Adapting and Scaling the Biotinkering Approach through a CoP Model
Project Website(s)
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Project Description
Project Narrative Biology has become a powerful interdisciplinary and revolutionary technology, uniquely poised to transform human health and medicine, yet the majority of experiences that K-12 learners have with the life sciences are still rooted in traditional procedural and prescriptive approaches. To better prepare young people to engage in the research or applied sides of modern biomedicine, we need to engage students from a diversity of backgrounds – especially those from marginalized communities – in a 21st century approach to biology that emphasizes authentic science practices based in open-ended exploration and creativity. Our proposed project, Adapting and Scaling the Biotinkering Approach through a Community of Practice (CoP) Model, will create the community and culturally responsive types of informal learning experiences society needs to provide inspirational entry points for a more diverse next generation of biotech and biomedical innovators.
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Abstract
Project Summary and Abstract Despite the rapidly advancing landscape of modern biology, the majority of experiences that K-12 learners have with biology are still rooted in traditional procedural and prescriptive approaches. There is a critical need to engage students in a more 21st century approach to biology – one that emphasizes open-ended exploration and creativity as key elements of scientific practice. Over the last five years as part of our previous SEPA award, we have developed an award-winning approach to informal biology education, biotinkering, that authentically engages young people with science as a personally relevant and creative process by supporting learner agency and choice. Our project, Adapting and Scaling the Biotinkering Approach through a Community of Practice (CoP) Model, aims to empower other informal science institutions to participate in and co-author the future of biotinkering with us. To be thoughtful about ensuring that our burgeoning approach can meaningfully contribute to bringing more diverse perspectives into STEM fields, our proposed CoP centers community and co-design. Community relationships at each participating site will be integrated throughout the project to help build a foundation for biotinkering that is more inclusive and culturally relevant, especially for marginalized communities. To reach our desired impact, we have the following 3 aims. First, we will establish a thriving Biotinkering Community of Practice to support diverse practitioners in gaining confidence with doing biotinkering in their own contexts. By using a CoP model to do institutional capacity building, we can create lasting impact on the field by building a dispersed network of biotinkering hubs equipped to provide ongoing support and mentorship to other practitioners. Second, all four founding members of our Biotinkering CoP will develop culturally relevant biotinkering activities, co-designed with local communities, to generate a more diverse repertoire of experiences for varied audiences and environments. This will result in hands-on biotinkering experiences being implemented around the nation, reaching tens of thousands of young people and providing learners with pathways to develop stronger STEM identities. And third, we will identify strategies and promising practices that can be used by practitioners to adopt biotinkering as an inclusive approach that centers community voices. Our new community and inclusion-focused resources, forged from diverse community perspectives and co-design learnings, will better support the adaptation of biotinkering to diverse situations and contexts, making it easier to further scale this work to additional informal learning sites and new communities. This approach can generate the types of informal learning experiences society needs to serve as inspirational entry points for a more diverse next generation of biotech and biomedical innovators. Lessons learned from the successes and challenges of this project can also offer valuable insights about using CoPs as a model for self-sustaining scaling and knowledge transfer within the informal science learning field.