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dc.contributor.authorEdstrand, Emma
dc.date.accessioned2016-12-21T14:29:45Z
dc.date.available2016-12-21T14:29:45Z
dc.date.issued2016-12-21
dc.identifier.isbn978-91-7346-901-2 (print)
dc.identifier.isbn978-91-7346-902-9 (pdf)
dc.identifier.issn0436-1121
dc.identifier.urihttp://hdl.handle.net/2077/49509
dc.description.abstractDigital technologies and environmental education represent two rather new areas in school curricula. The background of the present research is an interest at the inter-section between how students learn about environmental issues (e.g., climate change) and the role digital technologies may play in such contexts. Thus, the aim is to investigate tool-mediated activities in environmental science education. The digital tools that are used in the instruction in this research are a virtual laboratory and a carbon footprint calculator. The study is guided by the questions of how digital tools codetermine activities and students’ reasoning about scientific knowledge and environmental topics, as well as what implications the use of such tools have for the development of science literacy. Analytically, this is studied within a sociocultural perspective on learning and by relating it to Dewey’s view of learning through inquiry. The empirical material consists of questionnaires and video data. The thesis consists of four studies. Study 1 builds on the analysis of questionnaire data from a corpus of almost 500 students’ written pre- and post-test answers to a problem-solving question in which they are required to design an experiment before and after working with a virtual lab. The second set of data comprises video recordings of upper secondary school students’ work with the two virtual tools. The results are presented in Studies 2 and 3. In addition, and in relation to the interest in science literacy more generally, Study 4 focuses on students’ work with an assignment requiring them to evaluate research reported in two scientific article abstracts on climate change. On a general level, the findings show that digital tools incorporate conceptual distinctions and operations that provide “shortcuts” for the students’ reasoning by providing access points to complex knowledge about the environment. This means that the students are able to engage in sophisticated discussions about environmental issues linked to human-driven climate change without requiring too much specific prior knowledge. However, the results also point to dilemmas connected to the use of such sophisticated tools. That is, for students to make meaning in ways that are relevant to understanding scientific argumentation, some of the processes and conceptual premises need to be unpacked by a competent partner (e.g., a teacher). Through engaging in such tool-mediated activities, students develop new cognitive habits, that is, new ways of reasoning which are made possible through the support of the tools. Thus, in sum, the present empirical studies demonstrate that digital tools have the potential to reconfigure learning activities that support students’ development of science literacy in environmental science education. At the same time, the analyses show that the tools are abstract and far from self-instructive. They index complex forms of knowledge that are not always transparent to the users. Thus, to reach curricular goals, the use of such tools in environmental science instruction presupposes guidance and support by teachers.sv
dc.language.isoengsv
dc.relation.ispartofseriesGothenburg Studies in Educational Sciencessv
dc.relation.ispartofseries395sv
dc.relation.haspartStudy 1: Petersson, E., Lantz-Andersson, A., & Säljö, R. (2013). Exploring nature through virtual experimentation. Picking up concepts and modes of reasoning in regular classroom practices. Nordic Journal of Digital Literacy, 3(8), 139–156.sv
dc.relation.haspartStudy 2: Petersson, E., Lantz-Andersson, A., & Säljö, R. (2013). Virtual labs as context for learning—Continuities and contingencies in student activities. In E. Christiansen, L. Kuure, A. Mørch, & B. Lindström (Eds.), Problem-based learning for the 21st century. New practices and learning environments (pp. 161–189). Aalborg, Denmark: Aalborg University Press.sv
dc.relation.haspartStudy 3: Edstrand, E. (2015). Making the invisible visible: How students make use of carbon footprint calculator in environmental education. Learning, Media and Technology, 41(2), 416–436, DOI: 10.1080/17439884.2015.1032976.sv
dc.relation.haspartStudy 4: Edstrand, E., Lantz-Andersson, A., Säljö, R., & Mäkitalo, Å. (2016). Deciphering the anatomy of scientific argumentation: The emergence of science literacy. In O. Erstad, K. Kumpulainen, Å. Mäkitalo, K C. Schröder, P. Pruulmann-Vengerfeldt, & T. Jóhannsdóttir (Eds.), Learning across contexts in the knowledge society (pp. 39–60). Rotterdam, the Netherlands: Sense Publishers.sv
dc.subjectLearning and digital toolssv
dc.subjectDigital tools and environmental educationsv
dc.subjectLearning about climate changesv
dc.subjectAccess points to scientific understandingsv
dc.subjectScience literacysv
dc.subjectScience literacy and digital toolssv
dc.subjectSocioscientific issuessv
dc.subjectInquiry learningsv
dc.subjectSociocultural perspectives on learningsv
dc.titleLearning to reason in environmental education: Digital tools, access points to knowledge and science literacysv
dc.typeText
dc.type.svepDoctoral thesiseng
dc.gup.mailemma.edstrand@gu.sesv
dc.type.degreeDoctor of Philosophysv
dc.gup.originGöteborgs universitet. Utbildningsvetenskapliga fakultetenswe
dc.gup.originUniversity of Gothenburg. Faculty of Educationeng
dc.gup.departmentDepartment of Education, Communication and Learning ; Institutionen för pedagogik, kommunikation och lärandesv
dc.gup.price212 kr
dc.gup.defenceplaceFredagen den 27 januari 2017, kl. 13.00. Pedagogen, Göteborgs universitet, Hus B, Lokal: BE 036sv
dc.gup.defencedate2017-01-27
dc.gup.dissdb-fakultetUF


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