results” and careful verification.

4.2.2 Quasi-experimental Research Method of Environmental Education

It is difficult for the social sciences to adopt an “experimental research” approach; therefore, most research is “quasi-experimental design.” When researchers are unable to use random sampling methods to assign research subjects in educational situations and strictly control experimental situations, the ideal experimental design is to use “quasi-experimental design.” For example, if EE researchers have compiled a new “environmental education textbook,” they need to know whether this textbook is better than the traditional “EE” textbook. Researchers were unable to randomly select subjects from National Primary Schools and randomly assign them to experimental and control groups. However, when approaching the school, the researcher must use the quasi-experimental research method when the original class is used as the experimental object.

Therefore, the principle of “quasi-experimental research” design is “design of forward and backward measurement of unequal groups.” The experimental and control groups are classified as follows:

Experimental Group : pre-test (measurement before the experiment), test (experimental teaching, or new teaching of experimental “EE textbooks”), post-test (measurement after the experiment), delay test (in the measurements were taken three months after the experiment).

Control Group : pre-test (measurement before the experiment), test (without experimental teaching, or traditional teaching of experimental “EE materials”), post-test (measurement after the experiment), delayed test (measured three months after the experiment).

Although the above quasi-experimental design cannot control all the factors that affect the internal validity of the experiment like the actual experimental design, it can control most of them, and can avoid the experimental situation of EE that is too artificial if missing. In education research, there are four most commonly used quasi-experimental designs: (1) Unequal control group design; (2) Equivalent time sample design; (3) Adversarial equilibrium design; and (4) Time series design.

4.3 Reliability and Validity Analysis

4.3.1 reliability.

The purpose of reliability analysis is mainly to analyze the consistency of test results. Reliability refers to the consistency or stability of the results obtained by the testing tools (questionnaires/scales), and an indicator that reflects the true degree of the tested features. There are four main methods for reliability analysis:

Retest Reliability Method : The retest reliability method uses the same questionnaire and repeats the test at a certain interval for the same group of participants to calculate the correlation coefficient between the two test results. Because the retest reliability method needs to be tested twice for the same sample, the questionnaire survey is easily affected by events, activities, and subjects, and the interval is also limited, there are also certain difficulties in implementation.

Replica Reliability Method : The replica reliability method allows the same group of participants to fill out two copies of the questionnaire at one time, and calculates the correlation coefficient between the two copies. The reliability of replicas hopes that the two replicas are completely the same in terms of content, format, difficulty, and direction of the corresponding items, in addition to the different expression methods. In actual surveys, the questionnaires meet this requirement, so this method a bit less.

Half-Reliability Method : The half-reliability method is to divide the survey item into two parts, calculate the correlation coefficient of the scores of the two parts, and then estimate the reliability of the entire scale. Half-reliability is used for reliability analysis of attitude and opinion questionnaires. When performing a half-reliability analysis, if the scale contains reverse items, the scores of the reverse items should be reversed first to ensure the consistency of the scoring direction of each item, and then all items should be odd numbers. Or even, divide it into two parts that are as equal as possible, calculate the correlation coefficient between them, and finally get the reliability coefficient of the entire scale.

Alpha Reliability Coefficient Method : Cronbach alpha reliability coefficient is the most used reliability coefficient at present. The alpha coefficient is the consistency between the scores of various items in the scale, which is an inherent consistency coefficient. This method is suitable for reliability analysis of EE attitudes, opinion questionnaires (or scales).

4.3.2 Content Validity

Content validity refers to the appropriateness of the content of the test subject to the sampling of the relevant content, that is, whether a certain measured value can represent all the partial content of an event. The higher the content validity measurement, the more able it is to measure the content of EE textbooks, and the more able it is to measure whether the teaching goals are consistent with the original plan. The content of content validity verification requires a detailed logical analysis of the content being tested, so it is also called logical validity.

4.3.3 Criterion-Related Validity

If we study the relationship between environmental attitudes and behaviors, the validity of the correlation criterion then is to test the relationship between the measurement score and the actual attitude and behavior. Because the validity of the criterion requires actual evidence, it is also called empirical validity.

4.3.4 Construct Validity

Construction validity refers to the degree to which measurement results, also known as construct validity, can be consistent with theoretical concepts. This kind of validity is mainly to measure the degree of construction of a certain theory of environmental psychology, also known as the conceptual validity of the theory.

4.3.5 Degree of Difficulty

The degree of difficulty of the questionnaire refers to the difficulty of the question. Generally speaking, the knowledge and ability test can explain the difficulty of the test, but for the test of EE motivation, attitude, and personality traits, the difficulty refers to the rate of whether to answer the question.

4.3.6 Discrimination

Discrimination refers to the test questions, mainly environmental knowledge questions, whether it can distinguish the level of participants' ability, adopt internal consistency, arrange the participants in order of the total score, and take the top 25% of the highest score as the high group. Take the last 25% of the lowest score as the low group, and then find the correct answer rate of each question in the high and low groups, expressed as PH and PL, and D = (PH − PL) as the item's discrimination index (item) discrimination index). The D value is between −1.00 and +1.00. The larger the D value, the greater the degree of discrimination; the smaller the D value, the smaller the degree of discrimination; the D value of 0, which means no discrimination.

4.4 Retrospective Research

Ex-post facto research uses ex-post facto research to find out possible relationships or effects. Comparing retrospective research methods with experimental research methods, these two research methods are both looking for the relationship between the self-variant term and the dependent variable term. However, the self-variables of the retrospective study must be determined in advance before collecting data to explore the relationship with the observed variables. An analysis is usually performed using statistical records, personal files, and mass media reports. Therefore, ex post facto research is also called explanatory observational studies, or causal-comparative research.

4.5 Relevance Research

Correlation research is defined as the relationship between two (or more) variables that collectively change values. Statistical correlation refers to the degree of relationship between two groups or populations, or co-occurrence and interaction between variables. In statistical methods, Pearson correlation technology can be used to calculate the strength and direction of the relationship between variables, and we use correlation coefficients. Positive correlation and negative causation, respectively, represent the situation that when a value increases, the value associated with it also increases or decreases.

4.6 Data Analysis, Interpretation and Application, Presentation of Research Results

In the research, we will formulate research hypotheses. Data analyses mainly applies statistical methods, calculation of the existing relationships between the data, and draws out statistical diagrams to explain the meaning of the data. The data analyses explain the most useful part of the data and through the presentation of the research results, the application of the research results are used to transform the value of the research results for EE promotion.

4.7 The Research Method of Delphi

Besides setting assumptions for quantification to converge, other objective methods can also be used to deal with the construction of environmental indicators, such as using the “Delphi expert research method, which is a structured decision support technology”. During the information collection process, independent subjective judgments of experts are used to construct relatively objective opinions and suggestions, so the composition validity of the experts is important. The “Delphi Research Method” investigates in a way that experts do not meet each other until the opinions converge (Clark et al. 2020 ).

5 Qualitative Research on Environmental Education

The qualitative research of EE can be applied in the field of environmental social sciences. Qualitative research is a process of inquiry and construction of multiple realities. There are many kinds of qualitative research methods, and so far, there are still new methods, which are constantly being researched and explored. Qualitative research tools are mainly used by researchers to make long-term observations of research objects through the research area. Qualitative research requires interviews to understand the patterns of daily life of the participating researchers, analyze their social and cultural environment, and the impact of these environments on their thinking and behavior.

Therefore, the main purpose of qualitative research on EE is to understand the personal experience of the research object, the construction of its meaning, and “interpretive understanding” of the overall context in a certain environment. Researchers interpret their life stories and meaning construction through their own experience. Also, researchers need to reflect on whether they have research biases due to data limitations. In the actual research process, the researcher is a patchwork of social reality. If something happens only at a certain time and space, such patchwork will bias the data and subsequent analyses and interpretations. Therefore, the qualitative research results have a large subjective component, which is only applicable to specific situations and conditions, and cannot be inferred to the scope of the study area and the sample. That is, qualitative research focuses on understanding social and environmental events in a particular social context, rather than inferring situations like that event. In EE research, qualitative research often uses interviews, observations, grounded theory, action research, ethnography, and content analysis.

Of course, the above methods are not independent; it means that interview methods, observation methods, and other methods are also used in grounded theoretical research. The methods of qualitative research are rich and diverse, and they affect each other and are inexhaustible.

5.1 Interview

Interviews in qualitative research are a process of dialogue, asking questions to interviewees, and leading out meaningful messages for research and questions raised. Interviewing is a type of research-oriented conversation. It is a research method in which the researcher collects first-hand information from the research through oral conversation. The interview method is usually performed by a trained researcher, who asks the interviewees a series of interactive answers. In phenomenological or ethnographic research, interviews are often used to reveal the meaning of the center of life from the perspective of the interviewee. Because social science research involves human thoughts and ideas, interviews have become a very common and useful research method in social science research associated with questions (please see energy literacy scales and conceptual logic maps) (Yeh et al. 2017 ). The following methods are commonly used in interview methods.

5.1.1 Non-structured Interview

No predetermined outline of the interview was proposed to remain as open and compliant as possible to the priorities of the interviewee. In the interviews, the researchers took a “let it go” approach.

5.1.2 Structured Interview

The purpose of this approach is to ensure that each interview presents the same questions in the same order. This allows the interview data to be easily and reliably compiled and compared between different interviewees or between different survey dates.

5.1.3 Semi-structured Interview

Different from structured interviews, there is a rigorous and standardized interview outline that does not allow respondents to easily shift the focus; semi-structured interviews are open. Although there are still preliminary interviews, new questions are allowed during the interview process and ideas.

5.1.4 Focus Groups Interview

This is a qualitative form of research that can be divided into environmental expert interview methods and focus group clinical interview methods. Focus group interviews are groups of people who are asked about their views, opinions, or attitudes about something or something. In focus group interviews, participants are free to talk to each other or ask questions. In the process, researchers record what the participants mentioned in the conversation. Also, researchers should carefully select focus group interview members to obtain a more effective response. Focus group interviews have many advantages that individual interviews do not have, so they can play a more special role in research. These include: (1) “Interviews are themselves the object of research; (2) Collective inquiry into research issues; and (3) Collectively constructing knowledge.

5.2 Observation

Observation can be either quantitative or qualitative. Observation is a method of collecting data by observing people, events, or in the natural environment and recording their characteristics. Observation is a process in which human sense organs perceive things (see Fig. 3.10 ), and it is also a process in which the human brain actively thinks about things (see Figs. 3.11 and 3.12 ). In qualitative research, observation depends not only on the perception of things, but also on the perspective of observation. Observation can be a straightforward method of qualitative research. Human beings are research tools, and first-hand exploration of the object being studied. The research question chosen by the observer, personal experience and assumptions, and the relationship with the observed things will all affect the implementation and results of the observation. Therefore, observation can be divided into:

Observation is a process in which human sense organs perceive things (Photo by Max Horng)

Observation is a process in which the human brain actively thinks about things, like a drawing activities (Drawing at constructed wetlands of grades 3–6 students from direct practice of experiential learning (Gonguan Campus, National Taiwan Normal University) (Photo by Yi-Te Chiang)

Observation is a process in which the human brain actively thinks about things, like a drawing activity (Rubbing practice of experiential learning (Gonguan Campus, National Taiwan Normal University) (Photo by Yi-Te Chiang)

5.2.1 Participatory Observation

The researcher becomes a participant in the culture or background being observed. Researchers need to be part of the context, organization, and cultural context that is being observed in order to make a successful observation. Researchers who want to use the participatory observation method must enter the field for observation at the beginning of the study, that is, with the consent of the observation subject. Researchers are the main tools for data collection and analysis. Therefore, the researcher must obtain the trust of the observed person and must maintain a friendly relationship with the observed person during the observation period. More importantly, researchers must be able to understand and reflect on the environment in which they are located in order to obtain a wealth of research data, so that the collected data can respond to research questions. Currently, visual participatory methods (VPMs) are one of the approaches to understand in EE research in regarding to conservation about diverse worldviews (Swanson and Ardoin 2021 ).

5.2.2 Direct Observation

Researchers must try to be unobtrusive so as not to bias the results of observations (see some observations approach from children’s studies, i.e., young children’s affective and cognitive growth (Ardoin and Bowers 2020 ); see Figs. 3.13 and 3.14 ). Making good use of technology is a good way, such as directly recording (Fig. 3.16 ), but with the consent of the interviewer (see Figs. 3.13 , 3.14 and 3.15 ).

An observation for grouped children for data collection is a good way on campus (Gonguan Campus, National Taiwan Normal University) (Photo by Yi-Te Chiang)

Making good use of observation aimed at parents and children for data collection is a good way learning in museum (Photo by Wei-Ta Fang)

Making good use of technology is a good way, such as directly recording by a smartphone (Photo by Wei-Ta Fang)

You may use direct/indirect approaches to observe the interactions between individuals to groups to detect soil hardness from soil compaction of the changes caused by human trampling in the soils and ground for a field (Scenic view in the surrounding areas of Lake Tahoe, CA, USA) (Photo by Wei-Ta Fang)

5.2.3 Indirect Observation

Observe the interactions between individuals, such as the results of processes, behaviors, carbon footprint, or soil compaction (Fig. 3.16 ). For example, observe the food waste left by students in the school cafeteria to determine whether they are eating a moderate amount of food.

5.3 Grounded Theory

Grounded theory is a systematic methodology in the social sciences that builds theory through methodical data collection and analysis (Martin and Turner 1986 ). Grounded theory can be described as a research method, or it can be interpreted as a type of qualitative research (Strauss 1987 ). Before the research began, researchers did not have theories or hypotheses, but directly summarized the concepts and propositions from the original data, and then rose to the point of theory.

Therefore, the grounded theory is the opposite of the hypothetic-deductive method. The grounded theory is studied inductively. At the beginning of research using grounded theory, there may be a problem of awareness in the mind of the researcher, or only the preliminary qualitative data collected. As researchers review the collected data, after rethinking the idea, the concept or element will gradually become clear, and the code will be used to classify these concepts or elements. However, these codes are extracted from qualitative data. As more data are collected and re-examined, coding can organize concepts first and then categorize them. Therefore, the grounded theory is very different from the traditional research model. The traditional research model selects the existing theoretical framework, and then only collects data to show whether the theory is applicable to the phenomenon under study (Allan 2003 ).

Grounded theory is to prevent the stagnation of a theory to generate a new theory. In order to show the observation of the research fields based on the root of theoretical innovation, it lays a sound scientific foundation for theoretical development. Therefore, this method of grounded theory can generate new theories and get hypotheses and concepts, categories, and propositions from the data. Concepts are the basic unit of data analysis in grounded theory; categories are a higher level than concepts and abstract than concepts and are the basis of development theory; propositions are categories and concepts, or categories between concepts and concepts, It can be said that it comes from basic hypotheses, except that propositions focus on the relationship between concepts, and hypotheses focus on the relationship between measurement data. Grounded theory consists of five phases:

Research Design Stage : include literature discussions, that is, selecting research samples;

Data Collection Stage : develop methods for data collection and enter the field;

Data Compilation Stage : arrange according to the sequence of events in the time and age;

Data Analysis Stage : use open coding to convert data into concepts, categories, and propositions, and to write data memos; and

Data Comparison Stage : compare the initially established theory with existing literature to find the same or different places, as the basis for revising the initial theory.

Constant change is a permanent feature of real social life. We need to explore the specific direction of change and the process of social interaction. Therefore, the grounded theory places special emphasis on generating theories from actions and constructing theories from the perspective of actors. The theory of grounded theory must come from the data and have a close relationship with the data. Grounded theory plays a very important role in the development of social science research theories. Theories at all levels are indispensable for a deep understanding of social phenomena (Glaser 1978 ).

5.4 Action Research

Action research can be research that solves the problem at hand or it can be a team member or cooperate with others to lead the community of practice and reflect on the problem-solving process as a way to improve, solve, or deal with problems (Stringer 2013 ). Action research is based on the theoretical basis of the practical community and jointly conducts research and participation, that is, “researchers are participants themselves and researchers.” The focus of action research is to explore the process of group problem solving and how to solve it, and to reflect on the process of problem solving. Action research is a spiral process of collecting data to establish goals and actions, and to intervene in problems to evaluate goals and understand the results. The purpose of action research strategies is to solve specific problems and develop guidelines for effective practice (Denscombe 2010 ).

Action research usually involves conducting active research and changing the situation through existing organizations. Action research can be conducted in large organizations or institutions, assisted, or directed by professional researchers, with the aim of improving strategies, practices, and knowledge in their environment. Research designers, stakeholders, and researchers collaborate with each other to propose new action plans to help their communities improve their work or practice content. Action research is an interactive investigative process that balances the resolution actions performed in a collaborative environment with data-driven collaborative analysis or research to understand the root causes that can lead to changes in individuals and organizations. For example, “action research” can be one teacher leading a class (the focus of action research is on students), or several teacher leaders leading an academic year, or the action research of several classmates (the teachers and students are also action research focus), or teachers can form an action research team (action research focuses on teachers). In terms of analysis, action research challenges traditional social science by creating reflective knowledge by transcending external sampling variables. In the process, you can actively conceptualize the theory according to step by step and collect data to understand the instantaneous changes that occur in the structure (Figs. 3.17 and 3.18 ). Therefore, action research is a process of continuously discovering problems, solving problems, and then discovering new problems, and continuously generating loops. The impact of “Environmental Education Action Research and Teaching” on students’ EE awareness is almost like traditional teaching methods; however, the environmental action curriculum has impacts on students’ environmental attitudes and behaviors through planning, action, review, reflection, and re-action, the effects are significant. Therefore, the increase of knowledge is a continuum of action after action, which needs to be taken as the starting point from this perspective. Therefore, we question the knowledge of the social sciences as to how to develop truly wise action; not just to develop reflection on action.

The environmental action curriculum has impacts on students’ environmental attitudes and behaviors through planning, action, review, reflection, and re-action (Prof. LePage and graduate students are looking for all-day events and a committed group focusing on urban wetland projects, thinking about checking out group study results at Daan Park, Taipei, Taiwan, 2021) (Photo by Wei-Ta Fang)

Class exercises and presentation at Daan Park, Taipei, Taiwan, 2021 (Photo by Ben LePage)

It is not enough for researchers to just communicate knowledge. In action research, the findings are implicit. We need to learn how to use action research findings to promote scientific consensus in different practice and conceptual contexts. Participatory action research is therefore a form of question-based investigation of the practice by practitioners, and therefore, it is an empirical process. The ultimate goal of action research is to create and share social science knowledge.

5.5 Ethnography

The generation of ethnographic knowledge basically depends on the comparison of two cultural experiences. Ethnographic methodology emphasizes that researchers must be “deliberate ignorance.” Process researchers in the field not only obtain research information through “question,” but also live in the present and use their own senses, including vision, taste, hearing, and touch. Wait for multiple senses as a channel for research data collection. At the same time, the researcher must always be introspective in the process of research, and must be fully aware of the influence of his cultural background and researcher's identity on the research. In addition, ethnography is used as the research method. The acquisition of data is produced by the interaction between the researcher and the researched person (see Fig. 3.19 ). The researcher must be able to discover the social meaning and cultural value implied by the event or action.

The acquisition of data is produced by the interaction between the researcher and the researched person, if you want to watch a child, be keeping a close to watch, and you may pay careful attention to a situation or a thing, so that you can deal with any physical/mind changes for a child in his/her living environment (Photo by Wei-Ta Fang)

In short, the ethnographic research method represents the researcher’s entry into the researcher’s daily life world, tries to understand the researcher’s world, reverses the passive role of the researcher, and allows the researcher's “local perspective” to be heard or seen. From the past to the present, ethnographic research has been continuously enriched. In the past, ethnography emphasized observing the interactions between people in the community. For example, in the case of ethnography, the analysis of important life experiences of environmental protests can be used as an example. For example, in Taiwan, the ethnographic analysis of the Binnan Industrial Zone, the Guanxi Industrial Zone, and the Green Oyster incident in the estuary of Keya Creek, Hsinchu City in the 1990s; the RCA incident, and the Mai Liao Industrial Zone in the 2000s, the Guoguang Petrochemical Park, and the demolition of the Dapu Industrial Zone in the 2010s on environmental events are all good subjects, which can deeply describe the field environment and the details of interaction between people. In addition, recent anthropological research has added nonhuman beings to the writing of fields, and developed multi-ethnic ethnography, emphasizing that the composition of society is not only human, but also the participation of many non-humans, such as cats and dogs, Insects, bacteria, machines, etc. (such as: Insectopedia, The Mushroom at the End of the World ), are the works of this multi-species ethnography (Raffles 2010 ; Tsing 2015 ).

5.6 Content Analysis

Content analysis is a method of studying documents, files, or correspondence. Research materials may include various formats, such as pictures, audio files, text files, text, or images. One of the great benefits of content analysis is that it is a non-intrusive way to naturally study social phenomena that depend on a particular time and place in a file. The implementation and concepts of content analysis will vary from discipline to discipline, but they all involve systematically reading or observing text content, and encoding on meaningful or interesting documents and archives. By systematically encoding a series of text content, researchers can use quantitative methods to analyze trends in big data content, or use qualitative methods to analyze text content.

6 Promotion of Environmental Education Theory

The EE department strengthens the development of human society by using practical technical knowledge, strengthening education, learning the environment, and continuously participating in and understanding activities to solve environmental problems. In this section we discuss the expansion and practice of EE theory, Darwinian scientific integration, and comparison of learning methods.

6.1 Theoretical Expansion and Practice

The theoretical improvement of EE is not so much a transfer of technology as a linear ‘top-down’ approach, but rather a participatory 'bottom-up' approach (Black 2000 ). In the process of education, the above-mentioned formal education and non-formal education are conducted through bilateral one-to-one advice or information exchange, and in accordance with formal education in EE, using organized education and training methods—formal and non-formal education activities (Fig. 3.20 ).

Environmental education is not so much a transfer of technology as a linear ‘top-down’ approach, but rather a participatory ‘bottom-up’ approaches (Illustrated by Wei-Ta Fang)

Therefore, we conclude that a single model of EE is not feasible. Although we have criticized the above-mentioned linear technology transfer model, we still need to rely on reliable scientific information and actively participate in the research and development process, from EE scholars and experts to front-line field teachers, through bilateral information exchange. On the student side, knowledge, attitudes, and behavioral models are enhanced through formal education and program training. In addition, new learning technologies will promote certain forms of education methods, training courses, and information exchange, and make up for the lack of application through promotion strategies.

6.2 Integration of Environmental Disciplines

We know that the discipline of EE crosses the traditional discipline boundaries, especially between the natural sciences and the social sciences. From the environmental sciences, the natural sciences, and the humanities, there is a tangled relationship, but we still need to be patient to go further integration. From the analysis, we can use Darwin's ecology to carry out the scientific integration of EE and the disciplines of ecology. Environmental thinkers generally think that the natural sciences and humanities are completely disconnected and there is little overlap between environmental sciences, natural sciences, and humanities, and even only limited to the methodologies of environmental and biomedical sciences, small overlap. However, today's subject areas are under the multiple social relationships that have come one after another. We observe emerging interdisciplinary areas, such as conservation biology, ecological economics, human behavioral ecology, and evolutionary psychology. We know that the clear barriers between natural sciences and social sciences are already being sold. Interdisciplinary scholars are helping to integrate the relationship between applied fields in the biological and human sciences. We need a new science, called human behavioral ecology or Darwin ecology, to complete this comprehensive doctrine.

6.3 Integration of Environmental Education Disciplines

The learning model of EE is mainly to borrow pedagogical methods to recognize and sense the environment and improve human behavior patterns. However, the cultivation of science education is based on brain science, life sciences, and cosmic sciences. It explains the nature and value of human learning science, and explores the ultimate thinking of philosophy, “What is human?” “Why am I here?” “What is the ultimate goal of the universe?”.

Three major questions; however, EE involves the development of human behavior, which connects a very down to earth attitude toward learning, beyond the philosophical exploration of nihilism, to the practical thinking of the world.

What is the relationship between “EE” and the improvement of human cognition, the cultivation of mentality, and the formation of attitudes? We use “environmental learning” to improve human values and a sense of responsibility for the environment. Can environmental learning really achieve results? Since the 1950s, educators have considered the above issues through learning theories; these issues need to be explored through educational psychology. We understand that there are three major learning theories in American academia that have a wide range of influences around the world. The views on the above points include the Bloom learning method, the Hungerford learning method, and the ABC Learning method of emotion theory (Fig. 3.21 ).

Comparison of the use of the Bloom-style learning method, the Hungerford-style learning method, and the learning of ABC emotion theory. 1(a): Bloom-style meta-learning; 1(b): Bloom-style learning (adapted from Bloom et al. 1956 ; Krathwohl et al. 1964 ). 2(a): Hungerford-style meta-learning; 2(b): Hungerford-style learning (adapted from Hungerford and Volk 1990 ). 3(a): ABC meta-learning; 3(b): ABC emotional learning (adapted from Ellis 1957 , 1962 ) (Illustrated and redrawn by Wei-Ta Fang)

6.3.1 The Bloom-Style Learning Method

Bloom divides education goals into the Cognitive, Affective, and Psychomotor Domains (Bloom et al. 1956 ; Krathwohl et al. 1964 ).

Cognitive Domain : Cognitive knowledge is aimed at knowledge, principles, applications, and problem-solving learning. The characteristics of cognition are the acquisition and application of knowledge;

Affective Domain : Affection mainly refers to the positive or negative palpitations of external stimuli, such as emotional reactions such as hobbies and dislikes, which in turn affect the intentions adopted on maggots; and

Psychomotor Domain : Action skills are a kind of energy generated by learning. The generated on this basis is the result of performance, and it is the precise expression of body movements. Therefore, after the teaching goals allow learners to learn through knowledge or skills, they should have the response they deserve.

6.3.2 The Hungerford-Style Learning Method

Hungerford divides EE goals into knowledge, attitude, and behavior areas (Hungerford and Volk 1990 ). He attaches great importance to EE curriculum planning and believes that “knowledge” affects “attitude” and “attitude” affects “behavior” theory. In other words, he believes that EE can ultimately affect human environmentally friendly behaviors and improve human-environmental literacy. Therefore, when human beings have knowledge, attitude, and skills, they can participate in solving environmental problems.

Knowledge : Knowledge can help us to establish the relationship between the object and the environment for the relevant information of the object we want to understand. This relationship needs to understand things through a cognitive schema;

Attitude : Attitude is a person’s psychological and neurological readiness, which refers to the judgment status of an individual on an object. This is an opinion organized through experience. When an individual’s attitude affects, behavioral will intent through thoughtful decision-making processes and then through psychological responses; and

Behavior : Human behavior refers to the spontaneous or passive behavior of human beings in the adaptation to a constantly changing and complex environment, or the interaction between the environment and other organisms or inorganic bodies physical response.

6.4 Learning Method of ABC Emotion Theory

The ABC Theory of Emotion was created by Ellis. A equates to an activating event; B is beliefs; and C triggers emotional and behavioral consequences (Ellis 1957 , 1962 ).

A = Activating Event (Induced Event) : the indirect cause of C is the inducing event A (activating event), and the direct cause of C is the individual's belief and evaluation of event A;

B = Belief : Human emotions and behaviors (C) are not directly determined by life events (A), but by the cognitive processing and evaluation methods of these events. In other words, because the individual through this event incorrectly recognizes it, the error (B) is directly caused; and

C = Triggers Emotional and Behavioral Consequences : Human negative emotional and behavioral disorder results (C) are not directly caused by an evoked event (A).

Activating events, beliefs, emotions, and behavioral results (consequences) are accompanied by people’s thoughts, and emotional or psychological distress is caused by irrational and illogical thoughts. The basic idea behind the ABC emotion theory model is that activating events (A) will not cause the consequences of emotions (C); but beliefs (B), especially false beliefs, are also called the consequences of bad emotions (C) caused by irrational beliefs. Initially, Ellis considered his theory to be incompatible with religion, or at least incompatible with absolute religion, although he had accepted that certain types of religion were compatible with his theory (Ellis 2000 ). Specifically, according to Ellis, belief in loving God can lead to positive mental health outcomes; while belief in angry God can lead to negative mental health outcomes. The evolution of thought is especially true concerning religion.

If we take the tendency of human beings to have biology and sociology, human beings are then caught between rational reasoning of limited reason and irrationality. Under the emotions of fear and panic, human beings will produce unreasonable thought patterns. That is to say, in addition to understanding the impact of the ABC emotional theory model on the Hungerford model’s “knowledge” and its impact on “attitude,” the “attitude” affects the impact of the “behavior” theory. Looking at the behavioral model of meta, it seems that the “absolute cognition” of all things in the ternary model should be more transcendent. It is suggested that environmental educators should look at things objectively and have a more general and mature view of human environmental behavior (Ellis 2000 ; Hug 1977 ).

Therefore, we evaluate human environmental behavior, integrate the process of cognitive functions, learn to represent the intermediary role of the human intelligent system, perceive the “metacognition,” understand the formation process of environmental protection significance and guide it. We have adapted three models of “meta-learning modes.”

From the “metacognitive” learning model, we understand the individual’s own cognitive process and can perform self-mastery, monitoring, evaluation, domination, etc. to comply with self-willed management, and at the same time, self-adjust to the goal to achieve control of unreasonable thoughts. In other words, EE has grown through mental growth and produced a mature mind. Through emotional growth, it has refined mature personal traits and a model of “responsible environmental behavior” and made “friendly earth” contributions and sublimation of ideas. Therefore, this chapter hopes that the study of EE can make theoretical corrections and adjustments to the EE in the process of forming the research significance, to achieve the real purpose of solving human-environmental problems.

From the Nevada Declaration, we learned that EE is to recognize values, clarify ideas, develop skills and attitudes, understand, appreciate, and thank individuals for their interaction with culture and the environment. And we learned how to enter the field to practice, in order to be aware of how good environmental attitudes, skills, care, decision making, and codes of conduct are generated. Therefore, EE research is a discussion of research methods that focus on attitudes, skills, care, decision-making, and behavior standards. We can discuss from three levels, including methodologies, research methods, or research methods, and discuss specific environmental improvement technologies and educational techniques. Therefore, the ways in which EE research questions are formed include understanding how to think and learn about the environment's awareness, and the ability of metacognition to cultivate environmental sensitivity so as to realize higher-level thinking ability. Therefore, for the development of research, we need to successfully judge whether our cognitive process has increased in order to judge whether the ability to change behavior is strengthened. Furthermore, the relationship between the researcher and the subject matter is very important. We care about the good and bad of the research results and have a good grasp of the nature of the research. In addition, through the interaction between the researcher and the research subject, we conduct in-depth and meticulous experiences, and then explain and clarify the literature, resolve the disputes in the literature, and stimulate thinking and initiate change, a new challenge that EE researchers and practitioners alike need to recognize.

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Fang, WT., Hassan, A., LePage, B.A. (2023). Research Methods for Environmental Education. In: The Living Environmental Education. Sustainable Development Goals Series. Springer, Singapore. https://doi.org/10.1007/978-981-19-4234-1_3

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Home > CNS > ECO > Environmental Conservation Masters Theses Collection

Environmental Conservation Masters Theses Collection

Theses from 2024 2024.

Effects of Habitat, Density, and Climate on Moose and Winter Tick Ecology in the northeastern U.S. , Juliana Berube, Environmental Conservation

Adaptive Silviculture for Wildlife: Supporting Forest Biodiversity Through Climate Adaptation , Jahiya Clark, Environmental Conservation

Comparing Likelihood of Tree Failure Assessments Using Different Assessment Techniques , Ari Okun, Environmental Conservation

Use of Unoccupied Aerial Vehicle (Drones) Based Remote Sensing to Model Platform Topography and Identify Human-made Earthen Barriers in Salt Marshes , Joshua J. Ward, Environmental Conservation

Theses from 2023 2023

Modeling the Effects of Forest Management Practices on Ecohydrologic Processes in the Antalya River Watershed of Turkey , Hilal Arslan, Environmental Conservation

HYDRO-SOCIAL TERRITORIES AND OIL PALM PLANTATIONS: INDIGENOUS PEOPLE, AGRIBUSINESS, AND SAFE WATER ACCESS UNDER POWER RELATIONS IN KAIS, WEST PAPUA, INDONESIA , Briantama Asmara, Environmental Conservation

Evaluation of Acoustic Telemetry Array Performance and Fine- Scale and Broad-Scale Spatial Movement Patterns for Coral Reef Species in Culebra, Puerto Rico , Roxann Cormier, Environmental Conservation

Improving Energy Efficiency of School Buildings with Solar-Assisted Cooling for the Maldives , Ahmed Fathhee, Environmental Conservation

Pine Barrens Wildlife Management: Exploring the Impact of a Stressor and Active Management on Two Taxa at Camp Edwards , Andrew B. Gordon Jr, Environmental Conservation

Factors Affecting the Distribution of Malayan Sun Bear in Htamanthi Wildlife Sanctuary, Northern Myanmar , Min Hein Htike, Environmental Conservation

A Multi-Regional Assessment of Eastern Whip-poor-will (Antrostomus vociferus) Occupancy in Managed and Unmanaged Forests Using Autonomous Recording Units , Jeffery T. Larkin, Environmental Conservation

Climate Change Attitudes of United States Family Forest Owners and their Influence on Forest Management Practices , Logan Miller, Environmental Conservation

The Relative Effects of Functional Diversity and Structural Complexity on Carbon Dynamics in Late-Successional, Northeastern Mixed Hardwood Forests , Samantha Myers, Environmental Conservation

Factors influencing the occurrence and spread of aquatic invasive species in watershed systems , Hazel M. Ortiz, Environmental Conservation

PARTICIPATORY WETLAND GOVERNANCE IN RAMSAR – ASSESSING LEVEL OF PARTICIPATION IN INDIA , Seema Ravandale, Environmental Conservation

A REVIEW AND ANALYSIS OF THE LINKED DECISIONS IN THE CONFISCATION OF ILLEGALLY TRADED TURTLES , Desiree Smith, Environmental Conservation

Effect of Alliaria petiolata management on post-eradication seed bank dynamics , Chloe Thompson, Environmental Conservation

Bog Turtle (Glyptemys muhlenbergii) Population Dynamics and Response to Habitat Management in Massachusetts , Julia Vineyard, Environmental Conservation

Theses from 2022 2022

Assessment of the Economic and Ecosystem Service Contributions of USDA Forest Service Landowner Assistance Programs in the Conterminous United States , Jacqueline S. Dias, Environmental Conservation

Exploring Urban Forestry Non-Governmental Organizations in the Temperate Forest Region of the United States , Alexander J. Elton, Environmental Conservation

Songbird-mediated Insect Pest Control in Low Intensity New England Agriculture , Samuel J. Mayne, Environmental Conservation

Perception and Value Assessment of Ecosystem Services in Rural and Urban Regions in Ecuador , Roberto S. Navarrete Arias, Environmental Conservation

Identifying New Invasives In The Face Of Climate Change: A Focus On Sleeper Populations , Ayodelé C. O'Uhuru, Environmental Conservation

A Tipping Point in the Ecuadorian Amazon Rainforest: Current and Future Land-Use and Climate Change Trends , Alula Shields, Environmental Conservation

Dynamics of Water Supply and Demand in the Bandama River Watershed of Cote d'Ivoire , Sarah Alima Traore, Environmental Conservation

Theses from 2021 2021

Applying Ecological Theory to Amphibian Populations to Determine if Wood Frogs (Lithobates sylvaticus) are Ideal and Free when Selecting Breeding Habitat , Taylor M. Braunagel, Environmental Conservation

Assessing the Impacts to Society Associated with the Use of Alternative Ammunition for Hunting on National Wildlife Refuges , Christopher Cahill, Environmental Conservation

Evaluation of Environmental Factors Influencing American Marten Distribution and Density in New Hampshire , Donovan Drummey, Environmental Conservation

Can Volunteers Learn to Prune Trees? , Ryan W. Fawcett, Environmental Conservation

The Efficacy of Habitat Conservation Assistance Programs for Family Forest Owners in Vermont , Margaret E. Harrington, Environmental Conservation

The Role of Vegetative Cover in Enhancing Resilience to Climate Change and Improving Public Health , Anastasia D. Ivanova, Environmental Conservation

Assessing the Structure and Function of Utility Forests in Massachusetts , Ryan Suttle, Environmental Conservation

Factors Influencing Stopover and Movement of Migratory Songbirds within the Silvio O. Conte National Fish and Wildlife Refuge , Jessica Tatten, Environmental Conservation

Patterns and mechanisms of intraspecific trait variation across thermal gradients in a marine gastropod , Andrew R. Villeneuve, Environmental Conservation

Theses from 2020 2020

Habitat Associations of Priority Bird Species and Conservation Value on Small, Diversified Farms in New England , Isabel Brofsky, Environmental Conservation

Autonomous Recording Units as an Alternative Method for Monitoring Songbirds , Lindsay Clough, Environmental Conservation

Impact of Predators on Hemlock Woolly Adelgid (Hemiptera: Adelgidae) in the Eastern and Western United States , Ryan Crandall, Environmental Conservation

New England’s Underutilized Seafood Species: Defining And Exploring Marketplace Potential In A Changing Climate , Amanda Davis, Environmental Conservation

Improving Growth and Survival of Cultured Yellow Lampmussel (Lampsilis cariosa) for Restoring Populations , Virginia Martell, Environmental Conservation

From Intentional Awareness to Environmental Action: The Relationship Between Mindfulness and Pro-Environmental Behaviors , Nischal Neupane, Environmental Conservation

The Ecological Value of Spruce Plantations in Massachusetts , Calvin Ritter, Environmental Conservation

In-vitro Propagation and Fish Assessments to Inform Restoration of Dwarf Wedgemussel (Alasmidonta Heterodon) , Jennifer Ryan, Environmental Conservation

Theses from 2019 2019

Hydrologic Structure and Function of Vernal Pools in South Deerfield, Massachusetts , Charlotte Axthelm, Environmental Conservation

Ecological and Economic Implications of Establishing Quercus spp. in the Urban Environment , Tierney Bocsi, Environmental Conservation

Garlic Mustard (Alliaria petiolata) Management Effectiveness and Plant Community Response , Erin Coates-Connor, Environmental Conservation

Defining and Addressing Interconnected Goals in Groundwater Management Planning Across the USA , Allison Gage, Environmental Conservation

Root-Driven Weathering Impacts on Mineral-Organic Associations Over Pedogenic Time Scales , Mariela Garcia Arredondo, Environmental Conservation

Using Visual Media to Empower Citizen Scientists: A Case Study of the Outsmart App , Megan E. Kierstead, Environmental Conservation

Urban Biodiversity Experience and Exposure: Intervention and Inequality at the Local and Global Scale , Evan Kuras, Environmental Conservation

Arboriculture Safety Around The World , Jamie Lim, Environmental Conservation

Ecological Considerations and Application of Urban Tree Selection in Massachusetts , Ashley McElhinney, Environmental Conservation

The Women's Action: Participation through Resistance , Michael Roberts, Environmental Conservation

Eastern Whip-poor-will Habitat Associations in Fort Drum, NY , Kimberly Spiller, Environmental Conservation

The Role of International River Basin Organizations in Facilitating Science Use in Policy , Kelsey Wentling, Environmental Conservation

An Examination of Tern Diet in a Changing Gulf of Maine , Keenan Yakola, Environmental Conservation

Theses from 2018 2018

Mapping Sandbars in the Connecticut River Watershed through Aerial Images for Floodplain Conservation , Bogumila Backiel, Environmental Conservation

You Must Estimate Before You Indicate: Design and Model-Based Methods for Evaluating Utility of a Candidate Forest Indicator Species , Jillian Fleming, Environmental Conservation

Performance of Floristic Quality Assessment in Massachusetts Forested Wetlands , Carolyn Gorss, Environmental Conservation

The Impact of Intraspecific Density on Garlic Mustard Sinigrin Concentration , Mercedes Harris, Environmental Conservation

Plants, Parasites, and Pollinators: The Effects of Medicinal Pollens on a Common Gut Parasite in Bumble Bees , George LoCascio, Environmental Conservation

Human and Climate Change Influences on Black (Diceros bicornis) and White (Ceratotherium simum) Rhinos in Southern Africa , Hlelolwenkhosi S. Mamba, Environmental Conservation

Watershed-Scale Modeling for Water Resource Sustainability in the Tuul River Basin of Mongolia , Javzansuren Norvanchig, Environmental Conservation

Impacts of Small, Surface-Release Dams on Stream Temperature and Dissolved Oxygen in Massachusetts , Peter Zaidel, Environmental Conservation

Theses from 2017 2017

Accounting For Biotic Variability In Streams With Low Levels of Impervious Cover: The Role of Reach- and Watershed-Scale Factors , Catherine Bentsen, Environmental Conservation

Juvenile River Herring in Freshwater Lakes: Sampling Approaches for Evaluating Growth and Survival , Matthew T. Devine, Environmental Conservation

DIRECT AND INDIRECT EFFECTS OF CLIMATE ON BIRD ABUNDANCE ALONG ELEVATION GRADIENTS IN THE NORTHERN APPALACHIANS , Timothy Duclos, Environmental Conservation

EVALUATION OF THE RECREATIONAL CATCH-AND-RELEASE FISHERY FOR GOLDEN DORADO SALMINUS BRASILIENSIS IN SALTA, ARGENTINA: IMPLICATIONS FOR CONSERVATION AND MANAGEMENT , Tyler Gagne, Environmental Conservation

Botswana’s Elephant-Back Safari Industry – Stress-Response in Working African Elephants and Analysis of their Post-Release Movements , Tanya Lama, Environmental Conservation

Factors Influencing Shrubland Bird and Native Bee Communities in Forest Openings , H. Patrick Roberts, Environmental Conservation

A Mixed-methods Study on Female Landowner Estate Planning Objectives , rebekah zimmerer, Environmental Conservation

Theses from 2016 2016

Factors Influencing Household Outdoor Residential Water Use Decisions in Suburban Boston (USA) , Emily E. Argo, Environmental Conservation

Understory Plant Community Structure in Forests Invaded by Garlic Mustard (Alliaria petiolata) , Jason Aylward, Environmental Conservation

Factors Affecting Habitat Quality for Wintering Wood Thrushes in a Coffee Growing Region in Honduras , Brett A. Bailey, Environmental Conservation

Invasive Species Occurrence Frequency is not a Suitable Proxy for Abundance in the Northeast , Tyler J. Cross, Environmental Conservation

Population Genetic Analysis of Atlantic Horseshoe Crabs (Limulus polyphemus) in Coastal Massachusetts. , Katherine T. Johnson, Environmental Conservation

Modeling Historical and Future Range of Variability Scenarios in the Yuba River Watershed, Tahoe National Forest, California , Maritza Mallek, Environmental Conservation

The Life History Characteristics, Growth, and Mortality of Juvenile Alewife, Alosa pseudoharengus, in Coastal Massachusetts , Julianne Rosset, Environmental Conservation

Specific Phosphate Sorption Mechanisms of Unaltered and Altered Biochar , Kathryn D. Szerlag, Environmental Conservation

Trophic Relationships Among Caribou Calf Predators in Newfoundland , Chris Zieminski, Environmental Conservation

Theses from 2015 2015

Ant (Hymenoptera: Formicidae) Assemblages in Three New York Pine Barrens and the Impacts of Hiking Trails , Grace W. Barber, Environmental Conservation

Niche-Based Modeling of Japanese Stiltgrass (Microstegium vimineum) Using Presence-Only Information , Nathan Bush, Environmental Conservation

Assessing Mammal and Bird Biodiversity and Habitat Occupancy of Tiger Prey in the Hukaung Valley of Northern Myanmar , Hla Naing, Environmental Conservation

Generating Best Management Practices for Avian Conservation in a Land-Sparing Agriculture System, and the Habitat-Specific Survival of a Priority Migrant , Jeffrey D. Ritterson, Environmental Conservation

Experimental Test of Genetic Rescue in Isolated Populations of Brook Trout , Zachary L. Robinson, Environmental Conservation

UNDERSTANDING STAKEHOLDERS PERCEPTION TOWARDS HUMAN-WILDLIFE INTERACTION AND CONFLICT IN A TIGER LANDSCAPE-COMPLEX OF INDIA , Ronak T. Sripal, Environmental Conservation

Impacts of Land Cover and Climate Change on Water Resources in Suasco River Watershed , Ammara Talib, Environmental Conservation

Theses from 2014 2014

A Comparison of American, Canadian, and European Home Energy Performance in Heating Dominated – Moist Climates Based on Building Codes , Stephanie M. Berkland, Environmental Conservation

Spatio-Temporal Factors Affecting Human-Black Bear Interactions in Great Smoky Mountains National Park , Nathan Buckhout, Environmental Conservation

Estimating the Effective Number of Breeders of Brook Trout, Salvelinus fontinalis, Over Multiple Generations in Two Stream Systems , Matthew R. Cembrola, Environmental Conservation

An Assessment of Environmental Dna as a Tool to Detect Fish Species in Headwater Streams , Stephen F. Jane, Environmental Conservation

Assessing Wild Canid Distribution Using Camera Traps in the Pioneer Valley of Western Massachusetts , Eric G. LeFlore, Environmental Conservation

Quantifying the Effect of Passive Solar Design in Traditional New England Architecture , Peter Levy, Environmental Conservation

Ecology and Conservation of Endangered Species in Sumatra: Smaller Cats and the Sumatran Rhinoceros (Dicerorhinus Sumatrensis) As Case Studies , Wulan Pusparini, Environmental Conservation

The Cumulative Impacts of Climate Change and Land Use Change on Water Quantity and Quality in the Narragansett Bay Watershed , Evan R. Ross, Environmental Conservation

Patterns in Trash: Factors that Drive Municipal Solid Waste Recycling , Jared Starr, Environmental Conservation

Theses from 2013 2013

Greening the Building Code: an Analysis of Large Project Review Under Boston Zoning Code Articles 37 and 80 , Sandy J. Beauregard, Environmental Conservation

Vernal Pool Vegetation and Soil Patterns Along Hydrologic Gradients in Western Massachusetts , Kasie Collins, Environmental Conservation

Implementation of Aquaponics in Education: An Assessment of Challenges, Solutions and Success , Emily Rose Hart, Environmental Conservation

Aquatic Barrier Prioritization in New England Under Climate Change Scenarios Using Fish Habitat Quantity, Thermal Habitat Quality, Aquatic Organism Passage, and Infrastructure Sustainability , Alexandra C. Jospe, Environmental Conservation

The Energy Benefits of Trees: Investigating Shading, Microclimate and Wind Shielding Effects in Worcester and Springfield, Massachusetts , Emma L. Morzuch, Environmental Conservation

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Home > Environmental Studies > Student Theses 2001-2013

Student Theses 2001-2013

Theses/dissertations from 2017 2017.

The Disappearing Wetland Act: Climate Change, Development, and Protection , Jessica P. Doughty

Theses/Dissertations from 2013 2013

The Centrality of Ecological Design: Achieving Sustainability in an Era of Free-Market Capitalist Framework , Eddy Andrade

A Vicious CERCLA, Or The Twilight of the Superfund , Donald Borenstein

Saving the World’s Remaining Tigers: Panthera’s Work and the Role of Non-Profits in Wildlife Conservation , John Byrne

New York City’s Water Challenges: History, Politics, and Design , Jessica Crowley

Giving Back to the Community: Addressing the Environmental Literacy Gap Through Socially and Environmentally Responsible Business Practices , David Garcia

Wasting Plates: Addressing Food Waste in the United States , Sarah Geuss

Too Pig to Fail: Considering Regulatory Solutions to the Environmental Damages Caused by Industrial Hog Farms in North Carolina , Samir Hafez

Sandy and the City: The Need for Coastal Policy Reform , Jonathan Hilburg

Drilling for Arctic Oil: Is it Worth the Risk? , Emily Kain

The Pedestrianization of New York City: An Environmental History and Critique of Urban Motorization and A Look at New York City’s New Era of Planning , Anna Kobara

Hurricane Sandy: Using Environmental History, Economics, Politics and Urban Planning to Prepare For the Next One , Julia Maguire

Our Failing Food System: Productivity Versus Sustainability , Alyson Murphy

Exploring the Drivers of CSR and Creating a Sustainable Corporate Institution: Environmental Education, Politics, and Business Practices , Eric Osuna

Composting Food Waste: A Method That Can Improve Soil Quality and Reduce Greenhouse Gas Emissions , Gentiana Quni

Assessment of Impact of Socioeconomic Factors on Conservation Awareness in the Tarangire-Manyara Ecosystem , Karianne Rivera

The Sustainable Future of the Metropolis: Greening New York City Building By Building , Lizbeth Sanchez

Trash Talk: Solid Waste Disposal in New York City , Alexander Williams

Hurricane Sandy: A Chance to Identify Vulnerabilities, Learn from the Past, and Increase Future Resiliency , Julianne Yee

Theses/Dissertations from 2012 2012

Going Green at New York-Presbyterian: Hospitals As Sustainable Businesses , Samantha Allegro

A Stronger Role For the United States President in Environmental Policy , Elizabeth Anderson

Simulating Climate Risk Into Markets and Policies: A New Approach to Financial Analysis and Policy Formation , Miguel Bantigue

Environmental Education Reform: Using Experiential Learning to Influence Environmental Policy-Making By Fostering a Sense of Environmental Citizenship and Eco-Literacy , Nicol Belletiere

Internship Report: Earthjustice & the Fracking Battle in New York's Marcellus Shale , John Byrne

Coal: How We Achieved Our Dependency and Its True Cost , Kelly Caggiano

Recycling Furniture: The Ecological, Economic and Social Benefits , Michele Calabrese

Internship Report UNEP: The Effects of Climate Change in Arctic Zones , Diana Cartaya-Acosta

Environmental Racism in South Africa: A Sustainable Green Solution , Danielle Darmofal

The Bronx, Beavers and Birthrights: The Case For Urban Wildlife , Richard Day

The Economics of Biodiversity , Paige Doyle

Environmental Communications: Case Study of New York City's Double Crested Cormorant , Marisa Galdi

Not a Walk In the Park: Environmental Justice in New York City , Lindsey Grier

The Economic and Environmental Justice Implications of Hydraulic Fracturing in 21st Century North America , Katie Medved

The Bottling Craze: Exposing the Environmental Effects of Bottled Vs. Tap Water , Michele Paccagnini

How the United States Will Find a Sustainable Future Through Increased Nuclear Productivity , Ian Pruitt

Group For the East End: The Role of Childhood Environmental Education in Improving Learning Behaviors and the Health of Humans and the Environment , Brian Riley

The Role of Modern Zoos in Wildlife Conservation: From the WCS to the Wild , John Scott

Global Climate Change Vs. Global Warming: What Is the Difference "Global Climate Change" and "Global Warming"? , Nadia Seeteram

Lost in Translation: Environmental Communication Issues in Media and Politics , Carolyn Wegemann

Theses/Dissertations from 2011 2011

The Ins and Outs of Corporate Greenwashing , Jennifer Bender

A River Runs Through It: Community Access to the Bronx River in Tremont and Hunts Point , Matthew Bodnar

The Future is Green; Urban Agriculture in the Bronx , Patty Gouris

All in Our Backyard: Exploring how Environmental Discrimination Affects Health and Social Conditions in the South Bronx , Mireille Martineau

Theses/Dissertations from 2010 2010

The Bronx River Alliance: A Model Community Action Organization And an Internship in Development , John Hinck

Enrique Reef: Degradation and Protective Measures , Dana Mitchell

The Human Population Growth and its Ecological Consequences on Kenya and Tanzania , Lauren Noll

Environmental Consciousness: Human Motivation for Thinking Ecologically , Rob Pigue

Economics of Carbon Regulation: An Exploration to the Nuance of Carbon Regulation , Timothy J. Schwartz

New York Botanical Garden Internship: From Photography to Policy , Christine Willeford

Theses/Dissertations from 2009 2009

Environmental Health and Climate Change: The Case of Lyme Disease , Matthew Abad

Recycling Tendencies of Fordham University's Population , Jeremy Aiss, Vincent Ammirato, Anamarie Beluch, and Christopher Torres

The Business of Sustainability , Andrea Brady

Waste Mismanagement: Fighting Environmental Injustice in Mott Haven and Hunts Point , Elizabeth Friedrich

Environmental Internship & The Fordham Eco-Roof Proposal , Anthony Giovannone

The Putnam Railroad Corridor Restoration Project: A Comprehensive Plan for Paired Ecological Restoration and Greenway Construction , Patrick J. Hopkins Jr.

Land Use Policy and Development on Long Island , Richard Murdocco

From the Bronx into the Wild! My Adventurous Experience at the Bronx Zoo , Lauren Noll

For the Birds! , Robert Patterson

Managing Infestation of the Invasive Viburnum Leaf Beetle (Pyrrhalta viburni) at the New York Botanical Garden , Gregory Russo

Environmental History of Japan , Amy Seagroves

Theses/Dissertations from 2008 2008

A Healthy Environment is a Healthy Body , Matthew Abad

Stormwater Runoff, Combined Sewer Overflow, and Environmental Justice in the Bronx , Natalie Collao

Solving a Crisis: Water Quality & Storm Water Infrastructure in New York City , Kelsey Ripper

The New Social Movement: Environmental Justice in the Bronx , Kelsey Ripper

Environmental Justice and Street Science: A Fusion of Community Knowledge and Environmental Health Justice to Address the Asthma Epidemic in Urban Communities , Natalie Robiou

Urban Wildlife and Leopold’s Land Ethic: “The squirrels on a college campus convey the same lesson as the redwoods. . . .” , Natalie Robiou

Unpasteurized Milk and Soft Cheese Outbreaks: An Overview of Consumer Safety , Taygan Yilmaz

Theses/Dissertations from 2007 2007

The Environmental Justice Movement in the United States , Harrison Delfin

Natural River Restoration in Urban Ecology: The Bronx River , Samuel P. Loor

Theses/Dissertations from 2006 2006

The H5N1 Avian Influenza Virus: Globalization, Climate Change, and Other Anthropogenic Factors in New Emergent Diseases , Quan Luong

The Environmental Effects of War , Philip Swintek

Theses/Dissertations from 2005 2005

Identification of Genetically Modified Organisms in Foodstuffs , Anamarie Beluch

The Moral Dilemma of Genetically Modified Foods (GMOs) , Anamarie Beluch

Theses/Dissertations from 2003 2003

The History of Community Gardens in New York City: The Role of Urban Agriculture and Green Roofs in Addressing Environmental Racism , Rosamarie Ridge

Theses/Dissertations from 2002 2002

Bronx River Restoration: Report and Assessment , Teresa Crimmens

Environmental Audit of the Rose Hill Campus , Nicole Marshall, Maria Nissi, Brian Flaherty, Carl Van Ostrand, and Ian McClelland

Theses/Dissertations from 2001 2001

Bronx River Restoration: Report and Assessment , Nicole Marshall

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Dissertations / Theses on the topic 'Environmental education ; sustainable development education'

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Lidgren, Alexander. "A sustainable course for higher education." Lund, Sweden : International Institute for Industrial Environmental Economics, 2004. http://www.iiiee.lu.se/Publication.nsf/$webAll/14E0DB35970472A7C1256F9D00527E97/$FILE/Alexander%20Lidgren.pdf.

Au, Chun-yan Joanne, and 區俊茵. "Environmental education is a stepping stone towards sustainable development." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2002. http://hub.hku.hk/bib/B31255413.

Loi, Chung-yu Joanne, and 雷頌宇. "Community environmental education for sustainable development in Hong Kong." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2003. http://hub.hku.hk/bib/B31255590.

Bernardino, Caridad S. "Exploring education for sustainable development its theory and practice in Philippine higher education institutions /." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2000. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape3/PQDD_0013/NQ59564.pdf.

Johansson, Ulrika. "Towards a biocentric attitude in environmental education." Thesis, Linnéuniversitetet, Institutionen för pedagogik, psykologi och idrottsvetenskap, PPI, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:lnu:diva-20542.

Mapira, Jemitias. "Zimbabwes environmental education programme and its implications for sustainable development." Thesis, Stellenbosch : Stellenbosch University, 2014. http://hdl.handle.net/10019.1/95968.

Jürgensen, Anna. "Education for sustainability developing a sustainable strategy for Zákolany School." Lund, Sweden : International Institute for Industrial Environmental Economics, 2003. http://www.iiiee.lu.se/Publication.nsf/$webAll/E0FD748605E2FB40C1256DFF0031250B/$FILE/Anna_Jurgensen_HP.pdf.

Yildirim, Nuray. "Effect Of Designed Environmental Education Lectures On Environmental Attitudes Of Primary School Students." Master's thesis, METU, 2008. http://etd.lib.metu.edu.tr/upload/12609377/index.pdf.

Katayama, Junko. "Theory into practice in environmental education : towards an evidence-based approach." Thesis, University of Bath, 2009. https://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.500717.

Lam, Wai-nam. "Learning for environmental sustainability : the green school experience /." View the Table of Contents & Abstract, 2005. http://sunzi.lib.hku.hk/hkuto/record/B35081296.

Law, Man-suet Michelle, and 羅文雪. "Achieving corporate sustainability through environmental education and training." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2014. http://hdl.handle.net/10722/206704.

Williams, Pam. "University leadership for sustainability : an active dendritic framework for enabling connection and collaboration : a thesis submitted to the Victoria University of Wellington in fulfilment of the requirements for the degree of Doctor of Philosophy in Environment Studies /." ResearchArchive@Victoria e-Thesis, 2008. http://hdl.handle.net/10063/625.

Strålin, Frida, and Johanna Wiman. "Environmentally Sustainable Development in Tanzanian Education - Values of Teachers." Thesis, Linköping University, Linköping University, Linköping University, 2009. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-52189.

This is a Minor Field Study which was carried out in six schools in the Morogoro district in Tanzania. The aim of this study was to find out the values of Tanzanian teachers concerning education for environmentally sustainable development. 18 teachers have been interviewed and as a complimentary method we have observed lessons of different subjects to get a better understanding for the answers from the interviews. Our findings are that the teachers find it important to teach about both reasons and effects when it comes to environmental issues. Many teachers believed knowledge of how to live in order to avoid environmental destruction was at least as important to teach. Another conclusion is that the teachers find it important to teach about environmental issues because knowledge of the environment is necessary for development of a country. Finally we have concluded that the teachers´ values are supported by the syllabuses.

Howe, Caroline. "The role of education as a tool for environmental conservation and sustainable development." Thesis, Imperial College London, 2009. http://hdl.handle.net/10044/1/5377.

Packard, Jill M. E. "Environmental education and the dimensions of sustainability an analysis of the curriculum of the Cuyahoga Valley Education Center /." Ohio : Ohio University, 2007. http://www.ohiolink.edu/etd/view.cgi?ohiou1181072399.

Samuel, Hilary R. (Hilary Ruth). "Educating for sustainable development : a case study of an environmental immersion school." Thesis, McGill University, 1991. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=60475.

Phuong, Nguyen H. "Engineering education for sustainable development in Vietnamese universities : building culturally appropriate strategies for transforming the engineering curriculum towards sustainable development." Thesis, University of Gloucestershire, 2013. http://eprints.glos.ac.uk/2038/.

Bengtsson, Stefan L. "Beyond Education and Society : On the Political Life of Education for Sustainable Development." Doctoral thesis, Uppsala universitet, Institutionen för pedagogik, didaktik och utbildningsstudier, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-229355.

Elfving, Maria, and Sanna Ristimäki. "Environmental Education in Rural Development : A Case Study in Mecubúri District, Mozambique." Thesis, Linnéuniversitetet, Institutionen för samhällsvetenskaper, SV, 2011. http://urn.kb.se/resolve?urn=urn:nbn:se:lnu:diva-17711.

Lourenço, Fernando. "Entrepreneurship education for sustainable development : investigating the influence of economic, social and environmental factors." Thesis, Manchester Metropolitan University, 2009. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.493850.

Sandin, Eva-Maria. "Education for Sustainable Development in Perspective(s) : Rural Mongolian teachers’ views on environmental problems." Thesis, Uppsala universitet, Institutionen för pedagogik, didaktik och utbildningsstudier, 2014. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-227002.

Islami, Lander. "Education for Sustainable Development in the Kosovo: The Voice of Youth." Thesis, Uppsala universitet, Institutionen för geovetenskaper, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-338512.

Boois, Ulrich. "Key decision-makers' perceptions of sustainable sea fisheries in Namibia and the implications for environmental education programmes." Thesis, Rhodes University, 2000. http://hdl.handle.net/10962/d1003544.

Moy, Sina. "The importance of incorporating Education for Sustainable Development (ESD) into the secondary curriculum in order to minimise the problems of waste on South Tarawa : a thesis submitted to the Victoria University of Wellington in partial fulfilment of the requirements for the degree of Master of Science in Geography /." ResearchArchive@Victoria e-Thesis, 2008. http://hdl.handle.net/10063/1017.

Lee, King-yin, and 李敬賢. "A proposal to reform environmental education in Hong Kong to increase understanding of sustainable development." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2004. http://hub.hku.hk/bib/B31255930.

Nduna, Joyce Nothemba. "Environmental education for sustainable communities by adult practitioners in a black urban community." Thesis, Stellenbosch : Stellenbosch University, 2000. http://hdl.handle.net/10019.1/51744.

Giap, Binh Nga. "Education for environment: A useful concept." Saechsische Landesbibliothek- Staats- und Universitaetsbibliothek Dresden, 2015. http://nbn-resolving.de/urn:nbn:de:bsz:14-qucosa-190630.

Dube, Carolina. "Implementing education for sustainable development : the role of geography in South African secondary schools." Stellenbosch : Stellenbosch University, 2012. http://hdl.handle.net/10019.1/71683.

Naunova, Kristina. "Education for Sustainable Development for Everyone: Massive Open Online Courses and global, climate literate, sustainable citizens." Thesis, Uppsala universitet, Institutionen för geovetenskaper, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-353146.

Cleophas, Noel Cyril. "Marine environmental education for a sustainable exploitation of marine resources. The case of Abalone poaching in the Hermanus area." University of the Western Cape, 2002. http://hdl.handle.net/11394/7778.

To, Kimiharu. "Cross-national influence of the term sustainable development upon the field of environmental education| Comparison between the United States and Japan." Thesis, State University of New York Col. of Environmental Science & Forestry, 2016. http://pqdtopen.proquest.com/#viewpdf?dispub=10105244.

This study conducted an international comparative study between Japan and the United States to examine both problems and possibilities in the use of the term ‘sustainable development’ (SD) among environmental educators. In so doing, this study applied a multilevel analysis—national, state/prefecture, and individual levels—to assess SD’s overall influences. Such a comparative elaboration of the individual perceptions, as well as the policy contexts, helps in comprehending both the conceptual and practical obstacles, and their possibilities, when using an internationally-promoted term. I found that respondents of both countries tend to have a firm grounding in the field of EE, and make only supplementary use of the notions of sustainable development and ESD, primarily for emphasizing social and economic dimensions of environmental issues.

Some of the notable results are as follows: 1. Environmental educators of both countries are still hesitant to embrace ESD or Education for Sustainability in their teachings; 2. Environmental educators of both countries, while not rejecting the concepts of sustainable development and ESD, are instead operationalizing them to punctuate social and economic issues; and 3. Most environmental educators perceive EE as being larger and more comprehensive than ESD. This is demonstrated in the survey results in which none of the American environmental educators perceived EE as being smaller than ESD.

Implications from the results are as follows: 1. The ‘shift’ in discourse from EE to ESD appears to be incomplete, contrary to some recent observations. I believe that this is because the field of EE, while showing some differences at the national level, has been affirming the incorporation of social and economic processes into teaching practice through attention to laws, literacy plans, guidelines, and conferences. The individual educators appear to be influenced by these shifting emphases, professional networks and policy contexts.

Boldkhuyag, Enkhtuya. "Values and pro environmental behaviour among Mongolian adolescents:Implications for ESD." Thesis, Uppsala universitet, Institutionen för geovetenskaper, 2015. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-258952.

Morris, Nicholas A. "Relocating Education for Sustainability: From the campus to the community." Kent State University / OhioLINK, 2016. http://rave.ohiolink.edu/etdc/view?acc_num=kent1477287211778195.

Ireland, Liza. "Educating for the 21st century : advancing an ecologically sustainable society." Thesis, University of Stirling, 2007. http://hdl.handle.net/1893/240.

Cheng, Yusi. "Investigating students' learning of sustainable development through music education : an exploratory study at Key Stage 3 in England." Thesis, Brunel University, 2015. http://bura.brunel.ac.uk/handle/2438/11162.

Rootzén, Johan. "Perceptions of the concept of sustainable development among Russian and Swedish students." Thesis, Umeå University, Mathematics, Technology and Science Education, 2007. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-1095.

The ambition for Education for Sustainabl Development (ESD),to integrat the principles, values,and practices of sustainable development into all aspects of education and learning is a huge undertaking. The aim of this study is to compare how this concept is being implemented and interpreted in Russian and Swedish schools.The study has been carried out using a combination of questionnaires,interviews and literature analysis. The results show that relatively few of the Russian students (29%)had heard about the concept of sustainable development while a majority of the Swedish students (75%)claimed to have heard about the concept. The general understanding of the concept seem to be rather low both in Russia and Sweden. Just a few of the students expressed that they had a feeling of the meaning of the concept sustainabl development. The results also show that the Russian and Swedish students share many values and priorities. However there are som areas where priorities differ. Russian students rank economical goals like high economical growth and emphasis on fighting economical inequalities higher than their Swedish counterparts. Both the Russian and Swedish students images of the future and their own capability of influencing the future development tend to be optimistic. The Russian students tend to be more optimistic about the future than the Swedish students. The Swedish students, however, seem to be more confident that they personally can influenc what happens with the environment. The conclusion is that if the ambition really is to integrat ESD as a natural part of the educational system clearer mandates and more recourses will be needed. More efforts have also to be put into the inclusion of more actors in the process, both on local and national level.

Sherren, Katherine Dove. "Sustainability bound? : a study of interdisciplinarity and values in universities /." View thesis entry in Australian Digital Theses Program, 2008. http://thesis.anu.edu.au/public/adt-ANU20080507.100919/index.html.

JODOIN, Joshua John. "Using Education for Sustainable Development (ESD) for Language Learners : Study of University Approaches." Kyoto University, 2019. http://hdl.handle.net/2433/244583.

Babikwa, Daniel J. "'Environmental policy to community action': methodology and approaches in community-based environmental education programmes in Uganda." Thesis, Rhodes University, 2004. http://hdl.handle.net/10962/d1003400.

Kim, Misol. "From Education to Action: The Effectiveness of CEMUS courses in promoting behavior and action towards sustainable development." Thesis, Uppsala universitet, Institutionen för geovetenskaper, 2012. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-177264.

Bandoophanit, Thianthip, and Lupeng Ye. "University of Gävle Environmental Performance After ISO 14001 CertificationReflected by Students’ Environmental Awareness." Thesis, University of Gävle, Faculty of Engineering and Sustainable Development, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:hig:diva-7259.

Environmental problems are seen as the first priority that all countries try to find as a solution to be more sustainable. These issues arise due to the lack of our responsibility to the world. Researchers agree on that the starting point in changing our society to be green is to increase environmental awareness (Jiang et al., 1999). Several sectors accept this idea like UNESCO which focuses on education as a tool to promote sustainable development (UNESCO, 2002).

Following UNESCO, our study investigates university students’ environmental awareness. The Authors hope that the outcome not only reflects university performance, but also helps to develop the environment in the future. Hence, the authors selected the University of Gävle or HiG, as a case study because it is a best practice in Environmental Management System (EMS). Moreover, HiG received the ISO 14001 certificate and it has a continuous improvement program (Sammalisto, 2007, p.69).

The study was started by reviewing research literatures concerning Environmental Management System (EMS), Sustainable Development (SD), Education for Sustainable Development (ESD) and Environmental Awareness. The authors found that there are few studies talking about students’ awareness in universities after being awarded ISO 14001. Notice that the research was seen only from environmental perspective (Flint, 2004).

To answer research questions, two surveys were adopted. The first part focused on teachers and officers (or staffs) who work on environmental issues. While, the second part focused on the students which were divided into Swedish and international.

The research outcomes indicate that HiG has a good EMS performance supported by annual environmental audits, regular policy revision and the attempts to minimize non-conformities. Conversely, when the authors pointed at student awareness, it shows that students have insufficient environmental knowledge. Moreover, some students have lower environmental awareness and act in a less ecological friendly way. Nevertheless, a knowledge problem was also found among several university staffs. This is because of the lack of communication about environmental issues inside the staffs community and lack of environmental education for students.

Whatever the university situation is, there are some groups of staff and students eager to develop themselves and their university. This point of strength could be the best driving force. It can push the university forward until the university reaches sustainable development and it brings the aware graduates into society.

Rachelson, Anouchka. "The Role of Community College Faculty in Teaching and Learning for Sustainable Development." FIU Digital Commons, 2010. http://digitalcommons.fiu.edu/etd/300.

Skoien, Petra, and n/a. "Identifying Opportunities for Education for Sustainability: Current Practices of Community-Based Environmental Groups." Griffith University. Australian School of Environmental Studies, 2006. http://www4.gu.edu.au:8080/adt-root/public/adt-QGU20070109.145756.

Villanen, H. (Heli). "Our place, my future and their project:reflecting children’s lifeworld in education for sustainable development." Doctoral thesis, Oulun yliopisto, 2014. http://urn.fi/urn:isbn:9789526206042.

Mogotsi, Barulaganye Jones. "Implementation of local agenda 21's education, awareness and training component : a case study of Gaborone /." Thesis, Rhodes University, 2006. http://eprints.ru.ac.za/508/.

EKWALL, SUNDBY SOFIA. "Higher education institutions and sustainable development : A case study of a technological university." Thesis, KTH, Skolan för industriell teknik och management (ITM), 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-301964.

Gevorgyan, Shavarsh. "Is Sustainability Marketing alive? A critical exploration of Marketing courses in Swedish higher education institutions: The case of Uppsala University." Thesis, Uppsala universitet, Institutionen för geovetenskaper, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-386460.

Wedel, Elsa. "Biology in Swedish Upper Secondary School : Does it Contribute to Ecocentrism?" Thesis, Linköpings universitet, Institutionen för fysik, kemi och biologi, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-157624.

Lam, Wai-nam, and 林蔚南. "Learning for environmental sustainability: the green school experience." Thesis, The University of Hong Kong (Pokfulam, Hong Kong), 2005. http://hub.hku.hk/bib/B45014152.

Ljung, Magnus. "Collaborative learning for sustainable development of agri-food systems /." Uppsala : Swedish Univ. of Agricultural Sciences (Sveriges lantbruksuniv.), 2001. http://projkat.slu.se/SafariDokument/191.htm.

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Dissertations for Environmental Education

Barwin, alan, lights, camera, environmental action: messages in youth environmental videos, cohen, edward charles, employing inquiry-based computer simulations and embedded scientist videos to teach challenging climate change and nature of science concepts, corsi, gianluca, differences between lab completion and non-completion on student performance in an online undergraduate environmental science program, covington, keisha casan danielle, student perceptions of e-learning environments, self-regulated learning and academic performance, hopson-costa, adrienne, development of an electronic educational presentation to accompany the bonehenge project website: a component of the cape lookout sperm whale project, lino, amanda a., through the looking glass: a qualitative study of film in first nations communities, steneken, marilyn, the relationship between environmental literacy and students' participation in global online collaboration, stokken, janelle, the development of a community awareness campaign for a local non-profit environmental education organization: the clark fork watershed education program, temple, laura gail, an exploration of the role of film in environmental education, walter, kim r., a design-based approach to teaching sustainability, wisneski, kristin dominique, reconnecting youth with community and environment: keys to civic engagement education program success, zayas, natalie l., a comparative analysis of online versus traditional teaching of environmental literacy using participatory action research, sign in or register, sign in using email & password.

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Research Topics & Ideas: Environment

100+ Environmental Science Research Topics & Ideas

Research topics and ideas within the environmental sciences

Finding and choosing a strong research topic is the critical first step when it comes to crafting a high-quality dissertation, thesis or research project. Here, we’ll explore a variety research ideas and topic thought-starters related to various environmental science disciplines, including ecology, oceanography, hydrology, geology, soil science, environmental chemistry, environmental economics, and environmental ethics.

NB – This is just the start…

The topic ideation and evaluation process has multiple steps . In this post, we’ll kickstart the process by sharing some research topic ideas within the environmental sciences. This is the starting point though. To develop a well-defined research topic, you’ll need to identify a clear and convincing research gap , along with a well-justified plan of action to fill that gap.

If you’re new to the oftentimes perplexing world of research, or if this is your first time undertaking a formal academic research project, be sure to check out our free dissertation mini-course. Also be sure to also sign up for our free webinar that explores how to develop a high-quality research topic from scratch.

Overview: Environmental Topics

Ecology /ecological science
Atmospheric science
Oceanography
Soil science
Environmental chemistry
Environmental economics
Environmental ethics
Examples of dissertations and theses

Topics & Ideas: Ecological Science

The impact of land-use change on species diversity and ecosystem functioning in agricultural landscapes
The role of disturbances such as fire and drought in shaping arid ecosystems
The impact of climate change on the distribution of migratory marine species
Investigating the role of mutualistic plant-insect relationships in maintaining ecosystem stability
The effects of invasive plant species on ecosystem structure and function
The impact of habitat fragmentation caused by road construction on species diversity and population dynamics in the tropics
The role of ecosystem services in urban areas and their economic value to a developing nation
The effectiveness of different grassland restoration techniques in degraded ecosystems
The impact of land-use change through agriculture and urbanisation on soil microbial communities in a temperate environment
The role of microbial diversity in ecosystem health and nutrient cycling in an African savannah

Topics & Ideas: Atmospheric Science

The impact of climate change on atmospheric circulation patterns above tropical rainforests
The role of atmospheric aerosols in cloud formation and precipitation above cities with high pollution levels
The impact of agricultural land-use change on global atmospheric composition
Investigating the role of atmospheric convection in severe weather events in the tropics
The impact of urbanisation on regional and global atmospheric ozone levels
The impact of sea surface temperature on atmospheric circulation and tropical cyclones
The impact of solar flares on the Earth’s atmospheric composition
The impact of climate change on atmospheric turbulence and air transportation safety
The impact of stratospheric ozone depletion on atmospheric circulation and climate change
The role of atmospheric rivers in global water supply and sea-ice formation

Topics & Ideas: Oceanography

The impact of ocean acidification on kelp forests and biogeochemical cycles
The role of ocean currents in distributing heat and regulating desert rain
The impact of carbon monoxide pollution on ocean chemistry and biogeochemical cycles
Investigating the role of ocean mixing in regulating coastal climates
The impact of sea level rise on the resource availability of low-income coastal communities
The impact of ocean warming on the distribution and migration patterns of marine mammals
The impact of ocean deoxygenation on biogeochemical cycles in the arctic
The role of ocean-atmosphere interactions in regulating rainfall in arid regions
The impact of ocean eddies on global ocean circulation and plankton distribution
The role of ocean-ice interactions in regulating the Earth’s climate and sea level

Tops & Ideas: Hydrology

The impact of agricultural land-use change on water resources and hydrologic cycles in temperate regions
The impact of agricultural groundwater availability on irrigation practices in the global south
The impact of rising sea-surface temperatures on global precipitation patterns and water availability
Investigating the role of wetlands in regulating water resources for riparian forests
The impact of tropical ranches on river and stream ecosystems and water quality
The impact of urbanisation on regional and local hydrologic cycles and water resources for agriculture
The role of snow cover and mountain hydrology in regulating regional agricultural water resources
The impact of drought on food security in arid and semi-arid regions
The role of groundwater recharge in sustaining water resources in arid and semi-arid environments
The impact of sea level rise on coastal hydrology and the quality of water resources

Research Topic Kickstarter - Need Help Finding A Research Topic?

Topics & Ideas: Geology

The impact of tectonic activity on the East African rift valley
The role of mineral deposits in shaping ancient human societies
The impact of sea-level rise on coastal geomorphology and shoreline evolution
Investigating the role of erosion in shaping the landscape and impacting desertification
The impact of mining on soil stability and landslide potential
The impact of volcanic activity on incoming solar radiation and climate
The role of geothermal energy in decarbonising the energy mix of megacities
The impact of Earth’s magnetic field on geological processes and solar wind
The impact of plate tectonics on the evolution of mammals
The role of the distribution of mineral resources in shaping human societies and economies, with emphasis on sustainability

Topics & Ideas: Soil Science

The impact of dam building on soil quality and fertility
The role of soil organic matter in regulating nutrient cycles in agricultural land
The impact of climate change on soil erosion and soil organic carbon storage in peatlands
Investigating the role of above-below-ground interactions in nutrient cycling and soil health
The impact of deforestation on soil degradation and soil fertility
The role of soil texture and structure in regulating water and nutrient availability in boreal forests
The impact of sustainable land management practices on soil health and soil organic matter
The impact of wetland modification on soil structure and function
The role of soil-atmosphere exchange and carbon sequestration in regulating regional and global climate
The impact of salinization on soil health and crop productivity in coastal communities

Topics & Ideas: Environmental Chemistry

The impact of cobalt mining on water quality and the fate of contaminants in the environment
The role of atmospheric chemistry in shaping air quality and climate change
The impact of soil chemistry on nutrient availability and plant growth in wheat monoculture
Investigating the fate and transport of heavy metal contaminants in the environment
The impact of climate change on biochemical cycling in tropical rainforests
The impact of various types of land-use change on biochemical cycling
The role of soil microbes in mediating contaminant degradation in the environment
The impact of chemical and oil spills on freshwater and soil chemistry
The role of atmospheric nitrogen deposition in shaping water and soil chemistry
The impact of over-irrigation on the cycling and fate of persistent organic pollutants in the environment

Topics & Ideas: Environmental Economics

The impact of climate change on the economies of developing nations
The role of market-based mechanisms in promoting sustainable use of forest resources
The impact of environmental regulations on economic growth and competitiveness
Investigating the economic benefits and costs of ecosystem services for African countries
The impact of renewable energy policies on regional and global energy markets
The role of water markets in promoting sustainable water use in southern Africa
The impact of land-use change in rural areas on regional and global economies
The impact of environmental disasters on local and national economies
The role of green technologies and innovation in shaping the zero-carbon transition and the knock-on effects for local economies
The impact of environmental and natural resource policies on income distribution and poverty of rural communities

Topics & Ideas: Environmental Ethics

The ethical foundations of environmentalism and the environmental movement regarding renewable energy
The role of values and ethics in shaping environmental policy and decision-making in the mining industry
The impact of cultural and religious beliefs on environmental attitudes and behaviours in first world countries
Investigating the ethics of biodiversity conservation and the protection of endangered species in palm oil plantations
The ethical implications of sea-level rise for future generations and vulnerable coastal populations
The role of ethical considerations in shaping sustainable use of natural forest resources
The impact of environmental justice on marginalized communities and environmental policies in Asia
The ethical implications of environmental risks and decision-making under uncertainty
The role of ethics in shaping the transition to a low-carbon, sustainable future for the construction industry
The impact of environmental values on consumer behaviour and the marketplace: a case study of the ‘bring your own shopping bag’ policy

Examples: Real Dissertation & Thesis Topics

While the ideas we’ve presented above are a decent starting point for finding a research topic, they are fairly generic and non-specific. So, it helps to look at actual dissertations and theses to see how this all comes together.

Below, we’ve included a selection of research projects from various environmental science-related degree programs to help refine your thinking. These are actual dissertations and theses, written as part of Master’s and PhD-level programs, so they can provide some useful insight as to what a research topic looks like in practice.

The physiology of microorganisms in enhanced biological phosphorous removal (Saunders, 2014)
The influence of the coastal front on heavy rainfall events along the east coast (Henson, 2019)
Forage production and diversification for climate-smart tropical and temperate silvopastures (Dibala, 2019)
Advancing spectral induced polarization for near surface geophysical characterization (Wang, 2021)
Assessment of Chromophoric Dissolved Organic Matter and Thamnocephalus platyurus as Tools to Monitor Cyanobacterial Bloom Development and Toxicity (Hipsher, 2019)
Evaluating the Removal of Microcystin Variants with Powdered Activated Carbon (Juang, 2020)
The effect of hydrological restoration on nutrient concentrations, macroinvertebrate communities, and amphibian populations in Lake Erie coastal wetlands (Berg, 2019)
Utilizing hydrologic soil grouping to estimate corn nitrogen rate recommendations (Bean, 2019)
Fungal Function in House Dust and Dust from the International Space Station (Bope, 2021)
Assessing Vulnerability and the Potential for Ecosystem-based Adaptation (EbA) in Sudan’s Blue Nile Basin (Mohamed, 2022)
A Microbial Water Quality Analysis of the Recreational Zones in the Los Angeles River of Elysian Valley, CA (Nguyen, 2019)
Dry Season Water Quality Study on Three Recreational Sites in the San Gabriel Mountains (Vallejo, 2019)
Wastewater Treatment Plan for Unix Packaging Adjustment of the Potential Hydrogen (PH) Evaluation of Enzymatic Activity After the Addition of Cycle Disgestase Enzyme (Miessi, 2020)
Laying the Genetic Foundation for the Conservation of Longhorn Fairy Shrimp (Kyle, 2021).

Looking at these titles, you can probably pick up that the research topics here are quite specific and narrowly-focused , compared to the generic ones presented earlier. To create a top-notch research topic, you will need to be precise and target a specific context with specific variables of interest . In other words, you’ll need to identify a clear, well-justified research gap.

Need more help?

If you’re still feeling a bit unsure about how to find a research topic for your environmental science dissertation or research project, be sure to check out our private coaching services below, as well as our Research Topic Kickstarter .

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Startpage SLU
Departments
Department of Aquatic Resources
Bachelor thesis 15 ECTS

Thesis Work in biology, environmental science or sustainable development at the Department of Aquatic Resources

Do you want to work with marine biology, marine ecology, freshwater biology, freshwater ecology, limnology or sustainable development? Make a difference for the Baltic Sea, the Skagerrak or Kattegat, for lakes or running waters! As a thesis worker at our department, you will get the chance to deal with real problems in ongoing research projects, and have supervisors who are Sweden's leading experts in the field. You get to use theoretical knowledge in practice, and get the chance to participate in exciting fieldwork.

Our current calls concern a variety of topics in our field, such as fish, fisheries, shellfish, seals, waterfowl, ecosystems and sustainability issues.

Current calls for bachelor thesis (15 ECTS)

(Are you looking for a master thesis project (30/60 ECTS), go and have a look here! )

Fish welfare: Physiological responses to anaesthisia in brown trout

Bachelor project (15 ects) or master project (30/60 ects) in biology, fish welfare : physiological responses to anaesthisia in brown trout.

This research project aims to explore how brown trout respond to different anaesthetics. When set in water with an anaesthetic agent, fishes initially respond with increased activity. This results in a cascade of physiological processes in the fish. In this project some of these responses will be investigated.

There is a wide array of different teleost species used in scientific research world-wide. These fish are frequently anaesthetised for various procedures and previous studies suggest that there is a divergence in the response to different anaesthetics among species. The use and efficiency, from a practical point of view, of anaesthetics in different species have been studied and reviewed. However, the fish welfare aspect and the in depth understanding of the pharmacological mechanism of action and effect in different species are largely unknown. In view of our increased awareness of animal welfare, also regarding fish, along with an increased use of fish as experimental animals, standardised anaesthetic protocols that are species specific is a necessity to assure best practices with focus on fish welfare.

In earlier experiments we have shown that the stress (cortisol) response in brown trout appear to be higher in more acid water; non-buffered tricaine methanesulfonate lower the pH.

This project we will attempt to investigate thes further by comparing the response of juvenile brown trout to four treatment (non-buffered tricaine methanesulfonate, buffered tricaine methanesulfonate., river water and river water with pH=3 (using hydrochlorid acid).

Blood sample will be taken from about 80 trout and the blood will late be analyzed.

Depending on the number of credits the student wish to achieve the brains of the trout will also be sampled and analyzed for monamines (such as dopamine and noradrenaline).

Erik Petersson Department of Aquatic Resources (SLU Aqua) [email protected] 010-4784239

Svante Winberg Uppsala University [email protected] Swedish University of Agricultural Sciences, Department of Anatomy, Physiology and Biochemistry [email protected]

Fish welfare: Physiological responses to anaesthisia in zebrafish

Bachelor level (15 ects) or master level (30/60 ects) in biology , fish welfare : physiological responses to anaesthesia in zebrafish.

This research project aims to explore how zebrafish respond to different anaesthetics. When set in water with an anaesthetic agent, fishes initially respond with increased activity. This, in turn, onset a cascade of physiological processes in the fish. In this project some of these responses will be investigated.

Zebrafish is the second most common laboratory aninmal in Sweden right now and knowledge about zebrafish behavior and physiology are important for future care and housing of the species.

In earlier experiments we have gathered information about the stress response in zebrafish to metomidate and tricaine methanesulfonate. We now like to investigate the response to three other anaesthetic methods: eugenol, benzocaine and rapid cooling.

Zebrafish will be anaesthetized with the three methods mentioned above, the fish will thereafter be sampled for cortisol (whole –body). This require that the cortisol is extracted, i.e. you will spend many days in the laboratory.

Depending on the number of credits the student wish to achieve the brains of the zebrafish will also be sampled and analyzed for monamines (such as dopamine and noradrenaline).

Developing a socio-ecological model for risk assessment in the Baltic Sea

Bachelor's level (15 ects) or master's level (30 ects), thesis work in biology or sustainable development at the department of aquatic resources, swedish university of agricultural sciences.

Within this project you will have the opportunity to develop a socio-ecological model for the Bothnian Sea that can be used for future management decisions in collaboration with stakeholders, managers and scientists.

A key aim in ecosystem-based management (EBM) is to establish common goals among stakeholders, as this is expected to enable the continued delivery of ecosystem services, while reducing user conflicts. Socio-ecological models are often used to support this aim. The models help increase the understanding between stakeholders and scientists and investigate how management actions could affect the ecosystem and the people who depend upon it. The Swedish Agency for Marine and Water Management has initiated an EBM pilot project in the southern Bothnian Sea to involve stakeholders in developing an ecosystem-based management that integrates environmental goals with societal goals for the region.

As part of the pilot EBM project, you will develop a socio-ecological model for the Bothnian sea in collaboration with stakeholders, managers and scientists. This, so called fuzzy cognitive model can be used in preparing future management decisions and increase the understanding between managers, stakeholders and scientists of the ecological and societal processes that affect environment status.

Practical work includes conducting interviews with managers and stakeholders and contributing to workshops within the southern Bothnian Sea EBM project. You should be familiar with R, interested in ecosystem-based management and comfortable interacting with people of different backgrounds. No previous modelling experience is necessary.

Carolyn Faithfull, researcher Department of Aquatic Resources, Institute ov Coastal Research , SLU [email protected] , +46(0)10-478 41 74

Round goby – turning risk to resource

Bachelor's level (15 ects) or master's level (30/60 ects), round goby – turning risk to resource, thesis work in biology or environmental science at the department of aquatic resources, swedish university of agricultural sciences.

The round goby is native in the Black sea and Capian Sea but has probably come by ballast water to the Baltic Sea. It was first reported 1990 in the bay of Gdansk where ot is now the most common coastal fish species. In 2008 it was reported in Sweden for the first time, in the archipelago of Karlskrona. It now occurs from Kalmar Sound up to Gävle and also around Gotland and in Gothenburg.

The round goby is an invasive species with high reproduction speed and highly tolerant for environmental stressors. There is a risk that it will compete with other bottom dwelling species and also consume eggs & fry of native species but it can also be a resource for predatory fish and humans. One concern is that it may invade freshwater systems and knowledge about its migrating capability and potential barriers to stop it from entering rivers is needed. In order to utilize the species and develop efficient fishing gear knowledge is needed about the behavior of the fish around different fishing gears. The suggested projects below are experimental studies contributing with knowledge in both these important areas and they are part of the Research project Round goby – turning risk to resource. All experiments are conducted in Älvkarleby, by the river Dalälven south of Gävle, either at SLU Fisheries Resaerch Station (FFS) or at the Vattenfalls experimental facility Laxeratorn. Depending on your skills and interest the thesis can either be within biology or environmental science with room for personal research questions. The work is flexibel and can be either on candidate or master level.

Migration ability (15-60 ETCS), ), practical work is done during 3-6 weeks between August to September in Vattenfall Laxeratorn with potential complementing studies at FFS in October for the 60hp work. In this experiment the ability to migrate in an artificial fisheway at different speed of the water and with different barriers is studied for round goby, trout and bullhead. The study can be done on one or several species depending on the number of credits of the thesis. The work can also be done later in the year on recorded videomaterial from the experiments.
Behaviour around fishing gear (15-60 ETCS), practical work is done during 2-3 weeks in September in the Laxelerator. In this experiment the behehaviour of round goby in the vicinity of a fishging gear is studied with the objective to create efficient methods to catch round goby. The work can also be done later in the year on recorded videomaterial from the experiments.

Ann-Britt Florin, Head of Division Department of Aquatic Resources, Institute of Coastal Research, SLU [email protected] , +46 10 478 41 22

Round goby – turning risk into resource

Thesis projects about salmonids in river Dalälven

Bachelor (15 ects) or master level (30/60 ects), thesis projects about salmonids in river dalälven.

SLU:s Fisheries research station in Älvkarleby produce around 140 000 salmon and trout per year for river Dalälven. A prerequisite for environmental friendly and ethical aquaculture is that reserach is conducted on breeding and rearing of fish. Here we have ongoing reserach and environmental analsysis, and we have aquarieas, creeks and streams for experiments and in addition skilled personel.

We are looking for students for the following projects:

Survival of salmon and trout smolt. The cormorant has been identified as a potentially important predator on smolt (salmonid juveniles) but scientific estimates from todays situation in river Dalälven is missing. Since some of the smolt is tagged with pit‐tags it is possible to look for these tags in cormorant colonies. The project involves scanning after pit‐tags in cormorant colonies along the coast but may also include investigations of regurgitates from cormorants or other fisheating birds. The field part is conducted after the breeding season of the birds, i.e. sep‐nov 2020
Enhanced quality of stocked fish. It is desirable that the stocked fish similar to wild fish, but a common problem is that reared fish have damaged finns and also grows to fast and becomes to fat compared to wild fish. In this project the effect of different feedingregimes on condition, survival and fin damage is investigated. Also experiments with different densities of fish can be included. The project can take place almost anytime between march and december.
Historic trends of spawning fish in river Dalälven. Breeding and rearing has taken place at the fisheries resaerch station for amlost 100 years. During this time data on the wild fish migrating from the sea has been collected which makes it possible to study changes in salmon and trout populations in the river in for example size, condition eggsize etc. This project can either be fully theoretical and take place anytime during the year or involve some practical work during either the fishing (aug) or breeding (oct) season.

Depending on previous education and interest the thesis can either be in ecology or environmental analysis and there is room for reserach questions of your own making. The extent is flexibel and the thesis can be done either on candidate or master level.

Energy content in the diet of breeding seabirds

Bachelor (15 ects) or master (30/60 ects), energy content of the diet of common guillemots in the baltic sea.

Common guillemots Uria aalge L. (Am. Eng.: Common Murre) are marine piscivorous top predators with a circumpolar Arctic distribution. Long-term studies have shown that they can be important indicators of changes in marine food webs and ecosystems. The largest Common guillemot colony in the Baltic Sea (~ 15 000 pairs) is at the island of Stora Karlsö. Since 1997, a long-term research program is following this colony and collects annual data on survival, reproduction and diet, among other things.

Obtaining high energy food is a prerequisite for successful breeding and survival in Common guillemots. Several studies have shown that the main food in the Baltic Sea is sprat Sprattus sprattus . New data however show that herring Clupea harengus can also be a significant part of the diet. The energy content of herring of different sizes, and the possible energy content differences between sprat and herring is today unknown. The knowledge is important for evaluating the conservation status of Common guillemots in the Baltic Sea and how much fish that must be left in the sea to ensure survival of seabirds.

The degree thesis focusses on analyzing the energy content of the prey fish of Common guillemots. The fish has already been collected by the Institute of Marine Research in Lysekil. The fish will be analyzed using a bomb calorimeter by the student. This work will take place in Ultuna, Uppsala. The data obtained will be analyzed statistically. The project is planned for Bachelor's level (15 ECTS) but can be expanded into a Master's project as well (30–60 ECTS).

Links www.balticseabird.com www.storakarlso.se

Jonas Hentati Sundberg, Researcher Department of Aquatic Resources, Institute of Marine Research, SLU [email protected] , +46 10 478 40 70 , +46 739-38 79 69

Ecology and management of the European eel

Bachelor projects in biology (15 ects), ecology and management of the european eel, several projects available.

The European eel, Anguilla anguilla , is red listed as critically endangered due to a steep population decline. Current management efforts aim to reverse this negative development. There are many knowledge gaps regarding everything from ecology, behaviour, and physiology to development of stock assessment parameters. You can help us fill these knowledge gaps!

We have a great variety of bachelor degree projects and research training/internship related to evaluating and synthesizing information about ecology, management and data collection of the European eel. There are also opportunities to assist in lab work and field activities, such as tagging, fyke-net fishing, dissections, and more (although keep in mind that this can be difficult to fit within a 15 hp project!).

Project examples

Evaluating tagging and tracking data of eels in river systems, lakes and in the sea. Students can be involved in the tagging and tracking procedures, depending on time availability. Topics that can be addressed include survival (fisheries induced survival, hydropower induced mortality), movement, long distance migration, etc.
Improve data collection programs. To monitor the eel stock, data is collected on a number of variables, such as landings, individual length, parasite prevalence, age, etc. Since data collection is time consuming and costly it is important that it is efficient. Any improvements that can be made to the monitoring programs are highly valuable, including 3R aspects.
Evaluation of management activities such as restocking and fisheries regulations.
Behavioural and physiological studies.

The work will be supervised by Dr Josefin Sundin and Dr Philip Jacobson. Depending on the project, the student should have an interest in fish ecology, behavioural ecology, fisheries science, data analysis, statistics, and scientific writing.

At the Swedish University of Agricultural Sciences (SLU Aqua) in Drottningholm (Stockholm), Uppsala-Ultuna, or Öregrund. Several projects can also be done online.

Josefin Sundin, Researcher Department of Aquatic Resources, Institute of Freshwater Research, SLU [email protected] , +46 10 478 42 24

Philip Jacobson, Researcher Department of Aquatic Resources, Unit Diadromous Species [email protected] , +460104784278, +46722438879

Does reed harvesting affect insect production?

In this project you will compare insect biodiversity between two Baltic bays, one where the reed ( Phragmites australis ) bed has been harvested, and the other un-changed as a control. Over the past years, we have compared changes in bird, fish and macrophyte communities. Now, we will additionally survey insect biodiversity in the same locations. We are looking for a motivated student to collect, process and analyse insect samples, dependent on timing of your thesis.

The common reed ( Phragmites australis ) is a habitat forming emerging plant found on Baltic and freshwater shorelines. Reed, like trees in a forest, many important ecological functions such as structure, shelter and a source of food for numerous fish, birds, insects and mammals. However, increasing eutrophication has caused reed to invade new habitats and form large monocultures with low biodiversity. The harvesting of reed has the potential to combat monoculture formation and restore habitat heterogeneity, thereby benefiting ecosystems functions and services where reed has become too dense and/or invaded.

In this project, we investigate the impact of reed harvesting on biodiversity by performing surveys of fish, bird, insect and macrophytes in a reed harvested area, and comparing this with the same surveys at a nearby control site. For insects, we will use emergence ans/or swimming traps to collect insects in the two contrasting areas. We are also happy to discuss new or other ideas within the topic of reed harvesting effects on the ecosystem. Field studies are based in Harg, near Östhammar, with office space available at Ultuna, Uppsala. Feel free to contact with any questions, or if you are interested in doing a bachelor thesis within this project!

William Ashworth,Doctoral student Department of Aquatic Resources, Institute of Coastal Research, SLU [email protected] , +46 10 478 41 68

Örjan Östman, Senior Lecturer, Director of Studies - basic education Department of Aquatic Resources, SLU [email protected] , +46 10 478 41 53

Fish and aquacultural science
Genetics and breeding
Climate research
Natural science
Fish and wildlife management

IMAGES

A New Approach to Environmental Education Essay Example
Journal of Environmental Education
Assessing impacts of locally designed environmental education projects
(PDF) Elements of Effective Environmental Education Programs
Environmental Literacy in Environmentally Themed Higher Education
(PDF) Evaluating the Environmental Awareness and Practices of Senior

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COMMENTS

Environmental education outcomes for conservation: A systematic review
Thomas et al.'s (2018) review of 79 evaluations of conservation education programs reported cognitive, behavioral, social, and ecological outcomes. Thomas et al. (2018) also discussed a need for improved links among the environmental issues that programs addressed, metrics of program effectiveness, and actual outcomes measured and reported.
(PDF) Environmental-Education-and-Its-Effects-on-Environmental
Environmental education (EE) for sustainable dev elopment remains a valuable subject of contemporary. society, which is characterized with environmental issues such as climate change, pollution ...
Environmental Studies Theses and Dissertations
The Holy Oak School of Art and Ecology: A Proposal for Arts-Based Environmental Education Programming Best, Krysta ( University of Oregon , 2021-11-23 ) The following is a proposal for arts-based environmental education programming in elementary schools, after-school programs, and day-camp programs, entitled the Holy School of Art and Ecology.
Does environmental education benefit environmental outcomes in children
Environmental education may not be ideally suited to help overcome such environmental disengagement, especially because it is hard to align education-based interventions with middle adolescents' developmental needs (Eames et al., 2018; Yeager et al., 2018). Traditionally, environmental education programs often seek to explain what ...
Environmental Education Research
Environmental Education Research advances research-based and scholarly understandings of environmental and sustainability education. Access provided by National Association of Early Childhood Educators (NAECTE) ... Extended essays and surveys, e.g., a literature review (typically 10,000-15,000 words); ...
The Journal of Environmental Education
The Journal of Environmental Education ( JEE) is a bimonthly, international forum for critical and constructive debate on all aspects of research, theory and praxis in environmental and sustainability education and related areas.The journal publishes refereed research papers that include quantitative, qualitative, mixed, and post-qualitative, as well as philosophical and theoretical analyses.
Research Methods for Environmental Education
At "Environmental education is the process of recognizing values and clarifying concepts to develop skills and attitudes necessary to understand and appreciate the inter-relatedness among man [sic], his culture, and his biophysical surroundings.Environmental education also entails practice in decision-making and self-formulation of a code of behaviour about issues concerning environmental ...
PDF Environmental Education: Improving Student Achievement
A Thesis Submitted in partial fulfillment of the requirements for the degree Master of Environmental Studies The Evergreen State College ... 5 Elements of environmental education by Klimov and Ukolov 11 6 A dynamic model of environmental education adopted from Palmer 13
PDF Understanding the Needs of Educators in Environmental Education Programming
thesis contains an extensive literature review relevant to the local environment in San Antonio, Texas, equity in access to education in borderland regions, educator training, and environmental ... integrate environmental education into non-science subjects, use environmental concepts to teach other concepts, use nature-based learning to ...
PDF Methods of Successful Learning in Environmental Education
In Bulgarian practice, quantitative assessment is represented by marks from 2 to. 6. A mark of 2 means failure, 3 is a pass and means satisfactory, 4 means good achievement, 5 means very good achievement, and a mark of 6 means excellent achievement. Each student received a mark for his or her performance on each task.
PDF The Effect of Environmental Education on Variables Influential to
1.1: History of Environmental Education Since the mid-1970's, many environmental education (EE ) pr ograms have been implemented with the goal of encouraging environmentally friendly behavior (EF B). Two conferences were influential in placing emphasis on EE to encourage a more
PDF Navigating Environmental Education Practices to Promote Environmental
Environmental education is, therefore, necessary to teach and learn. Teaching students to act for the environment is essential. Its aim is to develop an informed citizenry that is environmentally conscious and motivated to actively participate in managing and sustainable use of its environment. This led to the integration
Environmental Studies Program
Examining the Psychology and Human Behavior of Sustainable Living: The Impact of Socioeconomic Status on Climate Change Education, Samantha Nielsen. PDF. GENDER AND ENVIRONMENTAL SUSTAINABILITY: A CROSS-NATIONAL ANALYSIS ON POLITICAL REPRESENTATION OF WOMEN AND SUBSEQUENT STATE SUSTAINABILITY, Erin O'Sullivan. PDF
PDF A Comparative Analysis of Environmental Education in
of Environmental Education in 1981, finding it to be an unnecessary expenditure in the federal budget. While the Environmental Education Act of 1970 only remained in effect for eleven years, it was able to make a lasting impact on national agenda priorities and the public's views on the importance of environmental education in schools.
Environmental Conservation Masters Theses Collection
Theses from 2024 PDF. Effects of Habitat, Density, and Climate on Moose and Winter Tick Ecology in the northeastern U.S., Juliana Berube, Environmental Conservation PDF. Adaptive Silviculture for Wildlife: Supporting Forest Biodiversity Through Climate Adaptation, Jahiya Clark, Environmental Conservation. PDF
Student Theses 2001-2013
The Environmental Studies major incorporates original research in courses, internships, study abroad and the senior thesis, as well as presentation of research at the annual Fordham University Undergraduate Research Symposium and publication in the Fordham Undergraduate Research Journal. Below are publications of senior theses from current and ...
Dissertations / Theses: 'Environmental education
Environmental Education in Rural Development, A Case Study in Mecubúri District, Mozambique, Master's Thesis in Peace and Development Work, Linnaeus University, Växjö, Sweden This masters' thesis is a result of research conducted during three weeks in Mecubúri District, located in northern Mozambique.
EDUCATION, ENVIRONMENTAL ATTITUDES AND THE DESIGN
S K E T C H. Traci Rose Rider was born and raised in Southwest Ohio. She worked across the country in a variety of different design firms while in pursuit of her Bachelors of Architecture, which she received from the University of Cincinnati in 2000. After graduation, she relocated to Houston, Texas, to work for HO+K Architects and to escape ...
LearnTechLib: Dissertations for Environmental Education
The development of a community awareness campaign for a local non-profit environmental education organization: The Clark Fork Watershed Education Program. Master's thesis, Montana Tech of The University of Montana. View Abstract.
PDF A Content Analysis Related to Theses in Environmental Education: The
dissertations. There is a need of determination the general framework on environmental education, because lots of studies have been conducted on the subject. In this context, research problem of this research is; "What is the trend in master thesis and doctoral dissertations about environmental education in the years 2011-2015 in Turkey?"
(PDF) Environmental Awareness, Practices, and Attitudes ...
Environmental awareness through education, particularly the youth who bear the future responsibility for the stewardship of the environment and pass on their knowledge to future generations is a ...
100+ Environmental Science Research Topics
Finding and choosing a strong research topic is the critical first step when it comes to crafting a high-quality dissertation, thesis or research project. Here, we'll explore a variety research ideas and topic thought-starters related to various environmental science disciplines, including ecology, oceanography, hydrology, geology, soil science, environmental chemistry, environmental ...
Environmental Education, Thesis
Overview. Environmental Education, Thesis from Western Washington University is to be broad and inclusive. The goal of environmental education, in the words of the 1976 Belgrade Charter that saw the international spread of the profession, is "to develop a world population that is aware of, and concerned about, the environment and its associated problems, and which has the knowledge, skills ...
Thesis Work in biology, environmental science or sustainable
Thesis work in biology or environmental science at the Department of Aquatic Resources, Swedish University of Agricultural Sciences ... Depending on previous education and interest the thesis can either be in ecology or environmental analysis and there is room for reserach questions of your own making. The extent is flexibel and the thesis can ...

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Research Methods for Environmental Education

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The relational, the critical, and the existential: three strands and accompanying challenges for extending the theory of environmental education

Do Experiences with Nature Promote Learning? Converging Evidence of a Cause-And-Effect Relationship

A Typology of Research Paradigms and Sources of Knowledge in Educational Research

1.1 Instrumental Research Utilization

1.2 Conceptual Research Utilization

1.3 Symbolic Research Utilization

2 Types of Environmental Education Research

2.1 International Periodicals

2.2 Local Periodicals

2.3 Research on Environmental Education

2.3.1 Theme of Environmental Education

2.3.2 Proposals for Environmental Education

2.3.3 Research Directions of Environmental Education

3 Research on the History of Environmental Education

3.1 The Rise of Environmental Education

3.2 The Construction of Environmental Education

3.3 Ideology of the Declaration on Environmental Education

3.4 The Practical Power of Environmental Education

3.5 Reflection on Environmental Education

Box 3.1 Examples of Environmental Action Research in Taiwan in the 1990s

4 Quantitative Research on Environmental Education

4.1 Preparation and Measurement of Questionnaires and Tests

4.2 The Experimental Research Methods of Environmental Education

4.2.1 Observation and Formation of the Topic

4.2.2 Quasi-experimental Research Method of Environmental Education

4.3 Reliability and Validity Analysis

4.3.2 Content Validity

4.3.3 Criterion-Related Validity

4.3.4 Construct Validity

4.3.5 Degree of Difficulty

4.3.6 Discrimination

4.4 Retrospective Research

4.5 Relevance Research

4.6 Data Analysis, Interpretation and Application, Presentation of Research Results

4.7 The Research Method of Delphi

5 Qualitative Research on Environmental Education

5.1 Interview

5.1.1 Non-structured Interview

5.1.2 Structured Interview

5.1.3 Semi-structured Interview

5.1.4 Focus Groups Interview

5.2 Observation

5.2.1 Participatory Observation

5.2.2 Direct Observation

5.2.3 Indirect Observation

5.3 Grounded Theory

5.4 Action Research

5.5 Ethnography

5.6 Content Analysis

6 Promotion of Environmental Education Theory

6.1 Theoretical Expansion and Practice

6.2 Integration of Environmental Disciplines

6.3 Integration of Environmental Education Disciplines

6.3.1 The Bloom-Style Learning Method

6.3.2 The Hungerford-Style Learning Method

6.4 Learning Method of ABC Emotion Theory

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DigitalCommons@University of Nebraska - Lincoln

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