Abstract
Socially-relevant and controversial topics, such as water issues, are subject to differences in the explanations that scientists and the public (herein, students) find plausible. Students need to be more evaluative of the validity of explanations (e.g., explanatory models) based on evidence when addressing such topics. We compared two activities where students weighed connections between lines of evidence and explanations. In one activity, students were given four evidence statements and two models (one scientific and one non-scientific alternative); in the other, students chose four out of eight evidence statements and three models (two scientific and one non-scientific). Repeated measures analysis of variance (ANOVA) showed that both activities engaged students’ evaluations and differentially shifted students’ plausibility judgments and knowledge. A structural equation model suggested that students’ evaluation may influence post-instructional plausibility and knowledge; when students chose their lines of evidence and explanatory models, their evaluations were deeper, with stronger shifts toward a scientific stance and greater levels of post-instructional knowledge. The activities may help to develop students’ critical evaluation skills, a scientific practice that is key to understanding both scientific content and science as a process. Although effect sizes were modest, the results provided critical information for the final development and testing stage of these water resource instructional activities.
Highlights
There is an increasing recognition of the scope and complexity of water problems [1]
This present study examined and compared how plausibility judgements and knowledge construction shifted based on the two different types of MEL diagrams: pre-constructed model–evidence link diagrams, and a build-a-MEL diagram. (Figure 1) The pcMEL diagrams present four lines of scientific evidence and two models, as in previous studies [11,25]
The analysis of variance (ANOVA) results suggest that Freshwater baMEL had a modest advantage in effectiveness compared to the Wetlands pcMEL
Summary
There is an increasing recognition of the scope and complexity of water problems [1] These challenges are global and cannot be solved only through local policies or regional policies (i.e., scope), and they are interrelated with issues of climate change and population growth, and require coordination between local, regional, and national governments (i.e., complexity). The present study uses a theoretical model that views evaluation as a central component in the dynamic process of students’ appraisal and/or reappraisal of an explanation’s plausibility [14]. This model posits that evaluations and plausibility reappraisal may facilitate deeper knowledge of science. As a foundation for the present study, the following subsections provide more details on the theoretical connections of evaluation, plausibility judgments, and knowledge
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