Hostname: page-component-8448b6f56d-tj2md Total loading time: 0 Render date: 2024-04-18T06:19:54.668Z Has data issue: false hasContentIssue false
  • English
  • Français

‘Operation Magpie’: Inspiring Teachers' Professional Learning Through Environmental Science

Published online by Cambridge University Press:  04 October 2012

Yvonne Zeegers ,
Kathryn Paige ,
David Lloyd  and
Philip Roetman
Yvonne Zeegers*
Affiliation:
School of Education, University of South Australia, Australia
Kathryn Paige
Affiliation:
School of Education, University of South Australia, Australia
David Lloyd
Affiliation:
School of Education, University of South Australia, Australia
Philip Roetman
Affiliation:
School of Natural and Built Environments, University of South Australia, Australia
*
Address for correspondence: Yvonne Zeegers, School of Education, University of South Australia, St Bernard's Road, Magill SA 5072, Australia. Email: yvonne.zeegers@unisa.edu.au
Get access Rights & Permissions [Opens in a new window]

Abstract

Operation Magpie was a citizen science project that involved the community in collecting data about magpies. This article describes one aspect of the project from an education perspective. The study began with a collaboration of teacher educators, environmental scientists and a local radio station. After an initial workshop with 75 teachers, three teacher educators met regularly with 13 primary teachers who each volunteered to plan and teach a unit of work on birds. Meeting regularly in focus groups, the teachers shared their pedagogical strategies that supported students to connect with their local environment. Findings include the importance of focused professional learning for teachers through ongoing, needs-based support during the planning and teaching of the unit, and the innovative ways that teachers approached the unit. One unexpected finding was that teachers tended to identify student learning in terms of the English curriculum rather than the science curriculum.

Keywords

professional learningenvironmental scienceCitizen Sciencepedagogyprimary education
Type
Feature Articles
Information
Australian Journal of Environmental Education , Volume 28 , Issue 1 , July 2012 , pp. 27 - 41
Copyright
Copyright © Cambridge University Press 2012

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Akerson, V., & Hanuscin, D. (2007). Teaching nature of science through inquiry: Results of a 3-year professional development program. Journal of Research in Science Teaching, 44 (5), 653680.CrossRefGoogle Scholar
Appleton, K. (1997). Teaching science: Exploring the issues. Rockhampton, Australia: Central Queensland University Press.Google Scholar
Australian Academy of Science. (2007). Primary Connections. Australian Government Department of Education, Science and Training. Retrieved from http://www.science.org.au/primaryconnections/teaching-and-learning/images/5Es.pdfGoogle Scholar
Australian Curriculum, Assessment and Reporting Authority (ACARA). (2011). Phase 1 — The Australian Curriculum. Retrieved from http://www.acara.edu.au/curriculum/phase_1_-_the_australian_curriculum.htmlGoogle Scholar
Barbara Hardy Centre. (2009). Barbara Hardy Institute. Retrieved from http://www.unisa.edu.au/barbarahardy/Google Scholar
Bell, L., Smetana, L., & Binns, I. (2005). Simplifying inquiry instruction: Assessing the inquiry level of classroom activities. The Science Teacher, 72 (7), 3033.Google Scholar
Bouillion, L.M., & Gomez, L.M. (2001). Connecting school and community with science learning: Real world problems and school-community partnerships as contextual scaffolds. Journal of Research in Science Teaching, 38 (8), 878898.CrossRefGoogle Scholar
Brossard, D., Lewenstein, B., & Bonney, R. (2005). Scientific knowledge and attitude change. The impact of a citizen science project. International Journal of Science Education, 27 (9), 10991121.CrossRefGoogle Scholar
Bybee, R. (2002). Scientific inquiry, student learning, and the science curriculum. In Bybee, R. (Ed.), Learning science and the science of learning (pp. 2535). Arlington, VA: NSTA Press.CrossRefGoogle Scholar
Chawla, L., & Cushing, D. (2007). Education for strategic environmental behaviour. Environmental Education Research, 13 (4), 437452.CrossRefGoogle Scholar
Cooper, C., Dickinson, J., Phillips, T., & Bonney, R. (2007). Citizen Science as a tool for conservation in residential ecosystems. Ecology and Society, 12 (2), article 11. Retrieved from http://www.ecologyandsociety.org/vol12/iss2/art11/CrossRefGoogle Scholar
Cronin-Jones, L. (2000). The effectiveness of schoolyards as sites for elementary science instruction. Journal of Research in Science Teaching, 100 (4), 203211.Google Scholar
Cutter-Mackenzie, A., & Smith, R. (2003). Ecological literacy: The ‘missing’ paradigm in environmental education (Part One). Environmental Education Research, 9 (4), 497524.CrossRefGoogle Scholar
Davies, R., & Webber, L. (2004). Enjoying our backyard buddies: Social research informing the practice of mainstream community education for the conservation of urban wildlife. Australian Journal of Environmental Education, 20 (1), 7787.CrossRefGoogle Scholar
Dawson, V., & Moore, L. (2011). Teachers' perspectives of the new Western Australian earth and environmental science course: lessons for the Australian Curriculum. Teaching Science, 57 (1), 1927.Google Scholar
Department of Education and Children's Services. (2004). Companion document series teaching resource: R–10 society and environment. Adelaide, Australia: Author. Retrieved from http://www.sacsa.sa.edu.au/ATT/%7BF51C47E3-B6F3-4765-83C3-0E27FF5DD952%7D/R-10_Society&Environment.pdfGoogle Scholar
Department of Education and Children's Services. (2010). Teaching for effective learning framework guide. Adelaide, Australia: Curriculum Services.Google Scholar
Dempsey, I., & Arthur-Kelly, M. (2007). Maximising learning outcomes in diverse classrooms. Melbourne, Australia: Thomson Learning Australia.Google Scholar
Evans, C., Abrams, E., Reitsma, R., Roux, K., Salmonsen, L., & Marra, P. (2005). The neighborhood nestwatch program: Participant outcomes of a Citizen-Science ecological research project. Conservation Biology, 19 (3), 589594.CrossRefGoogle Scholar
Faire, J., & Cosgrove, M. (1993). Teaching primary science. Waikato, New Zealand: University of Waikato.Google Scholar
Fitzpatrick, J. (2007, June). Opening remarks to the Citizen Science Toolkit Conference, Ithaca, New York.Google Scholar
Fleer, M. (2009). Supporting scientific conceptual consciousness or learning in ‘a roundabout way’ in play-based contexts. International Journal of Science Education, 31 (8), 10691089.CrossRefGoogle Scholar
Goodrum, D., Hackling, M., & Rennie, L. (2001). The status of quality teaching and learning of science in Australian schools. Canberra, Australia: Department of Education, Training and Youth Affairs.Google Scholar
Gouveia, C., Fonseca, A., Câmara, A., & Ferreira, F. (2004). Promoting the use of environmental data collected by concerned citizens through information and communication technologies. Journal of Environmental Management, 71 (2), 135154.CrossRefGoogle ScholarPubMed
Hofstein, A., Navon, O., Kipinis, M., & Mamlok-Naaman, R. (2005). Developing students' ability to ask more and better questions resulting from inquiry-type chemistry laboratories. Journal of Research in Science Teaching, 42 (7), 791806.CrossRefGoogle Scholar
Hodson, D. (2003). Time for action: Science education for an alternative future. International Journal of Science Education, 25 (6), 645670.CrossRefGoogle Scholar
Luera, R.G., & Otto, A.C. (2005). Development and evaluation of an inquiry-based elementary science teacher education program reflecting current reform movements. Journal of Teacher Education, 16 (3), 241258.Google Scholar
Loughran, J. (2010). What expert teachers do: Enhancing professional knowledge for classroom practice. Sydney, Australia: Allen & Unwin.Google Scholar
Louv, R. (2008). Last child in the woods: Saving our children from nature-deficit disorder (2nd ed.). Chapel Hill, NC: Algonquin Books.Google Scholar
Martin-Hansen, L. (2002). Defining inquiry. Science Teacher, 69 (2), 3437.Google Scholar
Ministerial Council on Education, Employment, Training and Youth Affairs (MCEETYA). (2006). The statement of learning for science. Melbourne, Australia: Author.Google Scholar
Phillips, T. (2007, June). NestWatch and virtual NestWatch: An intersection of science, education, conservation, technology. Presentation to the Citizen Science Toolkit Conference, Ithaca, New York.Google Scholar
Rennie, L. (2006, August). The community's contribution to science learning: Making it count. Paper presented at the ACER Research Conference Boosting science learning — What will it take? Canberra, Australia. Retrieved from http://research.acer.edu.au/research_conference_2006/8Google Scholar
Rosenszayn, R., & Assaraf, O. (2011). When collaborative learning meets nature: Collaborative learning as a meaningful learning tool in the Ecology Inquiry Based Project. Research in Science Education, 41 (1), 123146.CrossRefGoogle Scholar
Sinnema, C., Sewell, A., & Milligan, A. (2011). Evidence informed collaborative inquiry for improving teaching and learning. Asia-Pacific Journal of Teacher Education, 39 (3), 247261.CrossRefGoogle Scholar
Skamp, K. (2008). Teaching primary science constructively (3rd ed.), Melbourne, Australia: Harcourt Brace.Google Scholar
Towndrow, P., Tan, A., Yung, B., & Cohen, L. (2010). Science teachers' professional development and changes in science practical assessment practices: What are the issues? Research in Science Education, 40 (2), 117132.CrossRefGoogle Scholar
Tilbury, D. (2004). Rising to the challenge: Education for sustainability in Australia. Australian Journal of Environmental Education. 20 (2), 103114.CrossRefGoogle Scholar
Tytler, R. (2007a). Re-imagining science education: Engaging students in science for Australia's future (Australian Education Review 51). Melbourne, Australia: Australian Council for Educational Research Press.Google Scholar
Tytler, R. (2007b). Re-imagining science education: Engaging students in science for Australia's future. Teaching Science, 53 (4), 1417.Google Scholar
Van der Valk, T., & de Jong, O. (2009). Scaffolding science teachers in open-inquiry teaching. International Journal of Science Education, 31 (6), 829850.CrossRefGoogle Scholar
Vasconcelos, C. (2012). Teaching environmental education through PBL: Evaluation of a teaching intervention program. Research in Science Education, 42 (2), 219232.CrossRefGoogle Scholar