The morality of socioscientific issues: Construal and resolution of genetic engineering dilemmas

Sadler, Troy D.; Zeidler, Dana L.

doi:10.1002/sce.10101

Cited by 350 publications

(258 citation statements)

References 46 publications

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“…As shown by other studies, a variety of norms is expected to be found among students (Sadler & Zeidler, 2004). When the students participating in our study used norms to legitimize their signification of gene technology, they focussed attention on a variety of interesting norms that uncovered potential latent conflicts for science classroom discussions.…”

Section: Discussion Of Resultsmentioning

confidence: 71%

“…The validity of this study is further strengthened by the presence of similar arguments about gene technology in other studies. For example, see Bates, Lynch, Bevan, and Condit (2005), Barnett, Cooper, and Senior (2007), Chen and Raffan (1999), Gunter et al (1998), Kolstø et al (2006), Pearce, Thomas, and Clements (2006), Saucier and Cain (2006), Sadler and Donnelly, (2006) Sadler and Zeidler (2004), Walker and Zeidler (2007), Zeidler, Walker, Ackett, and Simmons (2002), and Zohar and Nemet (2002).…”

Section: Discussion Of Methodologymentioning

confidence: 99%

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Students’ Ontological Security and Agency in Science Education—An Example from Reasoning about the Use of Gene Technology

Lindahl

Linder

2013

International Journal of Science Education

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This paper reports on a study of how students' reasoning about socioscientific issues is framed by three dynamics: societal structures, agency and how trust and security issues are handled. Examples from gene technology were used as the forum for interviews with 13 Swedish high-school students (year 11, age 17 -18). A grid based on modalities from the societal structures described by Giddens was used to structure the analysis. The results illustrate how the participating students used both modalities for 'Legitimation' and 'Domination' to justify positions that accept or reject new technology. The analysis also showed how norms and knowledge can be used to justify opposing positions in relation to building trust in science and technology, or in democratic decisions expected to favour personal norms. Here, students accepted or rejected the authority of experts based on perceptions of the knowledge base that the authority was seen to be anchored in. Difficulty in discerning between material risks (reduced safety) and immaterial risks (loss of norms) was also found. These outcomes are used to draw attention to the educational challenges associated with students' using knowledge claims (Domination) to support norms (Legitimation) and how this is related to the development of a sense of agency in terms of sharing norms with experts or with laymen. IntroductionA good example of an educational context where understanding of the development of agency and reasoning is important is when discussions about societal use of gene technology take place. This article uses such a context to look at the development of agency in relation to societal structures when students handle trust and security issues.

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Section: Discussion Of Resultsmentioning

confidence: 71%

Section: Discussion Of Methodologymentioning

confidence: 99%

Students’ Ontological Security and Agency in Science Education—An Example from Reasoning about the Use of Gene Technology

Lindahl

Linder

2013

International Journal of Science Education

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“…SSIs have been included in many carefully designed teaching interventions (see, for example, Albe, 2008;Sadler & Zeidler, 2004;Tomas, Ritchie, & Tones, 2011;Walker & Zeidler, 2007;Zohar & Nemet, 2002). They have also been included in science courses that receive a recognised qualification, such as the Dutch ANW (Public Understanding of Science) course (which in 1999 was compulsory for all 15 -19-year-olds, see Eijkelhof & Kapteijn, 2000) and, in England, in specific post-16 (and non-compulsory) biology and chemistry courses (Hughes, 2000;Lewis & Scott, 2006).…”

Section: Introductionmentioning

confidence: 99%

Socioscientific Issues and Multidisciplinarity in School Science Textbooks

Morris

2013

International Journal of Science Education

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“…Such issues are typically defined as issues that on the one hand have a conceptual basis in science, and on the other hand arise as issues within the ethical, political, and economical realm of society (e.g. Sadler & Zeidler, 2003). In contrast, we will use the slightly awkward term THE ROLE OF SOCIOSCIENTIFIC ISSUES 'socioscientific teaching activities' to denote the teaching situations or activities in which one or more specific socioscientific issues are thematised -e.g.…”

Section: Introductionmentioning

confidence: 99%

The role of socioscientific issues in biology teaching: from the perspective of teachers

Tidemand

Nielsen

2016

International Journal of Science Education

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Word count (without abstract): 8118 THE ROLE OF SOCIOSCIENTIFIC ISSUES AbstractPrevious research has documented that students who engage with socioscientific issues can acquire some of the complex competences and skills typically related to scientific literacy. But an emerging field of research on science teachers' understanding and use of socioscientific issues, has documented that a range of challenges hinders the uptake of socioscientific issues. In this study we investigated the interpretation and implementation of socioscientific issues among Danish biology teachers -who teach in a curriculum that, on paper, is permeated by socioscientific issues. We conducted five in-depth group interviews (with a total of 11 teachers) and sought to validate and expand on the emergent themes from the teachers' talk-in-interaction by distributing a wider, primarily open-ended questionnaire (100 responding teachers). Our findings suggest that the participating teachers generally harbour a content-centred interpretation of socioscientific issues which manifests itself in at least three separate ways. First, the teachers generally use socioscientific issues as a means to an end of teaching factual biological content. Second, the teachers had a clear emphasis on mastery of factual content in their assessment practices. Third, the teachers tended to reduce socioscientific issues (e.g. should we allow GMOs) to specific biological contents (DNA) in a way that does not seem to allow students to engage with the real socioscientific issue. Our findings are particularly significant for science educators, policy-makers and curriculum designers, as we argue that key aspects of this content-centred interpretation may be a coping strategy used in order to navigate a divided curriculum.

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The morality of socioscientific issues: Construal and resolution of genetic engineering dilemmas

Cited by 350 publications

References 46 publications

Students’ Ontological Security and Agency in Science Education—An Example from Reasoning about the Use of Gene Technology

Students’ Ontological Security and Agency in Science Education—An Example from Reasoning about the Use of Gene Technology

Socioscientific Issues and Multidisciplinarity in School Science Textbooks

The role of socioscientific issues in biology teaching: from the perspective of teachers

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