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1. Teacher professional development programs integrating science and language with multilingual learners: A conceptual framework

   https://doi.org/10.1002/sce.21807  

   Lee, Okhee; Grapin, Scott; Haas, Alison (September 2023, Science Education)

   Abstract As the vision inA Framework for K‐12 Science Educationand the Next Generation Science Standards (NGSS) takes hold in schools and classrooms, there is an urgent need for teacher professional development (PD) programs that align with NGSS‐designed curriculum materials and address the unique strengths and needs of diverse student groups, including multilingual learners (MLs). The purpose of this article is to propose our conceptual framework for PD programs that aligns with current reform efforts and is grounded in the mutually supportive nature of contemporary science and language instructional shifts. Specifically, we examine our previous NGSS‐designed curriculum development project with MLs and review the literature in science education and language education with MLs. Our conceptual framework for PD programs is grounded in the perspective ofsymmetrythat teacher professional learning experiences should be symmetrical to the learning experiences we organize for students. Grounded in this perspective, our conceptual framework consists of three design principles that describe how PD programs can guide teachers to (a) develop an asset‐oriented view of MLs and instructional practices for recognizing and leveraging their assets, (b) integrate science and language in mutually supportive ways with MLs, and (c) develop more sophisticated instructional practices for integrating science and language with MLs over time. We describe contributions of our conceptual framework, which could generate a new research agenda and inform PD programs aimed at facilitating uptake of NGSS‐designed curriculum materials in linguistically diverse science classrooms. 

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2. Developing instructional materials for English learners in the content areas: An illustration of traditional and contemporary materials in science education

   https://doi.org/10.1002/tesj.673  

   Grapin, Scott E.; Haas, Alison; Llosa, Lorena; Lee, Okhee (August 2022, TESOL Journal)

   Research on TESOL materials development has focused primarily on instructional materials for contexts in which students are learning English separate from academic content (e.g., science, mathematics). This research could benefit from expansion given the increasing number of contexts in which students are learning content and English language simultaneously. In U.S. K–12 education specifically, a fast‐growing population of English learners (ELs) is expected to achieve academically rigorous content standards that reflect new ways of thinking about content, language, and their integration. Thus, developing instructional materials based on the standards has necessitated shifts from traditional to contemporary approaches. The purpose of this article is to illustrate how instructional materials for ELs in the content areas have evolved over time. After describing conceptual shifts in the fields of content area education and language education that underpin the evolution of instructional materials, the researchers present traditional and contemporary elementary science units. Then, they analyze the units in relation to key features of traditional and contemporary materials for ELs in the content areas. Finally, they discuss how materials development in content learning contexts could expand the scope of TESOL materials development by providing a fresh perspective on ongoing debates and tensions in this vibrant research area. 

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3. Territorializing routines of action in the science classroom: Preservice Teachers Using Engineering and Culturally Sustaining Pedagogies in Elementary Grades

   Vazquez_Dominguez, Max; Cardozo_Gaibisso, Lourdes; Buxton, Cory; Harman, Ruth (April 2024, American Educational Research Association)

   na (Ed.)

   As part of Next Generation of Science Standards (NGSS), in-service and pre-service teachers must become familiar with and learn to plan and implement engineering activities using one of the available engineering design models. In addition, pre-service teachers must teach this content to a growing multilingual students in elementary grades in the US. In this presentation, we describe how pre-service teachers use a modified 7-step engineering model to teach about sound to a group of rising 4th grade emergent bilingual students in a summer program in English and Spanish. Using the process of territorialization from assemblage theory, we explore how three pre-service teachers implemented engineering activities using culturally and linguistically sustaining pedagogies. We conclude with a series of recommendations to facilitate the process of territorialization for pre-service teachers in science/engineering education. 

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4. Reclassification and Multilingual Learners' Science Achievement

   https://doi.org/10.1002/tesq.3270  

   Pacheco, Mark B.; Curran, F. Chris; Boza, Lelydeyvis; Deig, Amber W.; Harris, Katharine T.; Tan, Tiffany S. (November 2023, TESOL Quarterly)

   Abstract This study contributes to a growing body of scholarship at the intersection of bilingual education and education policy and examines reclassification, or the transition out of formal English language services in schools, as one potential lever in accelerating or decelerating multilingual learners’ science learning. More specifically, it traces multilingual learners’ science academic achievement vis‐à‐vis science test scores over a six‐year period using the nationally‐representative Early Childhood Longitudinal Study of 2010–11 (ECLS‐K:2011) data set. We use regression analyses with panel data to explore the relationship of reclassification with MLs’ science achievement at a national scale, and then, how variation in contextual factors (including family, school, and individual characteristics) shapes this relationship. Results show that, after controlling for covariates and prior test scores, reclassification is not significantly associated with differential science test scores when compared to students that retain their EL status. Results further show that reclassification is associated with higher science achievement for MLs who were previously in a dual‐language program but lower scores for those with higher prior achievement. We conclude with implications for the reclassification process, as well as directions for future research on reclassification, multilingual learners, and academic achievement. 

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5. Development of a questionnaire on teachers' beliefs, preparedness, and instructional practices for teaching NGSS science with multilingual learners

   https://doi.org/10.1002/sce.21905  

   Grapin, Scott E; Plumley, Courtney; Banilower, Eric; Sterenberg_Mahon, Alycia J; Craven, Laura; Malzahn, Kristen; Pasley, Joan; Schwenger, Abigail; Haas, Alison; Lee, Okhee (January 2025, Science Education)

   Abstract The limited availability of research instruments that reflect the vision of the Next Generation Science Standards (NGSS) restricts the field's understanding of whether and how teachers are making instructional shifts called for by the standards. The need for such instruments is particularly urgent with teachers of multilingual learners (MLs), who are called on to make shifts in how they think about and enact instruction related to both science and language. The purpose of this study was to develop and gather validity evidence for a questionnaire that measures elementary teachers' beliefs, preparedness, and instructional practices for teaching NGSS science with MLs. We report on the development of the questionnaire over three phases that elicited multiple sources of validity evidence: (a) domain specification and expert review, (b) item writing and cognitive interviews, and (c) piloting and final item selection. Data included feedback from experts in science and language domains, cognitive interviews with 48 teachers, and a pilot with 310 teachers. Results indicated that the questionnaire differentiates among teachers with different levels of the underlying constructs and also that teachers' scores relate to their characteristics (e.g., familiarity with the NGSS). We highlight two implications for emerging research on NGSS‐based instrumentation: (a) the difficulty of communicating with teachers about science and language instructional shifts while teachers are still developing their understanding of such shifts and (b) the potential of emerging NGSS‐based instruments to inform professional development. We close with future directions for our research project specifically and the field of science education broadly. 

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