Abstract
Recent advances in Information and Communication Technologies (ICT) offer significant opportunities to engage students in science education that is relevant to their everyday lives. Northern Australia is one of the most sparsely settled regions of the world with a population density of 0.3 people per square kilometre. In this region lies the Northern Territory, where 47% of students live in remote areas. Access to resources, including qualified science teachers, science centres and scientists, that are freely available to their student counterparts in other parts of Australia and developed nations, are not readily available. Thus, ICT has the potential to play a fundamental role in science education for remote northern Australia. While northern Australia is relatively intact ecologically and its biodiversity richness is internationally significant, this ecological value has been largely unrecognised and absent in school education. In response, the Tropical Savannas Cooperative Research Centre, in partnership with the Northern Territory Department of Education and Training, has developed a range of online, integrated resources that focus on valuing and sustaining the northern environments of Australia. EnviroNorth: Living Sustainably in Australia’s Savannas (http://environorth.org.au) helps bridge the identified gap that exists between the scientific research conducted in northern Australia and science education that is taught in schools. The design-based research that underpins EnviroNorth provides a relevant context for learning in these regions. It also provides a window for engaging learning opportunities in other parts of Australia and the rest of the world. However, despite schools throughout northern Australia embracing ICT, its integration into science education poses a challenge for many teachers. This chapter discusses the affordances of adopted educational technologies in designing and developing these teaching and learning resources, along with the enablers and barriers to adopting ICT and these resources in schools.
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References
Aikenhead, G. (2006). Science education for everyday life. New York: Teachers’ College Press.
Australian Curriculum Assessment and Reporting Authority. (2010). The shape of the Australian curriculum: Science. Retrieved August 18, 2010, from http://www.acara.edu.au/verve/_resources/Australian_Curriculum_-_Science.pdf
Australian Government Department of the Environment and Heritage. (2005). Educating for a sustainable future. Carlton South: Curriculum Corporation.
Becker, H. J., & Ravitz, J. (1999). The influence of computer and internet use on teacher’s pedagogical practices and perceptions. Journal of Research on Computing in Education, 31(4), 356–384.
Becta. (2008). Analysis of emerging trends affecting the use of technology in education. Retrieved August 25, 2010, from http://emergingtechnologies.becta.org.uk/index.php?section=etr&rid=14522
Blythe, T. (1998). The teaching for understanding guide. San Francisco: Jossey-Bass.
Bransford, J., Brown, A., & Cocking, R. R. (Eds.). (2000). How people learn: Brain, mind, experience, and school committee on developments in the science of learning. Retrieved October 28, 2007, from http://www.newhorizons.org/neuro/neu_review_bransford.htm
Bruner, J. (1986). Actual minds, possible worlds. Cambridge, MA: Harvard University Press.
Conole, G., & Fill, K. (2005). A learning design toolkit to create pedagogically effective learning activities. Journal of Interactive Media in Education, 8(8), 1–16.
Crawford, C. (2003). The art of interactive design: A euphonious and illuminating guide to building successful software. San Francisco: No Starch Press.
Department of Education and Training. (2008). Annual report 2008–2009. Darwin: Northern Territory Government Printers.
Dyer, R., Jacklyn, P., Partridge, I., Russell-Smith, J., & Williams, D. (2001). Savanna burning. Darwin: Tropical Savannas CRC.
Ertmer, P. (2005). Teacher pedagogical beliefs: The final frontier in our quest for technology integration? Educational Technology Research and Development, 53(4), 25–39.
Fensham, P. (2006). Student interest in science: The problem, possible solutions, and constraints. Plenary address to the ACER Research Conference 2006, “Boosting science learning – What will it take?” Canberra.
Futurelab. (2004). Designing educational technologies with users. Retrieved September 30, 2009, from http://www.futurelab.org.uk/resources/publications-reports-articles/handbooks/Handbook196
Gardner, H. (1999). Intelligence reframed: Multiple intelligences for the 21st century. New York: Basic Books.
Garnett, S., Woinarski, J., Gerritsen, R., & Duff, G. (2008). Future options for North Australia. Darwin: Uniprint.
Goodrum, D., & Rennie, L. (2007). Australian School Science Education: National Action Plan 2008–2012: Vols. 1 & 2. The National Action Plan. Canberra: Department of Education, Training and Youth Affairs.
Goodrum, D., Hackling, M., & Rennie, L. (2001). The status and quality of teaching and learning of science in Australian schools: A research report, Retrieved March 20, 2004, from http://www.detya.gov.au/schools/publications/index.htm
Haughey, M., & Muirhead, B. (2005). The pedagogical and multimedia designs of learning objects for schools. Australian Journal of Educational Technology, 21(4), 470–490.
Hedberg, J. G. (2007). Searching for disruptive pedagogies: Matching pedagogies to the technologies. Curriculum Leadership, 5(12). Retrieved August 23, 2010, from http://www.curriculum.edu.au/verve/_resources/Hedberg_Paper.pdf
Hedberg, J., & Harper, B. (1997). Creating motivating interactive learning environments. Keynote address at EDMEDIA, Calgary.
Hennessey, S., Wishart, J., Whitelock, D., Deaney, R., Brawn, R., la Velle, L., McFarlane, A., Ruthven, K., & Winterbottom, M. (2007). Pedagogical approaches for technology-integrated science teaching. Computers in Education, 48, 137–152.
Herrington, J., Oliver, R., & Reeves, T. C. (2003). Patterns of engagement in authentic learning environments. Australian Journal of Educational Technology, 19(1), 59–71.
Herrington, J., Oliver, R., & Herrington, A. (2007). Authentic learning on the web: Guidelines for course design. Retrieved October 12, 2009, from http://ro.uow.edu.au/edupapers/48
Hutley, L. B., & Setterfield, S. A. (2007). Savannas. In S. E. Jørgensen (Ed.), Encyclopaedia of ecology. Amsterdam: Elsevier.
Jonassen, D. H. (2000). Computers as Mindtools for schools: Engaging critical thinking. Columbus: Prentice-Hall.
Ma, Y., & Harmon, S. (2009). A case study of design-based research for creating a vision prototype of a technology-based innovative learning environment. Journal of Interactive Learning Research, 20(1), 75–93.
McLoughlin, C., & Oliver, R. (2000). Designing learning environments for cultural inclusivity: A case study of indigenous online learning at tertiary level. Australian Journal of Educational Technology, 16(1), 58–72.
Oliver, R., & Herrington, J. (2001). Teaching and learning online: A beginner’s guide to e-learning and e-teaching in higher education. Perth: Edith Cowan University.
Papadouris, N., Constantinos, P., & Constantinou, T. K. (2009). A methodology for integrating computer-based learning tools in science curricula. Journal of Curriculum Studies, 41(4), 521–538.
Ramsey, G., Hill, G., Bin-Sallik, M., Falk, I., Grady, N., Landrigan, M., & Watterston, W. (2003). Future directions for secondary education in the Northern Territory. Darwin: Department of Employment, Education and Training. Retrieved October 14, 2009, from http://www.det.nt.gov.au/about-us/publications/secondary-education-review
Rodriguez, A. J., & Zozakiewicz, C. (2010). Facilitating the integration of multiple literacies through science education and learning technologies. In A. J. Rodriguez (Ed.), Science education as a pathway to teaching language literacy (pp. 23–45). Rotterdam: Sense Publishers.
Sims, R. (2005). Beyond instructional design: Making learning design a reality. Journal of Learning Design, 1(2), 1–8.
Statistics Singapore. (2009). Statistics Singapore. Retrieved October 13, 2009, from http://www.singstat.gov.sg/stats/keyind.html
Tytler, R. (2007). Re-imagining science education: Engaging students in science for Australia’s future. Melbourne: Australian Council for Educational Research.
Whitehead, P., Russell-Smith, J., & Woinarski, J. C. Z. (2005). Fire, landscape heterogeneity and wildlife management in Australia’s tropical savannas: Introduction and overview. Wildlife Research, 32, 369–375.
Woinarski, J. C. Z., Mackey, B., Nix, B., & Trail, B. (2007). The nature of Northern Australia: Its natural values, ecological processes and future prospects. Canberra: Australian National University.
Acknowledgements
This collaborative science education research project involved many other key people including Viki Kane, Peter Gifford, Dr. Peter Jacklyn, Kate O’Donnell, Barbara White, Dr. Linda Ford, Dr. Penny Wurm, Dr. John Woinarski, Dr. Sam Setterfield, Dr. Michael Douglas, Ian Dixon, Dr. Christine Bach, Dr. Ben Hoffmann, Dr. Lindsay Hutley, Leslee Hills, Stephen Sutton, Dean Yibarbuk, Dr. Adam Liedloff, Andrew Turner, Andrew Edwards, Trudi Oxley, Tom Stockwell, Dr. Darrell Lewis, Dr. Gabriel Crowley, Dr. Gordon Duff and Dr. David Garnett. Bushfires NT provided 50% of funding for the Burning Issues module. The Tropical Savannas Management CRC funded the project, in collaboration with its 16 partners, including Charles Darwin University.
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Crough, J., Fogg, L., Webber, J. (2012). Challenging Opportunities: Integrating ICT in School Science Education. In: Tan, K., Kim, M. (eds) Issues and Challenges in Science Education Research. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-3980-2_17
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