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ICT Literacy in Earth Sciences

Compiled by Dr. Lesley Farmer, California State University Long Beach
 

 GENERAL:

Association of College & Research Libraries. (2006). Information literacy standards for Science/Engineering/Technology: http://www.ala.org/acrl/standards/infolitscitech

Useful information literacy wiki on geology (includes professional associations, articles, presentations, and curricula) https://acrl.libguides.com/IS/informationliteracyinthedisciplines/geology

Common Core State Standards, Next Generation Science Standards, and state content standards also refer to K-12 ICT competencies (sometimes listed as information literacy, digital literacy, media literacy, or research skills).

 

MERLOT LINKS:

Key terms: earth sciences, geoscience, earth and space science, geology, atmospheric science, climatology, astronomy, planetary science, oceanography, paleontology, more specific aspects of earth sciences (e.g., mineralogy, geophysics, hydrology, meteorology)

  • Science and Technology / Geoscience
  • Academic Support Services/ ICT literacy
  • Academic Support Services/Library and Information Service

 

LIBGUIDES:
  • Dougherty, K. (2013). Getting to the core of geology LibGuides. Science & Technology Libraries, 32(2), 145-159. This paper examined geology LibGuides from 40 U.S. academic institutions; data on their structure and resources are presented.
  • https://libguides.gc.cuny.edu/earth_and_environmental_sciences CUNY University guide to earth and environmental science resources: tutorials, databases, reference sources, government information, associations, maps, translating tools, writing tips, career and grant information, and sources for specific topics (caves, glaciers, environment, meteorology, mineralogy, paleontology, plate tectonics, space weather, structural geology, time scales, tsunamis, volcanoes)
  • https://guides.library.ucdavis.edu/planetary-sciences UC Davis resource  to earth and planetary sciences resources, including arts and reports, USGS publications, reference resources, geologic maps, earthquakes, volcanoes, organization, data management, citation management
  • http://libguides.northwestern.edu/earth Northwestern University guide to databases, reference tools, websites, and organization related to earth and planetary sciences
  • http://libguides.caltech.edu/geology CalTech University guide to geological and planetary sciences resources including databases, maps, geological surveys, California geology, earthquakes, mineralogy, societies and publishers
  • https://libguides.denison.edu/geosciences_guide Denison University basic information about types of sources, search strategy, evaluation, intellectual property; also lists websites, maps, audio/visual sources, and patents about geosciencs
  • http://guides.lib.uiowa.edu/geo University of Iowa guide to geoscience, including databases, news, websites, and citation help
  • http://guides.lib.unc.edu/astronomy-guide University of North Carolina at Chapel Hill guide to astronomy resources, including background information, arts, handbooks, data and standards, patents and technical reports

 

OTHER WEBSITES and ARTICLES:
  • Adanali, R. (2021). How geogames can support geographical education?. Review of International Geographical Education Online, 11(1), 215-235. https://dergipark.org.tr/en/download/article-file/1493622
  • Bauch, N., & Sheldon, C. (2014). Tacit information literacies in beginning college students: Research pedagogy in geography. Harvard Educational Review, 84(3), 403-423.
  • Bristol, R. , et al. (2012). Science strategy for core science systems in the US Geological Survey, 2013—2023–Public review release. Technical report. Washington, DC: US Geological Survey. https://www.researchgate.net/profile/Dean_Gesch/publication/271508464_Science_Strategy_for_Core_Science_Systems_in_the_U.S._Geological_Survey_20132023Public_Review_Release/links/54f604970cf2ca5efefda625.pdf
  • Bursztyn, N., Walker, A., Shelton, B., & Pederson, J. (2017). Assessment of student learning using augmented reality: Grand Canyon field trips for mobile smart devices. Geosphere, 13(2), 260-268.
  • Cho, C. K., Kim, B. Y., & Stoltman, J. (2021). Documenting a geographical issue and its consequences using Photovoice as a pedagogical tool in geography education. Journal of Geography, 120(2), 83-94. https://doi.org/10.1080/00221341.2021.1875497
  • Crider, A. (2015). Teaching visual literacy in the astronomy classroom. New Directions for Teaching and Learning, 2015(141), 7-18. http://onlinelibrary.wiley.com/doi/10.1002/tl.20118/full
  • Fong, B. L., & Wang, M. (2015). Required data management training for graduate students in an Earth and environmental sciences department. Journal of eScience Librarianship, 4(1), 3. http://escholarship.umassmed.edu/cgi/viewcontent.cgi?article=1067&context=jeslib
  • Frank, E. P., & Pharo, N. (2015). Academic librarians in data information literacy instruction: A case study in meteorology. College & Research Libraries, crl15-828. http://crl.acrl.org/content/early/2015/09/24/crl15-828.full.pdf
  • Goff, D. (2015). Benefits and methods of integrating geospatial technology in both educational and professional realms of STEM education. Doctoral project, University of Wyoming http://repository.uwyo.edu/cgi/viewcontent.cgi?article=1006&context=plan_b
  • Guertin, L. (2016). Generating SEG Wiki articles to improve student geoscience content and literacy. The Leading Edge, 35(3), 274-276. http://library.seg.org/doi/full/10.1190/tle35030274.1
  • Harknett, J., Whitworth, M., Rust, D., Krokos, M., Kearl, M., Tibaldi, A., ... & Becciani, U. (2022). The use of immersive virtual reality for teaching fieldwork skills in complex structural terrains. Journal of Structural Geology, 163, 104681. https://www.sciencedirect.com/science/article/pii/S0191814122001730
  • Jakab, I., Ševcík, M., & Grežo, H. (2017). Model of higher GIS education. Electronic Journal of e-Learning, 15(3), 220-234.

    Kundu, S. N., Muhammad, N., & Sattar, F. (2017, December). Using the augmented reality sandbox for advanced learning in geoscience education. In 2017 IEEE 6th International Conference on Teaching, Assessment, and Learning for Engineering (TALE) (pp. 13-17). IEEE.

  • Licciardello, F., Consoli, S., Cirelli, G., Castillo, C., Fernández-Ahumada, E., Montejo-Gámez, J., & Taguas, E. V. (2021). Technology-enhanced learning for promoting technical and social competences in hydrological science. Technology, Knowledge and Learning, 26(4), 985–997. http://dx.doi.org.csulb.idm.oclc.org/10.1007/s10758-021-09510-9

  • Mathers, N., Goktogen, A., Rankin, J., & Anderson, M. (2012). Robotic mission to mars: Hands-on, minds-on, web-based learning. Acta astronautica, 80, 124-131.
  • Nawaz, M., Kundu, S., & Sattar, F. (2017). Augmented reality sandbox and constructivist approach for geoscience teaching and learning. International Journal of Educational and Pedagogical Sciences, 11(6), 1603-1606.
  • Oigara, J., & Keengwe, J. (2013). Students’ perceptions of clickers as an instructional tool to promote active learning. Education and Information Technologies, 18(1), 15-28.
  • Perry, H. (2017). Information Literacy in the Sciences: Faculty Perception of Undergraduate Student Skill. College & Research Libraries, 78(7), 964. doi:https://doi.org/10.5860/crl.78.7.964
  • Rutkofske, J. E., Pavlis, T. L., & Ramirez, S. (2022). Applications of modern digital mapping systems to Assist inclusion of persons with disabilities in geoscience education and research. Journal of Structural Geology, 161. https://doi-org.csulb.idm.oclc.org/10.1016/j.jsg.2022.104655
  • Schulze, U., Kanwischer, D., & Reudenbach, C. (2013). Essential competences for GIS learning in higher education: A synthesis of international curricular documents in the GIS&T domain. Journal of Geography in Higher Education, 37(2), 257-275. https://www.researchgate.net/publication/235798034_Essential_competences_for_GIS_learning_in_higher_education_A_synthesis_of_international_curricular_documents_in_the_GIST_domain
  • Thielen, J., Samuel, S. M., Carlson, J., & Moldwin, M. (2017). Developing and teaching a two-credit data management course for graduate students in climate and space sciences. Issues in Science and Technology Librarianship, (86).
  • Vojtekova, J., Žoncová, M., Tirpáková, A., & Vojtek, M. (2022). Evaluation of story maps by future geography teachers. Journal of Geography in Higher Education, 46(3), 360-382. http://www.tandfonline.com/doi/full/10.11120/plan.2012.00250027
  • Waller, R. I., & Knight, P. G. (2012). Overcoming the barriers to the use of journal articles within the geosciences. Planet, 25(1), 27-32.  
  • Zhu, L., Pan, X., & Gao, G. (2015). Assessing place location knowledge using a virtual globe. Journal of Geography, 1-9.

 

LEARNING ACTIVITIES IDEA STARTERS:
  • Ask students to research a geographic location in terms of geologic changes.
  • Ask students to create a timeline of an earth science concept (e.g., formation of continents, origin of the universe).
  • Ask students to use drawing or image editing software to illustrate an earth science concept (e.g., earthquakes).
  • Ask students to compare land masses around the world in terms of natural disasters, “pinning” results on Google Earth. For instance, small groups could identify floods around the world, and then jigsaw with other groups who researched earthquakes, volcano eruptions, etc. Then the class can identify emerging patterns.
  • Ask students to research the cultural connotation of land features (e.g., mountains, rivers) in different cultures.
  • Ask students to research historical or cultural influences of astronomy.
  • Ask students to research intellectual property law (both copyright and patents/trademarks) as it applies to earth sciences.
  • Ask students to interview personnel in different jobs that build on earth sciences.
  • Ask students to research the same topic in two database aggregators (e.g., GeoScienceWorld, Science Direct, Web of Science), and compare the process and results.
  • Ask students to analyze the representation of earth sciences in movies (e.g., see http://www.amazon.com/Movies-Dissect-Earth-Science-Class/lm/20C7B4VDX8S02); how accurate are the representations? What role do earth scientists play — and how competent are they? Ask students to research the impact of technology on earth sciences.
  • Ask students to research the impact of earth sciences on technology (e.g., astronomy instruments).
  • Ask students to create an infographic about an earth science topic.
  • Ask students to research famous earth scientists, and their connections/influences on each other by developing an annotated concept map/web.
  • Ask students to create a virtual museum exhibit about an aspect of earth science.
  • Ask students to investigate the impact of earth sciences (e.g., economy (e.g., petrology, drought), disasters) in U.S. history using primary sources (e.g., the Library of Congress’s American Memory collections: http://memory.loc.gov/ammem/index.html)
  • Ask students to create a public service announcement that is related to an earth science topic (e.g., disaster preparedness).
  • Ask students to create a field guide for a local geology walk.
  • Ask students to take photos of an earth science concept, and annotate them in terms of locale, evidence of the concept, and implications.