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Scientific literacy

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Scientific literacy

Scientific literacy encompasses written, numerical, and digital literacy as they pertain to understanding science, its methodology, observations, and theories.

Contents

  • Definition 1
  • History 2
  • Science, Society and the Environment 3
  • Attitudes as part of scientific literacy 4
  • Promoting and measuring 5
  • See also 6
  • Notes 7
  • References 8
  • Further reading 9

Definition

According to the United States National Center for Education Statistics, "scientific literacy is the knowledge and understanding of scientific concepts and processes required for personal decision making, participation in civic and cultural affairs, and economic productivity".[1] A scientifically literate person is defined as one who has the capacity to:

  • understand experiment and reasoning as well as basic scientific facts and their meaning
  • ask, find, or determine answers to questions derived from curiosity about everyday experiences
  • describe, explain, and predict natural phenomena
  • read with understanding articles about science in the popular press and to engage in social conversation about the validity of the conclusions
  • identify scientific issues underlying national and local decisions and express positions that are scientifically and technologically informed
  • evaluate the quality of scientific information on the basis of its source and the methods used to generate it
  • pose and evaluate arguments based on evidence and to apply conclusions from such arguments appropriately[2]

The OECD PISA Framework (2015) defines scientific literacy as "the ability to engage with science-related issues, and with the ideas of science, as a reflective citizen."[3] A scientifically literate person, therefore, is willing to engage in reasoned discourse about science and technology which requires the competencies to:

  • Explain phenomena scientifically – recognize, offer and evaluate explanations for a range of natural and technological phenomena
  • Evaluate and design scientific inquiry – describe and appraise scientific investigations and propose ways of addressing questions scientifically.
  • Interpret data and evidence scientifically – analyze and evaluate data, claims and arguments in a variety of representations and draw appropriate scientific conclusions.

Scientific literacy may also be defined in language similar to the definitions of ocean literacy,[4]Earth science literacy[5] and Climate Literacy.[6] Thus a scientifically literate person can:

  • understand the science relevant to environmental and social issues
  • communicate clearly about the science
  • make informed decisions about these issues

Finally, scientific literacy may involve particular attitudes toward learning and using science. A scientifically-literate citizen feels concerned about environmental and social issues, responsible to act on these issues, and empowered to use science as a tool in addressing these issues.

History

Reforms in science education in the United States have often been driven by strategic challenges such as the launch of the Sputnik satellite in 1957 and the Japanese economic boom in the 1980s.[7] By contrast, scientific literacy is now taken to mean that everyone should have a working knowledge of science and its role in society. Science literacy is seen as a right of every person and a requirement for responsible members of society, one that helps average people to make better decisions and enrich their lives. The shift occurred in the late 1980s and early 1990s, with the publication of Science for All Americans[8] and Benchmarks for Science Literacy.[9]

Initial definitions of science literacy included elaborations of the actual content that people should understand, and this content often followed somewhat traditional lines (biology, chemistry, physics). Earth science was somewhat narrowly defined as expanded geological processes. In the decade after those initial documents, ocean scientists and educators revised the notion of science literacy to include more contemporary, systems-oriented views of the natural world, leading to scientific literacy programs for the ocean, climate, earth science, and so on. This shift has ensured that educators' views of science literacy stay in sync with the directions and advances of real science in the real world.

Science, Society and the Environment

The interdependence of humans and our natural environment is at the heart of scientific literacy in the Earth systems. As defined by nationwide consensus among scientists and educators, this literacy has two key parts. First, a literate person is defined, in language that echoes the above definition of scientific literacy. Second, a set of concepts are listed, organized into six to nine big ideas or essential principles. This defining process was undertaken first for ocean literacy,[4] then for the Great Lakes,[10] estuaries,[11] the atmosphere,[12] and climate.[6] Earth science literacy[5] is one of the types of literacy defined for Earth systems; the qualities of an Earth science literate person are representative of the qualities for all the Earth system literacy definitions.

According to the Earth Science Literacy Initiative, an Earth-science-literate person:

  • understands the fundamental concepts of Earth’s many systems
  • knows how to find and assess scientifically credible information about Earth
  • communicates about Earth science in a meaningful way
  • is able to make informed and responsible decisions regarding Earth and its resources[5]

All types of literacy in Earth systems have a definition like the above. Ocean literacy is further defined as "understanding our impact on the ocean and the ocean's impact on us".[4] Similarly, the climate literacy website includes a guiding principle for decision making; "humans can take action to reduce climate change and its impacts".[6] Each type of Earth systems literacy then defines the concepts students should understand upon graduation from high school. Current educational efforts in Earth systems literacy tend to focus more on the scientific concepts than on the decision-making aspect of literacy, but environmental action remains as a stated goal.

The theme of science in a socially-relevant context appears in many discussions of scientific literacy. Ideas that turn up in the life sciences include an allusion to

  • Hazen, Robert M.; Trefil, James (2009). Science Matters: Achieving Scientific Literacy (Reprint ed.).  
  • Bybee, Rodger W. (1997). Achieving Scientific Literacy: From Purposes to Practices.  
  • Roth, Wolff-Michael; Barton, Angela Calabrese (2004). Rethinking Scientific Literacy. Critical Social Thought.  

Books on scientific literacy:

Further reading

  • Adams, W. K.; Perkins, K. K.; Podolefsky, N. S.; Dubson, M.; Finkelstein, N. D.; Wieman, C. E. (2006). "A new instrument for measuring student beliefs about physics and learning physics: the Colorado Learning Attitudes about Science Survey".  
  •  
  •  
  •  
  • Chemistry Literacy Project (2009). "Chemistry Literacy Project". Retrieved September 2011. 
  • Climate Literacy Network (2011). "Climate Literacy". Retrieved September 2011. 
  • Cudaback, Cynthia (2008). "Ocean Literacy: There's more to it than content". Oceanography 21 (4): 10–11.  
  • Earth Science Literacy Initiative (2009). "Earth Science Literacy Principles: The Big Ideas and Supporting Concepts of Earth Science". Retrieved September 2011. 
  • Energy Literacy Advocates (2011). "EnergyLiteracy.org: An Informed Democracy Will Act Responsibly". Retrieved September 2011. 
  • Energy Literacy Project. "Linking energy, the economy, the environment". Retrieved September 2011. 
  • Gamire, Elsa; Pearson, Greg, eds. (2006). Tech Tally: Approaches to Assessing Technological Literacy.  
  • Hobson, Art (2003). "Physics literacy, energy and the environment". Physics Education 38 (2): 109–114.  
  • Libarkin, J. C.; Ward, E. M. G.; Anderson, S. W.; Kortemeyer, G.; Raeburn, S. P. (2011). "Revisiting the Geoscience Concept Inventory: A call to the community".  
  • Klymkowsky, Michael W.; Underwood, Sonia M.; Garvin-Doxas, R. Kathleen (2010). "Biological Concepts Instrument (BCI): A diagnostic tool for revealing student thinking". arXiv:1012.4501v1.
  • National Academy of Sciences (1996). National Science Education Standards (Report). National Academy Press. http://www.nap.edu/readingroom/books/nses.
  •  
  •  
  • Literacy "Understanding the Ocean‵s influence on you and your influence on the Ocean". Ocean Literacy Network. 2011. Retrieved September 2011. 
  • Ohio Sea Grant College Program (2010). "Great Lakes Literacy". Retrieved September 2011. 
  • Rutherford, F. James; Ahlgren, Andrew (1991). Science for All Americans: Education for a changing future.  
  • Rutherford, F. James (1997). "Reflecting on Sputnik: Linking the Past, Present and Future of Educational Reform". Washington, DC:  
  •  
  • "Welcome to the GEOSCIENCE CONCEPT INVENTORY Wiki". Wikispaces. Tangient LLC. 2011. Retrieved September 2011. 
  • Wright, Robin (2005). "Undergraduate Biology Courses for Nonscientists: Toward a Lived Curriculum". Cell Biology Education 4 (3): 189–196.  
  • Raloff, Janet (March 13, 2010). "Science literacy: U.S. college courses really count". Science News. Retrieved 10 July 2012. 

References

  1. ^ NAS 1996
  2. ^ NAS 1996, page 22
  3. ^ PISA 2015 Science Framework (Report). OECD. March 2013. http://www.oecd.org/callsfortenders/Annex%20IA_%20PISA%202015%20Science%20Framework%20.pdf. Retrieved 15 October 2014.
  4. ^ a b c OLN 2011
  5. ^ a b c ESLI 2009
  6. ^ a b c d CLN 2011
  7. ^ Rutherford 1997
  8. ^ Rutherford & Ahlgren 1991
  9. ^ American Association for the Advancement of Science 1993
  10. ^ OSGCP 2010
  11. ^ NOAA 2008
  12. ^ UCAR 2007
  13. ^ Wright 2005
  14. ^ Hobson 2003
  15. ^ CLP 2009
  16. ^ Gamire & Pearson 2006
  17. ^ ELA 2011
  18. ^ ELP 2011
  19. ^ Bloom et al. 1969
  20. ^ Adams et al. 2006
  21. ^ Cudaback 2008
  22. ^ AIBS 2011
  23. ^ NCES 2011
  24. ^ Science News 2010
  25. ^ Klymkowsky, Underwood & Garvin-Doxas 2010
  26. ^ Wikispaces 2011
  27. ^ Libarkin et al. 2011

Notes

See also

University educators are attempting to develop reliable instruments to measure scientific literacy, and the use of concept inventories is increasing in the fields of physics, astronomy, chemistry, biology[25] and earth science.[26][27]

[24] Science News reports "The new U.S. rate, based on questionnaires administered in 2008, is seven percentage points behind Sweden, the only European nation to exceed the Americans. The U.S. figure is slightly higher than that for Denmark, Finland, Norway and the Netherlands. And it’s double the 2005 rate in the United Kingdom (and the collective rate for the European Union)." [23] Some organizations have attempted to compare the scientific literacy of adults in different countries. The

Programs to promote scientific literacy among students abound, including several programs sponsored by technology companies, as well as quiz bowls and science fairs. A partial list of such programs includes the Global Challenge Award, the National Ocean Sciences Bowl and Action Bioscience.[22]

Proponents of scientific literacy tend to focus on what is learned by the time a student graduates from high school. Science literacy has always been an important element of the standards movement in education. All science literacy documents have been drafted with the explicit intent of influencing educational standards, as a means to drive curriculum, teaching, assessment, and ultimately, learning nationwide.

Promoting and measuring

The decision making aspect of science literacy suggests further attitudes about the state of the world, one's responsibility for its well-being and one's sense of empowerment to make a difference. These attitudes may be important measures of science literacy, as described in the case of ocean literacy.[21]

Attitudes about science can have a significant effect on scientific literacy. In education theory, understanding of content lies in the cognitive domain, while attitudes lie in the affective domain.[19] Thus, negative attitudes, such as fear of science, can act as an affective filter and an impediment to comprehension and future learning goals. Studies of college students' attitudes about learning physics suggest that these attitudes may be divided into categories of real world connections, personal connections, conceptual connections, student effort and problem solving.[20]

Attitudes as part of scientific literacy

[18][17]

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