Science

The disproportionate impacts of societal challenges (e.g., climate change, air and water pollution) on minoritized groups expose systemic injustices and compels STEM educators to reframe the role of STEM education in society. In this article, we describe traditional approaches, contemporary approaches, and our proposed future approach in science and STEM education with a focus on equity and justice.

The Language, Culture, and Knowledge-building through Science (LaCuKnoS) project tests and refines a model of science teaching and learning that brings together current research on the role of language in science communication, the role of cultural and community connections in science engagement, and the ways people apply science knowledge to their daily decision making. One key component of the model brings families together as co-learners and co-teachers through family learning experiences. We describe our work to promote more robust family conversations about science in our lives within an existing research practice partnership, using a two-tiered qualitative conversational analysis to compare the family conversations that result from three family engagement models: (a) family science festivals; (b) family science workshops; and (c) family science home learning.

The Exploring Coasts and Coastal Change in Hawai‘i unit supports middle school haumana (students) in developing multi-perspective understanding and personal stances about coastal change in their community. The unit was collaboratively developed by a partnership among educators bringing together Indigenous and Western ways of knowing and learning. Through lessons that take place over three weeks, haumana (students) undertake a place-based learning experience addressing physical, biological, and social facets of their changing coasts and engage the perspectives of ‘ohana (family), community members, and scientists.

As educators, we recognize that commercially prepared curricula advertised as “NGSS aligned” do not necessarily emphasize student sensemaking. In this article, we describe our process of modifying such curricula by reflecting on previous instruction and planning for future instruction that centers student sensemaking in a middle school unit on chemical reactions.

This study is part of a larger project on culturally and linguistically responsive instruction for multilingual learners (MLs) in biology (CLIMB), aimed at enhancing MLs’ engagement in science practices, biology content, and language development. We developed the CLIMB observation protocol to capture how teachers implement responsive instruction, integrating language development, biology content, and science practices. The protocol is comprised of six elements that align with research-backed practices to support MLs: Attention to Language, Multiple Modalities, Collaboration, Affirming Identities, Funds of Knowledge, and Sociopolitical Consciousness.

This study practically addresses some key challenges teachers face in enacting reform-oriented science teaching and offers suggestions for how continued research regarding norms and uncertainty can continue to further science reform efforts.