Beyond content and curriculum in elementary classrooms: conceptualizing the cultivation of integrated STEM teacher identity

Galanti, Terrie M.; Holincheck, Nancy

doi:10.1186/s40594-022-00358-8

Cited by 23 publications

(17 citation statements)

References 71 publications

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“…Our model captures the tensions between elementary teachers' own STEM learning experiences, presumptions about good teaching, and the challenges of teaching integrated STEM as inquiry‐driven problem solving using science and mathematics. Integrated STEM teacher identity is distinct from science or mathematics teacher identity because of its transdisciplinary emphasis centered on the engineering design process (Galanti & Holincheck, in press).…”

Section: Theoretical Backgroundmentioning

confidence: 99%

“…Theoretical model of integrated science, technology, engineering, and mathematics (STEM) teacher identity (Galanti & Holincheck, 2022). …”

Section: Theoretical Backgroundmentioning

confidence: 99%

“…Teachers must see themselves as competent STEM learners and facilitators to effectively implement integrated STEM experiences. Integrated STEM teacher identity (Galanti & Holincheck, 2022) is an intertwining of teachers' professional motivation, self‐image, self‐efficacy, and task‐perception (Hanna et al, 2020), as well as perceptions of their own STEM competence, performance, recognition, and interest (Carlone & Johnson, 2007; Hazari et al, 2010).…”

mentioning

confidence: 99%

“…In this article, we use quantitative data from a graduate STEM education course for practicing elementary teachers to examine STEM teaching efficacy beliefs and STEM career awareness. We apply the nine dimensions of our theoretical model of integrated STEM teacher identity (Galanti & Holincheck, 2022) in our qualitative analysis of course assignments. Using this contextualization of the quantitative data, we report on teachers' evolving beliefs about themselves and their readiness to integrate STEM.…”

mentioning

confidence: 99%

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Applying a model of integrated STEM teacher identity to understand change in elementary teachers' STEM self‐efficacy and career awareness

Holincheck,

Galanti

2023

School Sci & Mathematics

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This sequential mixed methods study applies a recently published model of integrated science, technology, engineering, and mathematics (STEM) teacher identity to analyze teacher artifacts from a graduate STEM education course for in‐service teachers (n = 23). This model captures the complexity of integrating STEM in elementary classrooms as an intertwining of professional teacher identity and STEM learning identity. Increases in participating teachers' self‐efficacy and STEM career awareness motivated the research team to look for explanatory qualitative evidence in teacher reflections. Analysis using the nine dimensions of the model elicited robust evidence of professional teacher identity (teaching interest, self‐efficacy, motivation, self‐image, and task perception) and limited evidence of STEM learner identity (competence, performance, recognition, and content interest) in teachers' identity statements. Changes in self‐efficacy and STEM career awareness were associated with only three of nine identity dimensions. Application of this model of integrated STEM teacher identity can provide a deeper understanding of teacher readiness to engage elementary students in authentic problem solving. Findings indicate that purposeful prompting of reflection in STEM teacher education informed by the model may support the cultivation of integrated STEM teacher identities.

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Section: Theoretical Backgroundmentioning

confidence: 99%

“…Theoretical model of integrated science, technology, engineering, and mathematics (STEM) teacher identity (Galanti & Holincheck, 2022). …”

Section: Theoretical Backgroundmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Applying a model of integrated STEM teacher identity to understand change in elementary teachers' STEM self‐efficacy and career awareness

Holincheck,

Galanti

2023

School Sci & Mathematics

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“…While there have been positive reports on the outcomes of integrated STEM initiatives (e.g., Hobbs et al, 2018), there are relatively few longitudinal evaluation reports on the implementation of STEM programmes—a situation aggravated by funding within STEM that tends to be focused on single disciplines (e.g., Li et al, 2020). Of those programmes that claim successful outcomes, factors that seem key are interdisciplinary collaboration and the sharing of knowledge between and across faculties/departments (e.g., Lane et al, 2022; Li, 2020; Wang et al, 2020), positive teachers' dispositions and beliefs (Dong et al, 2020; El Nagdi et al, 2018; Goos et al, 2020), the provision of time and support for the acquisition of new capabilities (e.g., with digital tools) (Hollman et al, 2019; Kennedy et al, 2014)—all necessary for teachers and students to develop integrated STEM identities (e.g., Galanti & Holincheck, 2022). The lack of longitudinal data about students' attainment of relevant knowledge, understanding, skills, values, attitudes, engagement and participation following STEM interventions is compounded by limited research into the influence of teacher attitudes and school context on the implementation of STEM integration (Hudson et al, 2015; Thibaut et al, 2018) and challenges associated with the assessment of student learning in interdisciplinary STEM education (Gao et al, 2020), making it difficult to draw valid conclusions (Chachashvili‐Bolotin et al, 2016).…”

Section: Research Across Stem Education and Its Practicesmentioning

confidence: 99%

A model for principals' STEM leadership capability

Geiger

Beswick

Fraser

et al. 2023

British Educational Res J

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In this paper we develop a model for the capabilities required by principals for effective Science, Technology, Engineering and Mathematics (STEM) leadership. The model underpinned a large national cross‐sectional research and development project across Australian states in both primary and secondary schools. This model is developed via synthesis of research literature across leadership and STEM education. The model consists of five dimensions of principals' STEM capability: (1) STEM discipline‐specific and integrated knowledge and practices; (2) contexts; (3) dispositions; (4) tools; and (5) critical orientation. These dimensions represent distinct, but interrelated, capacities required by principals to establish and maintain positive STEM learning cultures within schools. Elaborations have been provided, in the form of capabilities, for each of these dimensions. The model has the potential for shaping principals' STEM leadership development trajectories and structuring targeted professional learning programmes for principals, teachers and other members of the school community.

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Promoting teachers' advocacy and agency for equity in STEM education through research and reflection

Holincheck,

Galanti,

Butler

2024

J Res Sci Teach

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Systemic equity challenges in K‐12 STEM education place students from minoritized groups on an uneven footing, restricting access and opportunity for the diverse students who make up the majority population in US public schools. Teachers play a key role in advocating for equity and justice in STEM education. In positioning themselves as agents of change, they have the power to impact their classrooms, schools, and communities. Using a collaborative coding process informed by dominant and critical framings of equity in STEM education, we analyzed equity research presentations and final written reflections from a graduate course for practicing teachers (n = 23) focused on STEM integration. Teacher participants demonstrated one of four advocacy orientations: (a) equity in classroom teaching, (b) STEM education, (c) equity in STEM education, or (d) neither equity nor STEM. Our analysis of teachers' final course reflections led us to develop a rubric using principles of grammar to evaluate the levels of agency evident in teachers' statements. Most teachers were at least minimally agentic for STEM, but fewer teachers were agentic for equity. Only four of 23 teachers were highly agentic for equity in STEM education. We identify a need for more purposeful scaffolding in professional learning to build teacher advocacy and agency for equity in STEM education. Future research should explore the high‐leverage practices in STEM teacher education that foster advocacy and agency.

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Beyond content and curriculum in elementary classrooms: conceptualizing the cultivation of integrated STEM teacher identity

Cited by 23 publications

References 71 publications

Applying a model of integrated STEM teacher identity to understand change in elementary teachers' STEM self‐efficacy and career awareness

Applying a model of integrated STEM teacher identity to understand change in elementary teachers' STEM self‐efficacy and career awareness

A model for principals' STEM leadership capability

Promoting teachers' advocacy and agency for equity in STEM education through research and reflection

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