Abstract
When we went to school our reading of information was quite different from that of students today. Information we had access to was limited in range and predominantly in print form and there was an implied perception of trust in the information due to the accountability that was attached to print forms. Today we live in a ‘digital universe’ where information is rapidly expanding; it is instantly and continually accessible without having to leave the confines of our classroom or home, and almost immediately available from the time of generation and often with little evidence of source or validity. The information varies from vitally important matters of life and death to the trivial and unimportant, such as what a distant relative ate for supper. The International Data Corporation (IDC) predicts that digital information will grow 47 % in 2011 alone to reach 1.8ZB (1.8 × 1021 bytes) and rocketing to 7 ZB by 2015 (IDC, 2010). This enormity of information changes the landscape of how in our everyday lives we filter, select, and read information and how it is shared and used in classrooms. Of particular importance is how students themselves find and evaluate information—tasks that teachers have set for students for generations but now occurring in a rapidly changing digital universe.
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References
Adams, S.T. (1999). Critiquing claims about global warming from the World Wide Web: A comparison of high school students and specialists. Bulletin of Science, Technology & Society,19, 539. doi:10.1177/027046769901900610
Alaskan Native Science Commission (ANSC). (1994). What is traditional knowledge? Traditional knowledge systems in the Arctic. Anchorage, AK: Author. Retrieved from http://www.nativescience.org/issues/tk.htm
Learning A. Focus on inquiry: A teachers guide to implementing inquiry-based learning. Alberta, Canada: Author; 2004.
Education A. Biology 20-30: Program of Studies. Alberta, Canada: Author; 2007.
Education A. ICT Outcomes, Division 4. Alberta, Canada: Author; 2008.
Asselin M. Teaching information skills in the information age: An examination of trends in the middle grades. School Libraries Worldwide. 2005;11(1):17–35.
Barranoik L. Research success with senior high school students. School Libraries Worldwide. 2001;7(1):28–45.
Bartholomew H, Osborne J, Ratcliffe M. Teaching pupils ‘ideas about science’: Case studies from the classroom. New Orleans: A paper presented at the National Association for Research in Science Teaching Conference; 2002.
Bell RL, Smetana L, Binns I. Simplifying inquiry instruction. The Science Teacher. 2005;72(7):30–33.
Bingle WH, Gaskell J. Scientific literacy for decision making and the social construction of scientific knowledge. Science Education. 1994;78(2):185–201. doi:10.1002/sce.3730780206.
Björk, B.-C. (2007). A model of scientific communication as a global distributed information system. Information Research, 12(2) paper 307.
Brem SK, Russell J, Weems L. Science on the Web: Student evaluations of scientific arguments. Discourse Processes. 2001;32(2–3):191–213. doi:10.1080/0163853X.2001.9651598.
Brill G, Falk H, Yarden A. The learning processes of two high-school Biology students when reading primary literature. International Journal of Science Education. 2004;26:497–512. doi:10.1080/0950069032000119465.
Cohen, L.B. (2011). Boolean searching on the Internet. Retrieved from http://www.internettutorials.net
Crawford BA. Embracing the essence of inquiry: New roles for science teachers. Journal of Research in Science Teaching. 2000;37:916–937. doi:10.1002/1098-2736(200011)37:9<916::AID- TEA4>3.3.CO;2-U.
Ebenezer, J.V., & Lau, E. (2003). Science on the Internet (2nd ed.). Upper Saddle River, New Jersey: Pearson Education.
Sun TE. Fur flies at the seal hunt. News: The Edmonton Sun; 2006, March 26. p. 3.
Farris-Berg, K. (2008). Inspiring the next generation of innovators: Students, parents and educators speak up about science education. Irvine, CA: Project Tomorrow. Retrieved from http://www.tomorrow.org/speakup/scienceReport.html
Fidel R, Davies RK, Douglass MH. A visit to the information mall: Web searching behavior of high school students. Journal of the American Society for Information Science. 1999;50:24–37. doi:10.1002/(SICI)1097-4571(1999) 50:1<24::AID-ASI5>3.0.CO;2-W.
Fink S. Seals and sealing in Canada. Guelph, ON: International Fund for Animal Welfare; 2007.
Fisheries and Oceans Canada. (2006). Atlantic Canada seal hunt: Myths and realities. Ottawa, ON: Government of Canada.
Gott R, Duggan S. Investigative work in the science curriculum. Buckingham: Open University Press; 1995.
Hayes DP. The growing inaccessibility of science. Nature. 1992;356:739–740. doi:10.1038/356739a0.
Head AJ, Eisenberg MB. Finding context: What today’s college students say about conducting research in the digital age. Project Information Literacy Progress Report: University of Washington; 2009.
Heinström, J. (2006). Fast surfing for availability or deep diving into quality: Motivation and information seeking among middle and high school students. Information Research, 11. Retrieved March 8, 2008, from http://informationr.net/ir/11-4/paper265.html
International Data Corporation (IDC). (2010). IDC predictions 2011: Welcome to the new mainstream. (Filing Information IDC #225878). Retrieved from http://www.idc.com/research/predictions11/downloads/IDCPredictions2011_WelcometotheNewMaiWelcome.pdf
Jones, B. D. (1999). Conducting Internet inquiry projects: Comparing the motivation and achievement of two groups of high school biology students. Dissertation Abstracts International Section A: Humanities and Social Sciences, 60(12-A), 4317.
Julien H, Barker S. How high school students find and evaluate scientific information: A basis for information literacy skills development. Library & Information Science Research. 2009;31(1):12–17. doi:10.1016/j.lisr.2008.10.008.
King, D. W., Tenopir, C., & Clarke, M. (2006). Measuring total readings of journal articles. D-Lib Magazine, 12(10). Retrieved from http://www.dlib.org/dlib/october06/king/10king.html
Kolstø SD. To trust or not to trust,… ‘pupils’ ways of judging information encountered in a socio-scientific issue. International Journal of Science Education. 2001;23(9):877–901. doi:10.1080/09500690010016102.
Levinson R. Teachers’ perceptions of the role of evidence in teaching socio-scientific issues. The Curriculum Journal. 2006;17(3):247–262. doi:10.1080/09585170600909712.
National Research Council. (1996). National science education standards. Washington, DC: Academy Press. Retrieved from http://www.nap.edu/readingroom/books/nses
Neuendorf KA. The content analysis guidebook. Thousand Oaks: Sage Publications; 2002.
Norris SP, Phillips LM. How literacy in its fundamental sense is central to scientific literacy. Science Education. 2003;87(2):224–40. doi:10.1002/sce.10066.
Norris SP, Phillips LM. The relevance of a reader’s knowledge within a perspectival view of reading. Journal of Reading Behavior. 1994;26(4):391–412.
Phillips LM, Norris SP. Interpreting popular reports of science: What happens when the reader’s world meets the world on paper? International Journal of Science Education. 1999;21(3):317–27. doi:10.1080/095006999290723.
Ratcliffe M. Evaluation of abilities in interpreting media reports of scientific research. International Journal of Science Education. 1999;21(10):1085–1099. doi:10.1080/095006999290200.
Scott TJ, O’Sullivan MK. Analyzing student search strategies: Making a case for integrating information literacy skills into the curriculum. Teacher Librarian. 2005;33:21–25.
Sensenbaugh R. Multiplicities of literacies in the 1990’s. Bloomington, IN: ERIC Clearinghouse on Reading and Communication Skills; 1990, July.
Shenton AK. The information-seeking behavior of teenagers in an English high school. School Librarian. 2007;55:125–127.
United Nations Educational, Scientific and Cultural Organization (UNESCO) (2009). Information literacy. Retrieved from http://portal.unesco.org/ci/en/ev.php-URL_ID=27055&URL_DO=DO_TOPIC&URL_SECTION=201.html
Walker BL, Huber RA. Helping students to read science textbooks. Science Scope. 2002;26(1):39–40.
Warren D. The nature of science: Understanding what science is all about. London: Royal Society of Chemistry; 2001.
Williams D, Coles L. Evidence-based practice in teaching: An information perspective. Journal of Documentation. 2007;63:812–835. doi:10.1108/00220410710836376.
Windschitl, M. (2008). What is inquiry? A framework for thinking about authentic scientific practice in the classroom. In J. Luft, R.L. Bell, & J. Gess-Newsome. (Eds.). Science as inquiry in the secondary setting (pp. 1-20). Arlington, VA: National Science Teachers Association.
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Barker, S., Julien, H. (2012). Reading for Evidence. In: Norris, S.P. (eds) Reading for Evidence and Interpreting Visualizations in Mathematics and Science Education. SensePublishers, Rotterdam. https://doi.org/10.1007/978-94-6091-924-4_2
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