Abstract
Plant nutrition and photosynthesis is one of the most difficult issues teachers are confronted with in science classes. This can be due to alternative conceptions students’ hold, which are often profoundly contrary to their scientific counterparts. Consequently, fruitful learning environments should build on learners’ alternative conceptions to initiate conceptual change towards a more scientific understanding. In this qualitative case study, high-school students’ pre-instructional conceptions about plant nutrition were identified empirically. Afterwards these students were exposed to the van-Helmont experiment in order to create a cognitive conflict. The learning processes and signs of conceptual change were identified using Qualitative Content Analysis. The results show that the van-Helmont experiment does not trigger conceptual change but reinforces students’ pre-instructional conceptions. Ultimately, a cognitive-linguistic analysis using Conceptual Metaphor Theory was conducted. Interestingly, underlying embodied conceptions and image schemas about human nutrition became evident. These thinking patterns were used metaphorically and, therefore, can be seen as the basis to understand plant nutrition. As a result, we propose a reverse approach of teaching photosynthesis and nutrition. Our Dissimilation-Before-Assimilation approach takes learners’ alternative conceptions and underlying image schemas into account in order to promote a fruitful learning of the concepts of plant nutrition.
Highlights
Students’ Conceptions about Plant NutritionTo consider students’ conceptions is one of the most important skills science teachers must have to create fruitful learning environments [1,2]
Alternative conceptions and underlying image schemas into account in order to promote a fruitful learning of the concepts of plant nutrition
According to our research question (1), we focused on the identification of pre-instructional conceptions
Summary
To consider students’ conceptions is one of the most important skills science teachers must have to create fruitful learning environments [1,2]. Due to a large body of studies learners’ fundamental conceptions about plant nutrition are well known [11,12,13,14] Up to this point, little research has been done that sets focus on the genesis of students’ conceptions. In a constructivist sense, learning processes are based on existing cognitive structures Where do these structures come from and in which way can this be used to teach photosynthesis more effectively? It is possible to reconstruct students’ learning pathways in order to draw conclusions about the genesis of these conceptions. This can be used to evolve effective learning environments
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