In this paper we discuss an activity through which students learn basic concepts in genetics by taking part in a police investigation game. The activity, which we have called Recal, immerses students in a scientific-based scenario in which they play a role of a scientific assessor. Players have to develop and use scientific reasoning and evidence-based decision-making to solve the given enigmas along the game. The activity aims to improve students' knowledge of genetics and show them how genetic evidence can be applied in forensic science. The activity (known as 'the Recal case') uses a problem-based learning educational methodology. It is learnercentred and students play an active collaborative role. The methodology requires students to structure their knowledge, and develop their reasoning processes and self-directed learning skills. The activity has been developed for a range of audiences, including high school students, undergraduates engaged in pre-service teaching and adults of all ages. A case study has also been carried out with a group of 120 pre-service student teachers from the Universitat Rovira i Virgili (Tarragona, Spain) to check whether the coherence in the running of the game, whether its effectiveness as a learning activity and whether its dynamics and motivational aspects are acceptable.
The speed of development of biotechnology within agriculture, industry, and medicine has changed our lives, and we need a biotechnological literacy to understand it. This implies that teachers in primary schools need to be biotechnologically literate in order to educate future generations. The aim of this study was to investigate Swedish pre-service primary school teachers’ knowledge of and attitudes towards biotechnology and contextualize the results by comparing them with a corresponding group of Spanish teachers. Data was collected using the established questionnaire instrument Biotech XXI and analyzed statistically. The findings demonstrate that Swedish pre-service primary school teachers have knowledge gaps relating to the basic genetic concepts that underpin biotechnology, although they are aware of biotechnological applications. Their attitudes are quite positive towards biotechnological applications in health, but less so to buying and using genetically modified products. Higher levels of knowledge were correlated with more positive attitudes, indicating an attitudinal basis for expanding the knowledge of and teaching practices for biotechnology among primary teachers. The level of knowledge and attitudes in the Swedish sample were similar to those of the Spanish teachers, suggesting a similar situation may be prevalent in many countries. The results indicate a need to reconsider the science curricula within pre-service primary school teacher training programs in order to better prepare primary teachers for teaching biotechnological literacy.
PurposeScientific inquiry is a leading methodology that promotes science process skills to acquire scientific knowledge. There is evidence that primary school teachers have difficulties introducing inquiry-based activities in their classrooms. Hence, adequate teacher instruction in inquiry methodology is important to apply inquiry-based activities in school science lessons. This work aims to analyse if pre-service teachers succeeded in developing scientific knowledge and scientific skills through the application of an inquiry laboratory activity.Design/methodology/approachThis article is presented as a case study developed in a group of 82 pre-service teachers. This research methodology involved qualitative and quantitative data.FindingsThe results demonstrate that pre-service teachers could improve their scientific skills and knowledge through inquiry-based laboratory activity.Originality/valueThe present study assesses not only the scientific knowledge but also if students can acquire scientific skills by doing the inquiry laboratory activity and if these skills are related to low-order cognitive skills or high-order cognitive skills.
We present a practical activity focusing on two main goals: to give learners the opportunity to experience how the scientific method works and to increase their knowledge about enzymes in everyday situations. The exercise consists of determining the amylase activity of commercial detergents. The methodology is based on a qualitative assay using a colorimetric process. Quantitative results are also obtained by measuring the halo formed. This activity is suitable for and adaptable to learners at different levels of education: primary school, secondary education or even for pre-service teachers, which is the group the version described in this paper was intended for. This laboratory activity was designed to include the scientific method as a learning outcome. This was especially important in pre-service teachers, as increasing scientific literacy is one of the primary goals of science education. Through the activity, students also learn about micro-organisms and their applications in their daily lives, which is one of the tenets of Science-Technology-Society-Environment programs. A case study was conducted with a group of learners made up of 75 pre-service teachers from Universitat Rovira i Virgili in Tarragona, in order to verify whether this lab activity is well designed and can be satisfactorily implemented.
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