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Journal of Geoscience Education Volume 63, 2015 - Issue 3
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CURRICULUM AND INSTRUCTION

Arctic Climate Connections Curriculum: A Model for Bringing Authentic Data Into the Classroom

Anne U. Gold Cooperative Institute for Research in Environmental Sciences, University of Colorado Boulder, Research Lab 2, UCB 449, Boulder, Colorado, 80309, USA
,
Karin Kirk Independent Educational Consultant, 329 Little Wolf Road, Bozeman, Montana 59715, USA
,
Deb Morrison School of Education, University of Colorado Boulder, 1134 CO-93, Boulder, Colorado, 80302, USA
,
Susan Lynds Cooperative Institute for Research in Environmental Sciences, University of Colorado Boulder, Research Lab 2, UCB 449, Boulder, Colorado, 80309, USA
,
Susan Buhr Sullivan Cooperative Institute for Research in Environmental Sciences, University of Colorado Boulder, Research Lab 2, UCB 449, Boulder, Colorado, 80309, USA
,
Andrey Grachev Cooperative Institute for Research in Environmental Sciences, University of Colorado Boulder, Research Lab 2, UCB 449, Boulder, Colorado, 80309, USA; Earth System Research Laboratory, National Oceanic and Atmospheric Administration, 325 Broadway, Boulder, Colorado 80305, USA Cooperative Institute for Research in Environmental Sciences, University of Colorado Boulder
&
Ola Persson Cooperative Institute for Research in Environmental Sciences, University of Colorado Boulder, Research Lab 2, UCB 449, Boulder, Colorado, 80309, USA; Earth System Research Laboratory, National Oceanic and Atmospheric Administration, 325 Broadway, Boulder, Colorado 80305, USA Cooperative Institute for Research in Environmental Sciences, University of Colorado Boulder
 show all
Pages 185-197 | Received 22 May 2014, Accepted 21 May 2015, Published online: 14 Jun 2018

REFERENCES

  • Alpert, C.L. 2009. Broadening and deepening the impact: A theoretical framework for partnerships between science museums and STEM research centres. Social Epistemology , 23 (3–4):267–281.
  • Anderson, L.W., and Krathwohl, D.R., eds. 2001. A taxonomy for learning, teaching and assessing: A revision of Bloom's taxonomy of educational objectives, complete ed. New York: Longman.
  • Aronson, E. 1978. The jigsaw classroom. New York: Sage.
  • Bloom, B.S., Engelhart, M.D., Furst, E.J., Hill, W.H., and Krathwohl, D.R. 1956. Taxonomy of educational objectives: The classification of educational goals. Handbook I: Cognitive domain. New York: David McKay.
  • Bodzin, A.M., Anastasio, D., and Kulo, V. 2014. Designing Google Earth activities for learning Earth and environmental science. In MaKinster, J., Trautmann, N., and Barnett, M., eds., Teaching science and investigating environmental issues with geospatial technology. Dordrecht, the Netherlands: Springer, p. 213–232.
  • Butler, D.M., and MacGregor, I.D. 2003. GLOBE: Science and education. Journal of Geoscience Education , 51:9–20.
  • Carter, B.E., and Wiles, J.R. 2014. Scientific consensus and social controversy: Exploring relationships between students' conceptions of the nature of science, biological evolution, and global climate change. Evolution: Education and Outreach , 7:6.
  • Cooperative Institute for Research in Environmental Sciences . 2015. Arctic Climate Connections. Available at http://cires.colorado.edu/education-outreach/resources/curriculum/arctic-climate-connections/ (accessed 21 July 2015).
  • Dupigny-Giroux, L.A.L. 2010. Exploring the challenges of climate science literacy: Lessons from students, teachers and lifelong learners. Geography Compass , 4 (9):1203–1217.
  • Ellwein, A.L., Hartley, L.M., Donovan, S., and Billick, I. 2014. Using rich context and data exploration to improve engagement with climate data and data literacy: Bringing a field station into the college classroom. Journal of Geoscience Education , 62 (4):578–586.
  • Frodeman, R., and Parker, J. 2009. Intellectual merit and broader impact: The National Science Foundation's Broader Impacts criterion and the question of peer review. Social Epistemology , 23 (3–4):337–345.
  • Glaser, B.G., and Strauss, A.L. 1967. The discovery of grounded theory: Strategies for qualitative research. New Brunswick, NJ: Transaction Publishers.
  • Gold, A.U., Ledley, T.S., Buhr, S.M., Fox, S., McCaffrey, M., Niepold, F., Manduca, C., and Lynds, S.E. 2012. Peer-review of digital educational resources—A rigorous review process developed by the Climate Literacy and Energy Awareness Network (CLEAN). Journal of Geoscience Education , 60:295–308.
  • Gormally, C., Brickman, P., and Lutz, M. 2012. Developing a test of scientific literacy skills (TOSLS): Measuring undergraduates' evaluation of scientific information and arguments. CBE-Life Sciences Education , 11 (4):364–377.
  • Grachev, A.A., Uttal, T., Persson, P.O.G., Stone, R.S., Repina, I.A., Artamonov, A.Y., and Albee, R. 2012. Boundary-layer measurements and surface fluxes in Arctic at the Eureka (Canada) and Tiksi (Russia) climate observatories. EGU2012-2535. Presented at the European Geosciences Union General Assembly, Vienna, Austria, 22–27 April 2012. Available at http://presentations.copernicus.org/EGU2012-2535_presentation.pdf (accessed 13 March 2015).
  • Hake, R. 1998. Interactive-engagement versus traditional methods: A six-thousand–student survey of mechanics test data for introductory physics courses. American Journal of Physics , 66:64–74.
  • Hancock, G., and Manduca, C.A. 2005. Developing quantitative skills activities for geoscience students. Eos, Transactions American Geophysical Union , 86:354–355.
  • Handelsman, J., Ebert-May, D., Beichner, R., Bruns, P., Chang, A., DeHaan, R., Gentile, J., Lauffer, S., Stewart, J., Tilghman S.M., and Wood W.B. 2004. Scientific teaching. Science , 304 (5670):521–522.
  • Hannula, K.A. 2003. Revising geology labs to explicitly use the scientific method. Journal of Geoscience Education , 51:194–200.
  • Holbrook, J.B. 2005. Assessing the science–society relation: The case of the US National Science Foundation's second merit review criterion. Technology in Society , 27 (4):437–451.
  • Houseal, A.K., Abd-El-Khalick, F., and Destefano, L. 2014. Impact of a student–teacher–scientist partnership on students' and teachers' content knowledge, attitudes toward science, and pedagogical practices. Journal of Research in Science Teaching , 51 (1):84–115.
  • Kastens, K.A., and Manduca, C.A. 2012. Fostering knowledge integration in geoscience education. In Kastens, K.A., and Manduca, C.A., eds., Earth and mind II: A synthesis of research and thinking in learning in the geosciences. Geological Society of America Special Papers , 486:183–206.
  • Laursen, S., and Brickley, A. 2011. Focusing the camera lens on the nature of science: Evidence for the effectiveness of documentary film as a broader impacts strategy. Journal of Geoscience Education , 59:126–138.
  • Ledley, T.S., Dahlman, L., McAuliffe, C., Haddad, N., Taber, M.R., Domenico, B., Lynds, S., and Grogan, M. 2011. Making Earth Science data accessible and usable in education. Science , 333:1838–1839.
  • Ledley, T.S., Gold, A.U., Niepold, F., and McCaffrey, M. 2014. Moving toward collective impact in climate change literacy: The Climate Literacy and Energy Awareness Network (CLEAN). Journal of Geoscience Education , 62 (3):307–318.
  • Ledley, T.S., Prakash, A., Manduca, C.A., and Fox, S. 2008. Recommendations for making geoscience data accessible and usable in education. Eos, Transactions American Geophysical Union , 89:291–291.
  • Ledley, T.S., Taber, M.R., Lynds, S., Domenico, B., and Dahlman, L. 2012. A model for enabling an effective outcome-oriented communication between the scientific and educational communities. Journal of Geoscience Education , 60:257–267.
  • Leiserowitz, A., Maibach, E., Roser-Renouf, C., Feinberg, G., and Howe, P. 2013. Climate change in the American mind: Americans' global warming beliefs and attitudes, April 2013. New Haven, CT: Yale Project on Climate Change Communication, Yale University and George Mason University.
  • Leiserowitz, A., Smith, N., and Marlon, J.R. 2011. American teens' knowledge of climate change. New Haven, CT: Yale Project on Climate Change Communication. Available at http://environment.yale.edu/climate-communication/files/American-Teens-Knowledge-of-Climate-Change.pdf (accessed 13 March 2015).
  • Lok, C. 2010. Science funding: Science for the masses. Nature , 465 (7297):416.
  • Lombardi, D., and Sinatra, G.M. 2012. College students' perceptions about the plausibility of human-induced climate change. Research in Science Education , 42:201–217.
  • Lynds, S., and Merryman, K. 2012. CLEAN informant survey number 2 descriptive data internal evaluation report. Raw data provided by Inverness Research. Unpublished report, 158 p.
  • Macdonald, R.H., Srogi, L., and Stracher, G.B. 2000. Building quantitative skills of students in geoscience courses. Journal of Geoscience Education , 48:409–412.
  • Manduca, C.A., Baer, E., Hancock, G., Macdonald, R.H., Patterson, S., Savina, M., and Wenner, J. 2008. Making undergraduate geoscience quantitative. Eos, Transactions American Geophysical Union , 89:149–150.
  • Manduca, C.A., and Kastens, K.A. 2012. Geoscience and geoscientists: Uniquely equipped to study Earth. Geological Society of America Special Papers , 486:1–12.
  • Manduca, C.A., and Mogk, D.W. 2003. Using data in undergraduate science classrooms. Final report on an interdisciplinary workshop held at Carleton College, April 2002. Northfield, MN: Carleton College, Science Education Resource Center.
  • Manduca, C.A., Mogk, D., and Stillings, N. 2002. Bringing research on learning to the geosciences. Workshop report funded by the National Science Foundation and the Johnson Foundation, July 2002, 32 p.
  • Manduca, C.A., Mogk, D.W., Tewksbury, B., Macdonald, R.H., Fox, S.P., Iverson, E.R., Kirk, K., McDaris, J., Ormand, C., and Bruckner, M. 2010. SPORE: Science Prize for Online Resources in Education. On the cutting edge: Teaching help for geoscience faculty. Science , 327:1095–1096.
  • Maxwell, J.A. 2005. Qualitative research design: An interactive approach, 2nd ed. Thousand Oaks, CA: Sage Publications.
  • McConnell, D.A., Steer, D.N., and Ownes, K.D. 2003. Assessment and active learning strategies for introductory geology courses. Journal of Geoscience Education , 51:205–216.
  • Means, B. 1998. Melding authentic science, technology, and inquiry-based teaching: Experiences of the GLOBE program. Journal of Science Education and Technology , 7:97–105.
  • Melillo, J.M., Richmond, T.C., and Yohe, G.W., eds. 2014. Climate change impacts in the United States: The third national climate assessment. Washington, DC: U.S. Global Change Research Program, 841 p.
  • Miles, M.B., and Huberman, M. 1994. Qualitative data analysis: An expanded sourcebook, 2nd ed. Thousand Oaks, CA: Sage Publications.
  • Morrow, C.A. 2013. The role of a new research-based assessment tool in identifying misconceptions and detecting conceptual change in undergraduate learners. Presented at the GSA Annual Meeting, Denver, CO, October 2013, Paper No. 317-4.
  • National Oceanic and Atmospheric Administration (NOAA) . 2015. Climate Data Online. Available at http://www.ncdc.noaa.gov/cdo-web/ (accessed 21 July 2015).
  • National Research Council . 2012. A framework for K–12 science education: Practices, crosscutting concepts, and core ideas. Washington, DC: National Academies Press.
  • National Science Foundation (NSF) . 2015 a. Broader Impacts review criterion. Available at http://www.nsf.gov/pubs/2007/nsf07046/nsf07046.jsp (accessed 20 March 2015).
  • National Science Foundation (NSF) . 2015 b. Perspectives on broader impacts. NSF 15-008. Available at http://www.nsf.gov/od/iia/publications/Broader_Impacts.pdf (accessed 20 March 2015).
  • Next Generation Science Standards (NGSS) Lead States . 2013. Next Generation Science Standards: For states, by states. Washington, DC: National Academies Press.
  • Petes, L., and Hubbard, S. 2014. A call to action to advance climate education and literacy. Office of Science and Technology Policy. Available at http://www.whitehouse.gov/blog/2014/10/22/call-action-advance-climate-education-and-literacy (accessed 20 March 2015).
  • Prince, M. 2004. Does active learning work? A review of the research. Journal of Engineering Education , 93:223–231.
  • Schweizer, S., Davis, S., and Thompson, J.L. 2013. Changing the conversation about climate change: A theoretical framework for place-based climate change engagement. Environmental Communication , 7:42–62.
  • Scotchmoor, J., Marlino, M.R., and Low, R. 2005. Making a broader impact: Geoscience education, public outreach, and criterion 2. Report of a workshop funded by the National Science Foundation, 11–13 May 2005. Available at http://www.dpc.ucar.edu/gepon/GOW_text_only.pdf (accessed 19 August 2015). University of California Museum of Paleontology and the Digital Library for Earth System Education (DLESE) Program Center, University Corporation for Atmospheric Research (UCAR).
  • Semken, S., and Freeman, C.B. 2008. Sense of place in the practice and assessment of place-based science teaching. Science Education , 92:1042–1057.
  • Taber, M.R., Ledley, T.S., Lynds, S., Domenico, B., and Dahlman, L. 2012. Geoscience data for educational use: Recommendations from scientific/technical and educational communities. Journal of Geoscience Education , 60:249–256.
  • Tretkoff, E. 2007. NSF's “Broader Impacts” criterion gets mixed reviews. APS News , 16 (6). Available at http://www.aps.org/publications/apsnews/200706/nsf.cfm (accessed 13 March 2015).
  • United States Global Change Research Program (USGCRP) . 2009. Climate literacy: The essential principles of climate science. Available at http://www.globalchange.gov/browse/reports/climate-literacy-essential-principles-climate-science-high-resolution-booklet (accessed 13 March 2015).
  • Wiggins, G.P., McTighe, J., Kiernan, L.J., and Frost, F. 1998. Understanding by design. Alexandria, VA: Association for Supervision and Curriculum Development.
  • Wilbanks, T.J., and Kates, R.W. 1999. Global change in local places: How scale matters. Climatic Change , 43:601–628.
  • Windschitl, M. 2004. Folk theories of “inquiry:” How preservice teachers reproduce the discourse and practices of an atheoretical scientific method. Journal of Research in Science Teaching , 41 (5):481–512.

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