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Mulu, Fesseha, i Yohannes Eshetu. "Beyond Science and Technology: The need to incorporate Environmental Ethics to solve Environmental Problems". Üniversitepark Bülten 7, nr 1 (15.06.2018): 66–75. http://dx.doi.org/10.22521/unibulletin.2018.71.6.
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YAMAMOTO, ISAROKU. "Problems of environmental science." RESOURCES PROCESSING 42, nr 3 (1995): 153–54. http://dx.doi.org/10.4144/rpsj1986.42.153.
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Noviks, Gotfrids. "System Analysis in the Environmental Science". Environment. Technology. Resources. Proceedings of the International Scientific and Practical Conference 1 (5.08.2015): 120. http://dx.doi.org/10.17770/etr2011vol1.911.
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The paper discusses the essence, structure, research objects, methods and aims of the environmental science. Due to interdisciplinary character of the environmental science, large scale term and vague boundaries with other sciences there are various definitions of environmental science and different concepts, sometime delusions in research fields and methods . Author analysed the current location of research objects in environmental science and their connection with other sciences and came to conclusion that up to nowadays there are not developed essential part of every independent science yet – general theoretical base of environmental science. It is necessary to find out perfect proper research fields and objects of environmental science, which differ from other natural , and technical sciencies. Analysis showed that the objects of environmental science must be neither nature nor technology itself but only contact zones between technosphere and biosphere –namely, between systems – technosystems and ecosystems . Exactly in these contact zones arises most environmental problems , conflicts and stresses between human activities and nature. The properties and processes in these zones obey to laws which must be determined, interpreted and used for mankind wealth. It is the aim of environmental science and the complex system analysis must be essential research methodology and accordingly system engineering as instrument for solving practical environmental problems.
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SHIMOMURA, Masatsugu. "Surface Science and Environmental Problems". Hyomen Kagaku 36, nr 12 (2015): 644–46. http://dx.doi.org/10.1380/jsssj.36.644.
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Situmorang, Rospita Odorlina P., Ta-Ching Liang i Shu-Chun Chang. "The Difference of Knowledge and Behavior of College Students on Plastic Waste Problems". Sustainability 12, nr 19 (23.09.2020): 7851. http://dx.doi.org/10.3390/su12197851.
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Environmental education in the academic level is the most effective way to increase environmental awareness of college students particularly in handling plastic waste problems. This study aimed to compare the student’s knowledge and behavior on plastic waste problem between environmental science and social science students and to examine the correlation of knowledge and behavior to reduce plastic waste. Through survey of 98 students of National Chung Hsing University, Taichung, Taiwan, we compared the students’ knowledge and behavior on plastic waste problems by t-Test and Chi-square analysis, and we used Kendall’s rank correlation to evaluate the correlation of knowledge and behavior. This study found that the differences in majors resulted in the significant differences in knowledge on the negative impacts of plastic waste, where the students who are majoring in environmental sciences have higher score than the students in social science. Relating behaviors, the differences in majors also resulted in the significant different behaviors to reduce plastic usage, where the students with major in environmental sciences have the better behavior to reduce plastic usage for daily life than the social science students. These behaviors were shown in purchasing products with plastic packaging, preparing shopping bag, re-using plastic bags, taking own meal box, and having food on the sites to reduce single used plastic package. This study also found the positive correlation between environmental knowledge on plastic waste and behavior to reduce plastic waste in the daily life.
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Melnichenko, P. I., A. M. Bolshakov, Vladimir D. Meleshenko, I. K. Ostapovich i T. M. Khodykina. "ECOLOGY AND PREVENTIVE MEDICINE: PROBLEMS OF INTERACTION". Hygiene and sanitation 98, nr 4 (28.10.2019): 353–58. http://dx.doi.org/10.18821/0016-9900-2019-98-4-353-358.
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The authors made an attempt to show the differentiation and integration of preventive medical Sciences and ecological disciplines as a complex dialectical process characteristic for the development of the science of the late 20th - early 21st centuries, and to analyze the methodological links of preventive medical Sciences with numerous ecological disciplines developed in recent decades. The article deals with the processes of formation of new ecological disciplines studying the system “environment - human”, a comparative analysis of preventive medical and environmental Sciences on their goals, subjects and objects of study. The study of the environmental impact on human health was shown to be carried out by already formed medical Sciences, and primarily preventive orientation (General hygiene, Social hygiene, Communal hygiene, Food hygiene, Occupational health, Military hygiene, Radiation hygiene, etc.), having accumulated considerable experience in the areas of knowledge studied by them. Disciplines arising from the differentiation of the environment and studying the preservation of life and health, in essence, duplicate preventive medical Sciences, which inevitably leads to the repetition of the path and does not give the desired results in the increment and development of new scientific knowledge. At the same time, the process of interaction and unification of efforts of preventive medical Sciences and environmental disciplines can make a significant contribution to the successful solution of such important state tasks as the preservation of public health and environmental protection from the negative impact of anthropogenic factors. The application of a systematic interdisciplinary approach in the interaction of preventive medical Sciences and environmental disciplines involves the presence of scientific facts, a complex of deep knowledge in the areas under study, the development of a number of theories, as well as the analysis of environmental and medical problems.
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박진희 i 강윤재. "Environmental Problems, Citizen Knowledge, and Citizen Science: Chance and Challenges of Citizen Science in Environmental Problems". Environmental Philosophy ll, nr 25 (czerwiec 2018): 93–124. http://dx.doi.org/10.35146/jecoph.2018..25.004.
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Bammer, Gabriele. "Should science communication become part of a discipline of integration and implementation sciences (i2S)?" Journal of Science Communication 19, nr 04 (1.09.2020): C04. http://dx.doi.org/10.22323/2.19040304.
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Science communication is essential for inter- and trans-disciplinary research on complex societal and environmental problems. Two aspects are explored as examples: 1) helping teams understand the systemic nature of such problems and 2) helping collaborations run effectively. Integration and implementation sciences (i2S) is a new discipline that addresses such aspects of dealing with complex problems that, notably, are not covered by existing disciplines. By becoming part of i2S, science communication will be linked with other communities of practice, resulting in an overall improvement in the ability of research to effectively contribute to tackling complex societal and environmental problems.
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ΔΗΜΗΤΡΙΑΔΗΣ, Α. "Environmental geology: Branch of geosciences or a marketing term?" Bulletin of the Geological Society of Greece 34, nr 3 (1.01.2001): 1101. http://dx.doi.org/10.12681/bgsg.17167.
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Environmental Geology is considered to have been coined for the environmental sensitive market. It originated in the United States in the late 1960's to attract students to save the closure of University Geology Departments. After almost thirty years there are still questions about its viability as a stand alone branch of geological sciences, since by definition it encompasses all the specialised branches of engineering geology, economic geology, structural geology, hydrogeology, geochemistry, geophysics, etc. The environmental geologist must, therefore, be a "super geologist", which is an impossibility by present day standards. University curricula in Environmental Geology still teach the basic geological subjects of geology degrees, since these serve as a strong foundation for courses in the environmental field. In the United States, students are required to take at least four elective courses in environmentally orientated earth science subjects during their first degree. Whereas in the United Kingdom a Master of Science course in environmental subjects is recommended as a follow-up to the first degree in Environmental Geology, again a misnomer for the degree in pure Geology. It is quite apparent that Universities jumped on the bandwagon of the environmental market, without serious thought into what they were embarking. They created a non-existent market orientated branch of geological sciences, Environmental Geology, and they subsequently realised that it is impossible to produce the "super student" and the "super geologist", for this is what is in fact demanded. It is strongly believed, that specialists in the different branches of geological sciences, because of their in depth study of the natural geological environment and its processes, have considerable knowledge and expertise to be applied in the solution of environmental problems. This must, therefore, be advertised by both Universities and State Geological Surveys, for advertising is a more powerful tool of getting the message across to the public and to policy-makers, rather than by making up new branches of science with no content.
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Xu, By Li, i Bin Zhao. "Global environmental health: an interview with Sally Perreault Darney". National Science Review 3, nr 4 (1.12.2016): 459–62. http://dx.doi.org/10.1093/nsr/nww095.
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Abstract Pollution-induced health problems are of concern across the world. In China, the recent and rapid surge of economic development has been associated with public health problems as well as environmental degradation. We recently spoke with Sally Perreault Darney, Ph.D., the Editor-in-Chief of Environmental Health Perspectives (EHP), the foremost journal about environmental health. Published by the National Institute of Environmental Health Sciences (NIEHS), a part of the US National Institutes of Health, this fully open-access journal publishes peer-reviewed research and commentary, as well news and opinion across the many disciplines that contribute to the field of environmental health, including toxicology, epidemiology, risk assessment and exposure science. We wanted to learn her perspectives on the role that research plays in defining and solving environmental health problems in today's world. Dr. Darney holds a Ph.D. in Biomedical Science and enjoyed a productive research career in the US Environmental Protection Agency (EPA)'s Office of Research and Development, before joining NIEHS in 2015.
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FUKUOKA, Masako. "Advanced science and technology, and environmental problems." Journal of Environmental Conservation Engineering 18, nr 8 (1989): 512–15. http://dx.doi.org/10.5956/jriet.18.512.
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Isobe, S. "Astronomy to understand a human environment". International Astronomical Union Colloquium 162 (1998): 211–13. http://dx.doi.org/10.1017/s0252921100115118.
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Astronomy is an important science in understanding a human environment. However, it is thought by most politicians, economists, and members of the public that astronomy is a pure science having no contribution to daily human activities except a few matters relating to time. The Japanese government is studying a reorganisation of our school system to have 5 school days per week, instead of 6 days per week, and this July its committee made a recommendation to reduce school hours for science and set up new courses for practical computers and environmental science. I currently made a proposal. It is very difficult for most of the school pupils, who will have non-scientific jobs, to understand science courses currently taught in school, because each science is taught independently from the other sciences. Therefore, their knowledge of sciences obtained during their school period does not greatly help their understanding of global environmental problems.
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Cylke, F. Kurt. "Environmental Problems and the Social Sciences". College Teaching 43, nr 3 (lipiec 1995): 112–15. http://dx.doi.org/10.1080/87567555.1995.9925528.
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Cannon, Clare E. B. "Towards Convergence: How to Do Transdisciplinary Environmental Health Disparities Research". International Journal of Environmental Research and Public Health 17, nr 7 (29.03.2020): 2303. http://dx.doi.org/10.3390/ijerph17072303.
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Increasingly, funders (i.e., national, public funders, such as the National Institutes of Health and National Science Foundation in the U.S.) and scholars agree that single disciplines are ill equipped to study the pressing social, health, and environmental problems we face alone, particularly environmental exposures, increasing health disparities, and climate change. To better understand these pressing social problems, funders and scholars have advocated for transdisciplinary approaches in order to harness the analytical power of diverse and multiple disciplines to tackle these problems and improve our understanding. However, few studies look into how to conduct such research. To this end, this article provides a review of transdisciplinary science, particularly as it relates to environmental research and public health. To further the field, this article provides in-depth information on how to conduct transdisciplinary research. Using the case of a transdisciplinary, community-based, participatory action, environmental health disparities study in California’s Central Valley provides an in-depth look at how to do transdisciplinary research. Working with researchers from the fields of social sciences, public health, biological engineering, and land, air, and water resources, this study aims to answer community residents’ questions related to the health disparities they face due to environmental exposure. Through this case study, I articulate not only the logistics of how to conduct transdisciplinary research but also the logics. The implications for transdisciplinary methodologies in health disparity research are further discussed, particularly in the context of team science and convergence science.
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Cekovic, Zivorad. "Challenges for chemical sciences in the 21st century". Chemical Industry 58, nr 4 (2004): 151–57. http://dx.doi.org/10.2298/hemind0404151c.
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Chemistry and chemical engineering have changed very significantly in the last half century. From classical sciences they have broadened their scope into biology, medicine, physics, material science, nanotechnology, computation and advanced methods of process engineering and control. The applications of chemical compounds, materials and knowledge have also dramatically increased. The development of chemical sciences in the scientifically most advanced countries, at the end of the last century was extrapolated to the next several decades in this review and challenges for chemists and chemical engineers are described. Research, discovery and invention across the entire spectrum of activities in the chemical sciences, from fundamental molecular-level chemistry to large-scale chemical processing technology are summarized. The strong integration of chemical science and engineering into all other natural sciences, agriculture, environmental science, medicine, as well as into physics, material science and information technology is discussed. Some challenges for chemists and chemical engineers are reviewed in the following fields: i) synthesis and manufacturing of chemical products, ii) chemistry for medicine and biology, iii) new materials, iv) chemical and physical transformations of materials, v) chemistry in the solving of energy problems (generation and savings), vi) environmental chemistry: fundamental and practical challenges.
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Varshavsky, A. "Problems of Science and Its Effectiveness". Voprosy Ekonomiki, nr 1 (20.01.2011): 151–57. http://dx.doi.org/10.32609/0042-8736-2011-1-151-157.
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The article considers current problems of Russia´s science. Special attention is paid to external factors that negatively influence its effectiveness including considerable lag in public management sector. The issues of opposing higher education sector to the Russian Academy of Sciences (RAS) are also discussed. A number of indicators of the Russian science and its academic sector effectiveness are presented. The expediency of comparing scientific results with R&D expenditures is shown. The problems connected with using bibliometric methods are discussed. Special attention is paid to the necessity of preserving and further developing Russian science including RAS.
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Zingale, Nicholas C. "From Novice to Expert: Operationalizing Kinds of Knowing in an Environmental Management Setting". Public Voices 10, nr 1 (8.12.2016): 47. http://dx.doi.org/10.22140/pv.136.
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Existing ways of dealing with environmental problems subscribe to (or use) aframework based on a resource model that is enframed in science and technology. As stated by Thomas Kuhn, science theory looks for a change within this framework by following certain rules and standards for scientific practice. This is different from phenomenology. Phenomenology is dedicated to describing the structures of experience as they present themselves in everyday life, without prior recourse to theory, deduction, or assumptions from other disciplines such as the natural sciences/Understanding environmental problems from a phenomenological perspective means developing an alternative model that does not treat the world as a mere resource, but instead as interdependent for drawing on human possibility. Kuhn would accept this view as a paradigm change (Kuhn, 1970). This paper will discuss how broad social paradigms in the form of attitudes affect individual opportunities for change. A model will be presented that theorizes how attitudes are developed both from knowledge and informed know-how gained through science and experience.
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Matsunaga, Tadashi. "Role of science to solve our environmental problems". Clean Technologies and Environmental Policy 7, nr 3 (30.09.2005): 143–44. http://dx.doi.org/10.1007/s10098-005-0008-5.
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Syulasmi, Ammi, Pariama Sihombing, Mr Amprasto i Any Fitriani. "PEMBELAJARAN PENGETAHUAN LINGKUNGAN MENGGUNAKAN METODE PEMECAHAN MASALAH ATAU PROBLEM SOLVING UNTUK MAHASISWA TPB DI JURUSAN PENDIDIKAN BIOLOGI". Jurnal Pengajaran Matematika dan Ilmu Pengetahuan Alam 2, nr 1 (13.01.2015): 18. http://dx.doi.org/10.18269/jpmipa.v2i2.388.
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The result of evaluation on Environmental Science for student of Biology education was still low. The average result obtained from the last 3 years were A = 7,63 %; B = 29,11%; C = 52,83 %; D = 7,11 % and E = 2,25 %. It indicated that the learning process of this subject was not effective enough. Therefore, it has to be though, how to conduct this teaching learning process of Environmental Science learning effectively. Environmental Science is an interdisciplinary science. It allows the student to think in a holistic way. Therefore in this study, problem-solving method is appropriate to apply in this learning process. In the method students were trained how to solve the environmental problem which involving some sciences. Further more along with the development of Environmental Science, it can allow the students to find out information in order to solve the environmental problems. In this learning process of Environmental Science, students have lectures, practical exercises and field works. In the fieldwork, students have to define the environmental problem and how to solve the problem. This fieldwork is supported by field observation, group discussion and paper presentation. In this method, the result is increasing. It can be shown with the student who have: A = 26,66 %; B = 53,33 %; C = 18,33 %; D = 5,0 % and E = 0 %. Keywords: Environmental Science, Problem Solving, and Fieldwork.
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Joselyn, Jo Ann, Alik Ismail-Zadeh, Tom Beer, Harsh Gupta, Masaru Kono, Uri Shamir, Michael Sideris i Kathryn Whaler. "IUGG in the 21st century". History of Geo- and Space Sciences 10, nr 1 (16.04.2019): 73–95. http://dx.doi.org/10.5194/hgss-10-73-2019.
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Abstract. The International Union of Geodesy and Geophysics (IUGG) has vigorously responded to a number of the natural, scientific, and technological challenges and driving forces that have marked the 21st century thus far. This paper reviews the actions of the Union that were precipitated by disasters caused by natural hazard events, climatic and environmental changes, and important scientific advances, as well as the opportunities to support International Years and other cooperative programs. This period has also given rise to a number of structural changes within the Union. IUGG added an eighth association, the International Association of Cryospheric Sciences, and inaugurated the new categories of affiliate and honorary memberships, introduced new grants, science education, and recognition programs, and formed new Union commissions on climatic and environmental change, data and information, planetary sciences, and a working group on history. Electronic communication was welcomed as a cultural norm. Overall, the development of the scientific landscape in the 21st century and a healthy future for the Union requires emphasis on fundamental Earth and space sciences as well as on transdisciplinary science to resolve urgent problems of society. IUGG will continue to evolve throughout the coming decades in step with the changing world of science and its international organizations, by responding to challenging problems as they arise.
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Zocher, Joella L., i R. Justin Hougham. "Implementing Ecopedagogy as an Experiential Approach to Decolonizing Science Education". Journal of Experiential Education 43, nr 3 (28.02.2020): 232–47. http://dx.doi.org/10.1177/1053825920908615.
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Background: The field of environmental education (EE) aims to produce an environmentally literate citizenry that is not only aware of environmental problems but is motivated to work toward their solution. However, much of the U.S. EE curricular focus has been on understanding the biophysical environment with rural populations, with little discussion about the environmental problems created by the dominant Western cultural norms. Purpose: Freire’s ecopedagogical framework provides a framework for this discourse, yet there are few studies exploring how to put the theory to action. Experiential education’s principles of practice provide a platform to help environmental educators make this shift. Methodology/Approach: This mixed-methods participatory action research study includes observations, 71 document reviews, 29 interviews, and 15 surveys. Findings/Conclusions: This study presents two unique curricular interventions that aim to disrupt cultural patterns of environmental oppression through the use of ecopedagogy. Implications: This work expands on conclusions drawn in research by Smith and Segbers which recommended both transcultural pedagogy and a willingness to move beyond traditional models of curricula. Specifically, White environmental educators and researchers must rise to the challenge of adopting and innovating ecopedagogies that empower youth to explore solutions in their communities.
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Paul, P. K., P. S. Aithal i A. Bhuimali. "Environmental Informatics and Educational Opportunities in Post Graduate level—Indian Potentialities based on International Scenario". IRA-International Journal of Management & Social Sciences (ISSN 2455-2267) 16, nr 2 (19.06.2020): 45. http://dx.doi.org/10.21013/jmss.v16.n2.p2.
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The academic sector is changing rapidly and different components have been added in the academic components. The education systems including academic bodies, programs, educational institutes change different aspects in the recent past. The interdisciplinary sciences are booming internationally. Among the interdisciplinary subjects, Environmental Sciences is an important one. On the other hand, Information Science is also truly interdisciplinary. This Information Science is also called as Informatics. The fusion or combination of these two subjects led the new academic body called ‘Environmental Informatics’. Environmental Informatics is very close with exiting field Geo-Informatics and thus it is also called as an extension of Geo-Informatics. Environmental Informatics is the solution to different environmental affairs, issues, problems, etc. Internationally, many universities have started academic programs on Environmental Informatics leading to Certificate, Diploma, Bachelors, Masters, MPhil, PhD in the subject. The present paper is an overview of Environmental Informatics including its features, functions, stakeholders emphasizing the availability of Post Graduate Programs in the field. Paper highlighted the course contents, job prospects, carrier opportunities in brief. Paper also proposed the possible programs at Masters levels; which can be a good solution both for abroad and the Indian education system.
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Chaitanya, Krishna P., i Nagabhushana M. Rao. "Data Science: Reducing Environmental Complexities". Journal of Computational and Theoretical Nanoscience 16, nr 2 (1.02.2019): 729–34. http://dx.doi.org/10.1166/jctn.2019.7799.
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Data Science has been developed as an impressive new scientific field, related disputes and considerations have pursued to address why science in general needs data science. However, few such arguments concern the intrinsic complexities and intelligence in data science. As data science pay attention to efficient understanding of complex data and business related problems. The primary objective of data science is exploration of the complexities. Among these complexities, Environmental complexities are an important factor. By using algorithms, these complexities can be reduced.
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Crane, Mark, i Michael C. Newman. "Scientific method in environmental toxicology". Environmental Reviews 4, nr 2 (1.04.1996): 112–22. http://dx.doi.org/10.1139/a96-007.
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Environmental toxicologists, like all scientists, are presented with choices over the philosophical frameworks within which they work. However, most scientists do not receive formal training in scientific method and this may lead to inappropriate choices. The use of inductive and hypothetico-deductive approaches in science is described and the problems of each are discussed. Problems with induction include logical circularity and the selection of appropriate observations. Problems with hypothetico-deduction include generalizing from deductions, true predictions from false theories, the falsification of true theories, criteria for theory rejection, practical application in some sciences, and the potentially large number of unrefuted theories. Problems shared by both induction and hypothetico-deduction are the theory dependence of observations and the ahistorical nature of both of these explanations of scientific justification. The role of induction and hypothetico-deduction in environmental toxicology is discussed. Environmental toxicologists face two types of problems: (i) monitoring of the current fate and effect of a chemical, which is a historical and local problem that may often best be solved by an emphasis on hypothetico-deductive techniques; and (ii) prediction of the future fate and effects of chemicals, which usually has the objective of general applicability across time, species, and habitats, and may best be solved by an emphasis on inductive techniques. The systematic combination of both induction and hypothetico-deduction within a pluralistic framework is likely to yield the greatest progress in most areas of environmental toxicology.Key words: scientific method, induction, hypothetico-deduction, monitoring, prediction.
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Kou, Xian Juan, i Ke Yin Shen. "Study on the Ecological Environmental Problems of the Big Sport Events in China". Applied Mechanics and Materials 675-677 (październik 2014): 1044–47. http://dx.doi.org/10.4028/www.scientific.net/amm.675-677.1044.
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This paper invest environmental science and practice of the Beijing Olympics through literature research, expert interviews, case studies and fields surveys and other methods, while referring to other environmental protection of major sports events, study environment questions in major sports events, and explore patterns of major sports events environmental protection. We suggest that hosting major sports events will bring ecological and environmental problems of air pollution, water pollution, and other pollution. We need to establish the concept of sustainable development of protecting environment and maintaining ecological balance in the process of organizing large-scale sporting event, and after the game .At the same time, to develop environmental events planning, implementation, monitoring mechanisms, rational planning of venue construction, improve the utilization of the venue after the game. We should make full use of environmentally friendly energy-saving technology, strengthen the host city for environmental pollution control.
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Sawyer, Robert F. "Science based policy for addressing energy and environmental problems". Proceedings of the Combustion Institute 32, nr 1 (2009): 45–56. http://dx.doi.org/10.1016/j.proci.2008.07.003.
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Kadiyala, Akhil, i Ashok Kumar. "Applications of R to evaluate environmental data science problems". Environmental Progress & Sustainable Energy 36, nr 5 (21.06.2017): 1358–64. http://dx.doi.org/10.1002/ep.12676.
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Kadiyala, Akhil, i Ashok Kumar. "Applications of Python to evaluate environmental data science problems". Environmental Progress & Sustainable Energy 36, nr 6 (31.10.2017): 1580–86. http://dx.doi.org/10.1002/ep.12786.
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Rei, Fernando Cardozo Fernandes. "INTERNATIONAL ENVIRONMENTAL LAW AND GLOBAL ENVIRONMENTAL GOVERNANCE: SOUTHERN INFLUENCES." Veredas do Direito: Direito Ambiental e Desenvolvimento Sustentável 15, nr 32 (5.09.2018): 143–65. http://dx.doi.org/10.18623/rvd.v15i32.1257.
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The purpose of this article when it discusses the southern approaches brought to global governance gets mixed with the addressing of the challenges facing the legal science in harmony with the others sciences to deal with the complex environmental issues of the 21st century. Thinking of a successful international environmental regulation is talking about an effort to understand the need for the instrumental law to comply with its role to solve complex issues that are typical of the construction of a sustainable society. The first part of the article consider that the international environmental law has been facing the emerging global environmental issues in an innovating way, incorporating a new form of global environmental governance based on which new players are brought to the discussion and implementation of measures to face environmental problems. After that, the article highlights the southern actions in the role of the scientific expertise and in the environmental paradiplomacy, and evaluates the influence and contributions in the decision making scenario and in the news perspectives of international law. The article concludes that the southern influences suggest a more pragmatic, finalistic international law that is concerned about the results, the achievement of the goals proposed
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Yucel, Elif Ozata, i Muhlis Ozkan. "Determining the perceptions of pre-service science teachers regarding environmental problems through word association". International Journal of Learning and Teaching 8, nr 3 (31.10.2016): 164. http://dx.doi.org/10.18844/ijlt.v8i3.610.
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In this study, Word Association Test (WAT) was administered to 123 people in order to determine the perceptions of pre-service science teachers regarding environmental problems. “Environmental Problems” was given as a key word to the pre-service teachers, and they were asked to write what came to their minds on WAT and make one sentence about this concept. The responses concerning the key word were examined under six themes: “causes”, “effects”, “types”, “measures”, “worry/pessimism”, and “other”. The pre-service teachers were seen to have stronger cognitive structures about the causes of environmental problems in comparison to other themes. Most participants confused the concepts of environmental problem and environmental pollution. They mostly focused on the effects of environmental problems on human beings and had worry and pessimism. Emphases laid by the pre-service teachers on environmental awareness, consciousness, and love in regard to the measures that can be taken against environmental problems demonstrate that they think education is important for the solution of environmental problems. The research results reveal that perceptions regarding environmental problems are not adequate among the pre-service science teachers. This lack of perception among the pre-service science teachers, who are to play an important part in raising environmental awareness, can be eliminated only through an effective environmental education. Keywords: Perception of Environmental Problems, Environmental Education, Science, Word Association, Pre-Service Teachers
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Martín Ezpeleta, Antonio, i Yolanda Echegoyen Sanz. "Environmental Humanities in pre-service teachers' Education". Journal of Education Culture and Society 9, nr 2 (5.09.2018): 52–64. http://dx.doi.org/10.15503/jecs20182.52.64.
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Aim: The aim of the reserch is to explore the possibility of integrating Sciences and Humanities in the Faculty of Education using Ecocriticism books and literary workshops with didactic activities of interdisciplinary nature.
Methods: The experience was carried out with 100 students of the Faculty of Education of the University of Valencia from the subjects “Natural Sciences for teachers” and “Literary training for teachers”, where different didactic activities around two literary works, a novel and a short story, were proposed.
Results: After the activities, the vast mayority of the students consider that Literature can help to learn Science. 41'7% of the students of “Literary training for teachers” and 62.5% of “Natural Sciences for teachers” consider the integration of Sciences and Humanities in class “very important”; and 55.6% and 29.2% “quite important”. More than 90% of the students said they were “very” or “quite” conscious of sustainability and environmental protection, although the percentages vary slightly between the two classes.
Conclusion: With this study we have shown that Ecocriticism and Education are two interlinked concepts, in the same way that literature and society are. Using the socializing function of literature is when we can have greater educational performance in the current classrooms, because it allows the students to connect their reality with the texts. These ecocriticism works are a first-order didactic resource to raise awareness about environmental and sustainability problems in pre-service teachers that will transmit the message to their future students.
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Fettahlıoğlu, Pınar. "The Effects of Argumentation Implementation on Environmental Education Self Efficacy Beliefs and Perspectives According to Environmental Problems". Journal of Education and Training Studies 6, nr 4 (23.03.2018): 199. http://dx.doi.org/10.11114/jets.v6i4.2925.
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The purpose of this study is to investigate the effect of argumentation implementation applied in the environmental science course on science teacher candidates’ environmental education self-efficacy beliefs and perspectives according to environmental problems. In this mixed method research study, convergent parallel design was utilized. Quantitative part of this study was based upon one group pretest-posttest design. Qualitative part of this study was based upon holistic case study. The sample of the study consisted of 26 3rd year science teacher candidates in A State University Education Faculty Science Education Department in the spring term of 2013-2014 academic years. The data collection tools were environmental education self-efficacy beliefs scale developed by Ozdemir, Aydın and Vural (2009) and drawings drawn by science teacher candidates to determine their perspectives on environmental problems. The experimental study took 7 weeks (21 hours). The first week involved the acquaintance with the students and briefing them about the study. Also, in this week, an educational plan related to the argumentation implementation was prepared and applied. And this week finally, scales were administered as pretest. The study started in the second week. The study took five weeks as three hours a week. Last week scales were administered as posttest. In quantitative data analysis paired samples t-test was used. For the analysis of qualitative data, categorical analysis technique, one of the content analysis techniques, was used. At the end of the study, it was observed that the science teacher candidates’ self-efficacy beliefs according to environmental education statistically differed in favor of the post-test. In addition, it was also found that, at the end of the study, science teacher candidates' perceptions of environmental problems differed according to their self-efficacy beliefs.
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Kızılay, Esra, i Nagihan Tanık Önal. "From the environmental identity to the behavior: The status of pre-service science teachers". International Journal of Evaluation and Research in Education (IJERE) 8, nr 2 (1.06.2019): 271. http://dx.doi.org/10.11591/ijere.v8i2.19581.
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<span>In this research, the environmental identity of pre-service science teachers and their behaviors towards environmental problems were examined according to gender and grade. In the study, a path diagram is formed by evaluating the relationship between the variables. 215 pre-service science teachers of a university in Turkey, have participated in the study. The Environmental Identity Scale and the Environmental Problems Behaviour Scale were used as data collection tools. In the research, it was found that female students' averages environmental identity score was higher than males’ average score. There was no significant difference between pre-service teachers' environmental identity according to grade. It was found that female students’ average behavior score towards environmental problems was significantly higher than the average score of males. In the study, it was found that the average behavior scores towards environmental problems of the pre-service science teachers who are in the third and fourth grade were significantly higher than the average scores of the first and second-grade students. The research revealed a moderate relationship between pre-service science teachers' environmental identity and their behaviors towards environmental problems. 18% of the change in the behaviors of pre-service teachers towards environmental problems can be explained by their environmental identity</span>
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Buch-Hansen, Mogens, Peter Oksen i Sidthinat Prabudhanitisarn. "Rethinking natural resource management in Thailand". Journal of Political Ecology 13, nr 1 (1.12.2006): 48. http://dx.doi.org/10.2458/v13i1.21678.
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Environmental science is shaped by the socio-political context in which it is produced. Environmental problems and explanations are context specific, and this article contributes to a critical political ecology by illustrating the changing relationship between conceptualisation of environmental problems and explanations of them, and the socio-political context in contemporary Thailand. During the 'development epoch' from the 1950s, both natural and social sciences became compartmentalised and the epistemology of environmental science became dominated by the demands of a growth economy and utilitarian values. The resulting impasse of conventional knowledge of natural resource management coincided with a socio-political and bureaucratic reform process pushed by various democratic movements. Together with a request for decentralisation and devolution of state power, these movements are also fighting for sustainable utilisation of natural resources, and sustainable agricultural practices. A precondition, however, for sustainable utilisation of natural resources is a change in conceptualisation and knowledge creation for resource management. The Sustainable Land Use and Natural Resource Management (SLUSE) collaboration offers alternative ways of creating knowledge for sustainable utilisation of natural resources, that aim to support the present socio-political reform process in Thailand.Key Words: Thailand, natural resource management, transdisciplinarity
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Song, Jingwei, Bo Xiang, Xinyuan Wang, Li Wu i Chun Chang. "Application of dynamic data driven application system in environmental science". Environmental Reviews 22, nr 3 (wrzesień 2014): 287–97. http://dx.doi.org/10.1139/er-2013-0071.
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The paradigm of dynamic data driven application system (DDDAS) has been proposed as a framework to analyze and predict the character and behavior of complex systems that influence computational models significantly. Its accuracy and efficiency lies in its ability to integrate observations on different temporal and spatial scales from real-time sensors, and in its measurement steering and controlling capabilities. Many problems in environmental sciences are nonlinear and complex, impossible to solve by using input/output sequence flows without feedback control. Nonlinear system efficiency depends on measurement control and steering, on-line data assimilation, and model selection with dynamic optimization. Compared with traditional methods, DDDAS possesses the capacity to overcome these limitations. This paper discusses DDDAS and classifies typical cases of its application in environmental sciences into three levels of paradigm. Short reviews of multi-model simulation and data assimilation are provided for practical use. Recent developments and future perspectives are reviewed. Future work may address determining automatically where, when, and how to acquire real-time data, and its integration with GIS, to improve efficiency and accuracy. User-generated content will find wide application in the future. Considering the differences between DDDAS and other data-driven methods in solving the same nonlinear complex system problems, a combination of nonlinear science and chaos theory is advocated.
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Bixler, R. Patrick. "The political ecology of local environmental narratives: power, knowledge, and mountain caribou conservation". Journal of Political Ecology 20, nr 1 (1.12.2013): 273. http://dx.doi.org/10.2458/v20i1.21749.
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Political ecology seeks to address notable weaknesses in the social sciences that consider how human society and the environment shape each other over time. Considering questions of ideology and scientific discourse, power and knowledge, and issues of conservation and environmental history, political ecology offers an alternative to technocratic approaches to policy prescriptions and environmental assessment. Integrating these insights into the science-policy interface is crucial for discerning and articulating the role of local resource users in environmental conservation. This paper applies political ecology to addresses a gap in the literature that exists at the interface of narratives of local environmental change and local ecological knowledge and doing so builds a nuanced critique of the rationality of local ecological knowledge. The ways that we view nature and generate, interpret, communicate, and understand the "science" of environmental problems is deeply embedded in particular economic, political, and ecological contexts. In interior British Columbia, Canada, these dynamics unfold in one of the most rigorously documented examples of the negative effect of anthropogenic disturbance on an endangered species – declining mountain caribou population. Science notwithstanding, resource users tell narratives of population decline that clearly reflect historical regularities deeply embedded in particular economic, political, and ideological constructions situated in local practices. This research assesses these narratives, discusses the implications, and explores pathways for integrating local knowledge and narratives into conservation science and policy. A more informed understanding of the subjectivities and rationalities of local knowledges can and should inform conservation science and policy.Keywords: Political ecology, local ecological knowledge, narrative, environmental change, environmental management, British Columbia, Rangifer tarandus caribou.
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Susilowati, Susilowati, Insih Wilujeng i Purwanti Widhy Hastuti. "GROWING ENVIRONMENTAL LITERACY TOWARDS ADIWIYATA SCHOOLS THROUGH NATURAL SCIENCE LEARNING BASED ON PEDAGOGY FOR SUSTAINABILITY". Journal of Science Education Research 2, nr 2 (19.12.2018): 97–100. http://dx.doi.org/10.21831/jser.v2i2.22480.
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Environmental awareness is an issue that continues to evolve with the development of science and technology. Various problems that arise include attitudes to protect the environment, to choose a healthy lifestyle, to utilize natural resources, to deal with natural disasters, and to concern about the rising global temperatures. The government carries out the Adiwiyata school program with the aim to instill values of environmental awareness for students. This leads to the importance of building environmental literacy to direct in building the environmentally-aware attitude that supports the preparation to become Adiwiyata schools. Learning based on sustainability (pedagogy for sustainability) has the potential to be integrated in science learning, considering that natural science subjects examine natural phenomena and the symptoms physically, chemically, and biologically as well as the relation to technology, environment, and society. Attitudes and actions towards environmental literacy can be inculcated through the development of learning processes containing pedagogy for sustainability that emphasizes activities to seek, explore, discuss, and investigate information and also to plan actions that are beneficial to the environment and do not carry any negative impacts on future generations.
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Wheater, Howard, i Patricia Gober. "Water security in the Canadian Prairies: science and management challenges". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 371, nr 2002 (13.11.2013): 20120409. http://dx.doi.org/10.1098/rsta.2012.0409.
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In this paper, we discuss the multiple dimensions of water security and define a set of thematic challenges for science, policy and governance, based around cross-scale dynamics, complexity and uncertainty. A case study of the Saskatchewan River basin (SRB) in western Canada is presented, which encompasses many of the water-security challenges faced worldwide. A science agenda is defined based on the development of the SRB as a large-scale observatory to develop the underpinning science and social science needed to improve our understanding of water futures under societal and environmental change. We argue that non-stationarity poses profound challenges for existing science and that new integration of the natural sciences, engineering and social sciences is needed to address decision making under deep uncertainty. We suggest that vulnerability analysis can be combined with scenario-based modelling to address issues of water security and that knowledge translation should be coupled with place-based modelling, adaptive governance and social learning to address the complexity uncertainty and scale dynamics of contemporary water problems.
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Aberšek, Boris. "NULLIUS IN VERBA: SCIENCE VS PSEUDO-SCIENCE/FRINGE SCIENCE". Journal of Baltic Science Education 20, nr 4 (15.08.2021): 524–27. http://dx.doi.org/10.33225/jbse/21.20.524.
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The explosion of disinformation about global warming and other ecological problems could be called an infodemic , which is the term used by WHO to describe today’s pandemic situation. An infodemic means too much information, however, its importance can also be passed on to environmental problems. It causes confusion and risk-taking behaviors that can harm the health of our planet. It also leads to mistrust in authorities and undermines the public response. An infodemic can intensify or lengthen outbreaks when people are unsure about what they need to do, for example, to protect our environment. With growing digitization – an expansion of social media and internet use – information can spread more rapidly. This can help to more quickly fill information voids but can also amplify harmful messages.
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Güven, Ezgi, i Mustafa Aydogdu. "Determination of candidate science teachers’ knowledge levels towards environmental problems". Procedia - Social and Behavioral Sciences 15 (2011): 2781–84. http://dx.doi.org/10.1016/j.sbspro.2011.04.188.
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Wallner, Astrid, Marcel Hunziker i Felix Kienast. "Do natural science experiments influence public attitudes towards environmental problems?" Global Environmental Change 13, nr 3 (październik 2003): 185–94. http://dx.doi.org/10.1016/s0959-3780(03)00042-6.
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López-Rodríguez, M. D., A. J. Castro, H. Castro, S. Jorreto i J. Cabello. "Science–policy interface for addressing environmental problems in arid Spain". Environmental Science & Policy 50 (czerwiec 2015): 1–14. http://dx.doi.org/10.1016/j.envsci.2015.01.013.
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Constable, AJ. "The role of science in environmental protection". Marine and Freshwater Research 42, nr 5 (1991): 527. http://dx.doi.org/10.1071/mf9910527.
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A process for developing management procedures that may ensure environmental protection is discussed in light of current problems in conservation of the aquatic environment. This process provides an opportunity for determining clearly the role and objectives of science in environmental protection and deals explicitly with the problems to management of uncertain information. Feedback management procedures are advocated, and these should be developed so that they are sufficiently robust in terms of absolute performance. This is to ensure that the environmental objectives set to safeguard the public interest are likely to be met under feasible worst-case conditions despite incomplete knowledge. Three important principles should be incorporated into these procedures before a proposed activity (e.g. development, exploitation) is allowed to commence: (1) the initial level of the activity should be set commensurate with a high degree of confidence that it is ecologically sustainable, (2) the objectives of the regulatory system should be framed in terms of aspects of the state of the environment that can be estimated robustly, and (3) the regulatory framework should specify what actions are required given the state of the environment as observed through the monitoring programme.
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OZAWA, Tokutaro. "What could environmental science do for environmental protection ? Acid rain problems viewed from Sweden." Journal of Environmental Conservation Engineering 24, nr 11 (1995): 634–39. http://dx.doi.org/10.5956/jriet.24.634.
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Shaumyan, Tatiana. "Environmental Problems". China Report 43, nr 2 (kwiecień 2007): 195–201. http://dx.doi.org/10.1177/000944550704300208.
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Korporowicz, Violetta. "Environmental economics – a modern science with traditions". Studia Ecologiae et Bioethicae 18, nr 5 (31.12.2020): 235–42. http://dx.doi.org/10.21697/seb.2020.18.5.20.
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The fact that problems of environmental degradation and its protection are gaining importance is caused, among others, by limitations in management efficiency. It forces us to look at economic processes with consideration of output of such disciplines that indicate how one should manage in a situation of reduced availability of natural resources. Such discipline, without any doubts, is environmental protection. This science indicates methods and economic instruments that can be applied in economic practice necessary for environmental protection. It deals also with problems related to economic studies of implications of environmental policies. At the same environmental economics that results from neoclassical trend of economics looking at the market as unfailing mechanism of economic regulation proves that invisible hand of market fails in case of environmental protection. That is why we should apply different types of instruments especially these related to indirect regulation (including such economic instruments as taxes) that support actions related to limitation of environmental degradation. It is worth also to add that recognition of methodological premises of this science supports not only development of this discipline but first of all it shows that it is applicable. The principles developed by environmental economics should be applied in practice by all participants of economic life from consumers and to producers and governments in order to keep not only current natural resources but most importantly ensure the development opportunities for next generations.
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Newman, Peter. "Undergraduate Environmental Science the Murdoch Story". Australian Journal of Environmental Education 5 (sierpień 1989): 32–38. http://dx.doi.org/10.1017/s0814062600002123.
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AbstractThe undergraduate degree in Environmental Science at Murdoch University has been a 14 year experiment in providing a new kind of disciplinary training and profession. Some achievements are examined and possible directions for the future reviewed.This paper is about an experiment in environmental education in Western Australia - the establishment of an undergraduate degree in Environmental Science. The experiment has hardly been discussed before, mainly because the experiment was still going on, but 1989 represents a new phase of that experiment after the retirement of the Foundation Professor Des O'Connor. Some perspective is thus attempted on its achievements and possible directions for the future are examined.It has been an important experiment because there are very few places in Australia or overseas where there has been such a commitment and vision to seeking solutions to environmental problems through education. This is mainly because there are not many places where a new University has been founded in the past 15 years with Environmental Science as a foundation discipline.
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Sudarman, Sudarman. "Model pengembangan strategi pembelajaran berwawasan lingkungan bagipeserta praktik kerja industri siswa teknik mekanik otomotif". Jurnal Pendidikan Vokasi 1, nr 1 (28.02.2011): 69. http://dx.doi.org/10.21831/jpv.v1i1.5801.
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LEARNING STRATEGY DEVELOPMENT MODEL ENVIRONMENTAL INSIGHT FOR PARTICIPANTS OF INDUSTRIAL WORK PRACTICES FOR AUTOMOTIVE MECHANICAL ENGINEERING STUDENTSThis study is the first phase of research that aims to examine the implementation of learning in tackling environmental problems SMK Skill Program of Otomotif Mechanic in building environmentally sound behavior. Research conducted in SMK N 1 Semarang and SMK N 7 Semarang. Retrieving data using the literature study and documentation. The analysis used is a description of the analysis. Description of the analysis results show that learning tackling environmental problems implemented wuth conventional strategies. From this description of finding result are then compiled design development model oriented/contextual learning strategies SETS (Environmenat, Science and Technology Community), models include: environmental teaching materials, unit of learning events and industry work practices certificate. Suggestions proposed: Should be testing the design strategy development model SETS insightful contextual learning, and then do the validation and continued dissemination.
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Yap, Helen T. "Marine environmental problems". Marine Pollution Bulletin 25, nr 1-4 (styczeń 1992): 37–40. http://dx.doi.org/10.1016/0025-326x(92)90181-5.
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HARRIS, BRITTON. "PROBLEMS IN REGIONAL SCIENCE". Papers in Regional Science 21, nr 1 (14.01.2005): 7–16. http://dx.doi.org/10.1111/j.1435-5597.1968.tb01437.x.
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