This paper reports on an Action Research project that investigated the integration of Aboriginal and Western knowledge into science learning in a Montessori classroom in regional Queensland, Australia. Drawing on the local knowledge of fauna of community members, the study explored the teaching of science to 12-year 8–9 students in an Aboriginal independent high school in Queensland. The overall study covered 83 lessons that included an initial Short-beaked echidna study. It applied thematic analysis to data to explore the effect of this integrated approach on students’ pride in heritage, cultural knowledge, learning and the Linnaean zoology taxonomy. Results revealed that the contextualisation of Aboriginal and Western science knowledge strengthened students’ Aboriginal personal identity as well as identities as science learners and status of local Aboriginal knowledge.
A one-year mathematics project that focused on measurement was conducted with six Torres Strait Islander schools and communities. Its key focus was to contextualise the teaching and learning of measurement within the students' culture, communities and home languages. Six teachers and two teacher aides participated in the project. This paper reports on the findings from the teachers' and teacher aides' survey questionnaire used in the first Professional Development session to identify: a) teachers' experience of teaching in the Torres Strait Islands, b) teachers' beliefs about effective ways to teach Torres Strait Islander students, and c) contexualising measurement within Torres Strait Islander culture, communities and home languages. A wide range of differing levels of knowledge and understanding about how to contextualise measurement to support student learning were identified and analysed. For example, an Indigenous teacher claimed that mathematics and the environment are relational, that is, they are not discrete and in isolation from one another, rather they interconnect with mathematical ideas emerging from the environment of the Torres Strait communities.
This research article addresses an important issue related to how teachers can support Aboriginal secondary school students' learning of science. Drawn from a larger project that investigated the study of vertebrates using Queensland Indigenous knowledges and Montessori Linnaean materials to engage Indigenous secondary school students, this article focuses on the three-staged lessons from that study. Using an Action Research approach and working with participants from one secondary high school in regional Queensland with a high Indigenous population, there were several important findings. First, the materials and the three-staged lessons generated interest in learning Eurocentric science knowledge. Second, repetition, freedom and unhurried inclusion of foreign science knowledges strengthened students' Aboriginal personal identity as well as identities as science learners. Third, privileging of local Aboriginal knowledge and animal language gave rise to meaningful and contextualised Linnaean lessons and culturally responsive practices.
Success in primary and secondary school mathematics is becoming increasingly important to today's teachers, students, parents and employment providers in Australia. Mathematics is viewed as high status and essential for a range of employment opportunities. The Disability Standards for Education [1] and the Australian Curriculum, Reporting and Assessment Authority [2] underscore the rights of students with disability to access the curriculum on the same basis as students without disability. They are entitled to rigorous, relevant and engaging learning opportunities drawn from Australian Curriculum content on the same basis as students without disability. Taking this context into account, this paper provides a work-in-progress report about a two year mathematics intervention project conducted in twelve special schools (Preparatory to Year 12) in Queensland, Australia. The purpose of the project was to address an important problem related to the mathematics achievement of students with disability. It aimed to build the capacity of the schools and teachers in relation to teaching mathematics to their students and to identify and make sense of the intervening program's impact. It combined two approaches, appreciative inquiry [3] and action research [4] to monitor schools' planning for change. Interim findings demonstrated that teachers were concerned about their students' underachievement in mathematics and how to assess this and that multi-sensory forms of teaching and learning advocated in the program increased students' engage and performance. The adoption of reflective teacher portfolios demonstrated their usefulness for engaging teachers in appreciative inquiry and action research to monitor the implementation and impact of the program in their schools and classrooms.
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