We can't find the internet
Attempting to reconnect
Something went wrong!
Hang in there while we get back on track
A self‐reported instrument to measure and foster students' science connection to life with the CARE‐KNOW‐DO model and open schooling for sustainability
Summary
Researchers developed and validated a self-reported instrument to measure students' connection to science using the CARE-KNOW-DO model combined with an open schooling approach for sustainability. The study involved students working on real-world environmental problems including microplastic pollution alongside families and scientists. Evidence indicates that this approach can strengthen young people's engagement with science and sustainability topics.
Abstract National governments are concerned about the disconnection of young people from science, which hampers the development of a scientifically literate society promoting sustainable development, wellbeing, equity, and a green economy. Introduced in 2015 alongside Agenda 2030, the “open schooling” approach aims at enhancing students' science connections through real‐life problem solving with families and scientists, necessitating solid evidence for scalability and sustainability. This study conceptualizes “science connection,” a term yet underexplored, as the integration of science's meaning and purpose into personal, social, and global actions informed by socioscientific thinking. It details a novel 32‐item self‐report questionnaire developed and validated from insights of 85 teachers into “science connection”‐enhanced learning. A new consensual qualitative analysis method with visual and textual snapshots enabled developing quantitative measures from the qualitative findings with rigor. The multilanguage instrument provided just‐in‐time actionable data, enhancing the immediacy and applicability of the feedback to 2082 underserved students aged 11–18 across five countries participating in open schooling activities using the CARE‐KNOW‐DO model. This innovative feature supports open science and responsible open research, offering real‐time insights and fostering immediate educational impact. Exploratory and confirmatory factor analyses revealed five components of science connection: Confidence and aspiration in science; Fun participatory science with teachers, family, and experts; Active learning approaches; Involvement in‐and‐outside school science activities; and Valuing science's role to life‐and‐society. Many students felt connected to science— Brazil: 80%, Spain: 79%, Romania: 73%, Greece: 70%, UK: 57%— with boys: 75%, girls: 73%, nonbinary students: 56%. These differences need in‐depth research. Results suggest that science connections decline from the primary to secondary education, but the CARE‐KNOW‐DO model may reengage older students. A robust science connection enhances scientific literacy and builds science capital. This instrument aids policymakers, educators, and learners in identifying factors that facilitate or impede students' engagement with science for sustainable development efforts.
Sign in to start a discussion.
More Papers Like This
Students’ Attitudes Towards Science: the Contribution of a Citizen Science Project for Monitoring Coastal Water Quality and (micro)plastics
This study found that middle school students participating in a citizen science project monitoring coastal water quality and microplastic pollution showed improved attitudes toward science, particularly in critical thinking and perceived scientific self-efficacy. Hands-on engagement with real environmental monitoring activities can effectively improve science literacy and positive attitudes toward environmental issues in young people.
Students’ attitudes towards the environment and marine litter in the context of a coastal water quality educational citizen science project
Middle school students who participated in a citizen science project monitoring coastal water quality and microplastic pollution showed significantly more positive environmental attitudes afterward compared to a control group. The study suggests that hands-on engagement with real microplastic research can be an effective way to build environmental awareness in young people.
Creative-Motivated Citizen Science After-School STEAM Programme for Motivating Actions Related to the Oceanic Microplastics Problem
Researchers designed and evaluated a nine-week citizen science STEAM after-school programme for primary school children focused on microplastic sampling and local ocean pollution solutions, finding that creative and motivational activities sustained family engagement for at least 10 months beyond the programme's conclusion.
School science activities with contributions from STEM practices: A study to address complex problems in elementary school classes, in the case of microplastics and their harmful effects
Researchers developed a theoretical and explanatory framework identifying which aspects of STEM education can strengthen the design of school science activities addressing complex problems such as microplastic pollution in elementary school settings. The study proposes a model for integrating STEM practices into classroom activities to build students' capacity to engage with real-world environmental challenges.
Desenvolvimento da literacia química de alunos do ensino básico
A Portuguese citizen-science project engaged over 500 middle-school students in testing coastal water quality and learning about microplastic pollution through hands-on chemistry investigations. The program significantly improved students' attitudes toward chemistry and their conceptual understanding of water parameters and polymers compared to a control group, demonstrating that microplastic science can be an effective hook for building broader scientific literacy in young people.