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Open science

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Open science

The six principles of open science [1]

Open science is the movement to make scientific research, data and dissemination accessible to all levels of an inquiring society, amateur or professional. It encompasses practices such as publishing open research, campaigning for open access, encouraging scientists to practice open notebook science, and generally making it easier to publish and communicate scientific knowledge. The European-funded project Facilitate Open Science Training for European Research (FOSTER)[2] has developed an open science taxonomy[3] as an attempt to map the open science field.

Open science began in the 17th century with the advent of the academic journal, when the societal demand for access to scientific knowledge reached a point where it became necessary for groups of scientists to share resources with each other so that they could collectively do their work.[4] In modern times there is debate about the extent to which scientific information should be shared.[5] The conflict is between the desire of scientists to have access to shared resources versus the desire of individual entities to profit when other entities partake of their resources.[6]


  • Background 1
  • History 2
    • Before journals 2.1
    • Emergence of academies and journals 2.2
    • Collaboration among academies 2.3
  • Politics 3
  • Arguments against open science 4
  • Arguments for open science 5
  • Projects promoting open science 6
    • Open science projects 6.1
    • Social initiatives 6.2
    • Organizations practicing or promoting open science 6.3
  • See also 7
  • References 8
  • Sources 9
  • External links 10


Science is broadly understood as collecting, analyzing, publishing, reanalyzing, critiquing, and reusing data. Proponents of open science identify a number of barriers that impede or dissuade the broad dissemination of scientific data.[7] These include financial paywalls of for-profit research publishers, restrictions on usage applied by publishers of data, poor formatting of data or use of proprietary software that makes it difficult to re-purpose, and cultural reluctance to publish data for fears of losing control of how the information is used.[7]

Open science can often include aspects of the open source movement whereby modern science requires software in order to process data and information.[8][9] Open research computation also addresses the problem of reproducibility of scientific results.


The widespread adoption of the institution of the scientific journal marks the beginning of the modern concept of open science. Before this time societies pressured scientists into secretive behaviors.

Before journals

Before the advent of scientific journals, scientists had little to gain and much to lose by publicizing scientific discoveries.[10] Many scientists, including Galileo, Kepler, Isaac Newton, Christiaan Huygens, and Robert Hooke, made claim to their discoveries by describing them in papers coded in anagrams or cyphers and then distributing the coded text.[10] Their intent was to develop their discovery into something off which they could profit, then reveal their discovery to prove ownership when they were prepared to make a claim on it.[10]

The system of not publicizing discoveries caused problems because discoveries were not shared quickly and because it sometimes was difficult for the discoverer to prove priority. Newton and Gottfried Leibniz both claimed priority in discovering calculus.[10] Newton said that he wrote about calculus in the 1660s and 1670s, but did not publish until 1693.[10] Leibniz published a treatise on calculus in 1684. Debates over priority are inherent in systems where science is not published openly, and this was problematic for scientists who wanted to benefit from priority.

These cases are representative of a system of aristocratic patronage in which scientists received funding to develop either immediately useful things or to entertain.[4] In this sense, funding of science gave prestige to the patron in the same way that funding of artists, writers, architects, and philosophers did.[4] Because of this, scientists were under pressure to satisfy the desires of their patrons, and discouraged from being open with research which would bring prestige to persons other than their patrons.[4]

Emergence of academies and journals

Eventually the individual patronage system ceased to provide the scientific output which society began to demand.[4] Single patrons could not sufficiently fund scientists, who had unstable careers and needed consistent funding.[4] The development which changed this was a trend to pool research by multiple scientists into an academy funded by multiple patrons.[4] In 1660 England established the

  • Open Science Group at the Open Knowledge Foundation
  • a TED talk video by Michael Nielsen on open science
  • Open Science a website dedicated to open science, open access and open data
  • Open science and development goals: reshaping research questions & Open science and development: roundup and the way forward by OpenUCT Initiative

External links


  1. ^ Was ist Open Science? online 23.06.2014 from OpenScience ASAP
  2. ^
  3. ^
  4. ^ a b c d e f g h i
  5. ^ Nielsen 2011, p. 198-202.
  6. ^ a b c d
  7. ^ a b
  8. ^
  9. ^
  10. ^ a b c d e Nielsen 2011, p. 172-175.
  11. ^
  12. ^ Groen 2007, p. 215-216.
  13. ^ Kronick 1976, p. 78.
  14. ^ Price 1986.
  15. ^
  16. ^
  17. ^
  18. ^
  19. ^ Nielsen 2011, p. 198.
  20. ^
  21. ^
  22. ^
  23. ^
  24. ^ Nielsen 2011, p. 200.
  25. ^
  26. ^
  27. ^ Nielsen 2011, p. 201.
  28. ^ Nielsen 2011, p. 202.
  29. ^
  30. ^
  31. ^
  32. ^
  33. ^
  34. ^
  35. ^
  36. ^
  37. ^
  38. ^
  39. ^
  40. ^ Swan, Alma. "The Open Access citation advantage: Studies and results to date." (2010).
  41. ^ Nielsen 2011, p. 109.
  42. ^
  43. ^


See also

Organizations practicing or promoting open science

Social initiatives

Open science projects

Big scientific projects are more likely to practice open science than small projects.[41]

Projects promoting open science

There are several components to impact in research, many of which are hotly debated.[38] However, under traditional scientific metrics parts Open science such as Open Access and Open Data have proved to outperform traditional versions.[39][40]

Open Science has more impact

Increasingly the reproducibility of science is being questioned and the term "reproducibility crisis" has been coined.[36] Open Science approaches are proposed as one way to help increase the reproducibility of work.[37]

Open Science will make science more reproducible and transparent

Public funding of research has long been cited as one of the primary reasons for providing Open Access to research articles.[35] Since there is significant value in other parts of the research such as code, data, protocols, and research proposals a similar argument is made that since these are publically funded, they should be publically available under a creative commons licence.

Science is publically funded so all results of the research should be publically available[34]

In January 2014 J. Christopher Bare published a comprehensive "Guide to Open Science".[33]

An article published by a team of NASA astrobiologists in 2010 in Science reported a bacterium known as GFAJ-1 that could purportedly metabolize arsenic (unlike any previously known species of lifeform).[29] This finding, along with NASA's claim that the paper "will impact the search for evidence of extraterrestrial life", met with criticism within the scientific community. Much of the scientific commentary and critique around this issue took place in public forums, most notably on Twitter, where hundreds of scientists and non-scientists created a hashtag community around the hashtag #arseniclife.[30] University of British Columbia astrobiologist Rosie Redfield, one of the most vocal critics of the NASA team's research, also submitted a draft of a research report of a study that she and colleagues conducted which contradicted the NASA team's findings; the draft report appeared in arXiv,[31] an open-research repository, and Redfield called in her lab's research blog for peer review both of their research and of the NASA team's original paper.[32]

Open access publication of research reports and data allows for rigorous peer-review

A recent controversy around scientific publication illustrates potential benefits of open science.

Arguments for open science

When more people report data it will take longer for anyone to consider all data, and perhaps more data of lower quality, before drawing any conclusion.[28]

Increasing the scale of science will make verification of any discovery more difficult.

In 2009 NASA launched the Kepler spacecraft and promised that they would release collected data in June 2010. Later they decided to postpone release so that their scientists could look at it first. Their rationale was that non-scientists might unintentionally misinterpret the data, and NASA scientists thought it would be preferable for them to be familiar with the data in advance so that they could report on it with their level of accuracy.[27]

The public will misunderstand science data.

In 2009 scientists' email regarding climate research was stolen, starting the Climatic Research Unit email controversy. In 2011, Dutch researchers announced their intention to publish a research paper in the journal Science describing the creation of a strain of H5N1 influenza which can be easily passed between ferrets, the mammals which most closely mimic the human response to the flu.[21] The announcement triggered a controversy in both political[22] and scientific[23] circles about the ethical implications of publishing scientific data which could be used to create biological weapons. These events are examples of how science data could potentially be misused.[24] Scientists have collaboratively agreed to limit their own fields of inquiry on occasions such as the Asilomar conference on recombinant DNA in 1975,[25]:111 and a proposed 2015 worldwide moratorium on a human-genome-editing technique.[26]

Science will be used for bad things.

Some scientists find inspiration in their own thoughts by restricting the amount of information they get from others.[19] Alexander Grothendieck has been cited as a scientist who wanted to learn with restricted influence when he said that he wanted to "reach out in (his) own way to the things (he) wished to learn, rather than relying on the notions of consensus."[20]

Too much unsorted information overwhelms scientists.

People have proposed various arguments for keeping a certain amount of exclusivity in science.

The open sharing of research data is not widely practiced

Arguments against open science

In December 2011, some United States legislators introduced a bill called the Research Works Act, which would prohibit federal agencies from issuing grants with any provision requiring that articles reporting on taxpayer-funded research be published for free to the public online.[16] Darrell Issa, a co-sponsor of the bill, explained the bill by saying that "Publicly funded research is and must continue to be absolutely available to the public. We must also protect the value added to publicly funded research by the private sector and ensure that there is still an active commercial and non-profit research community."[17] One response to this bill was protests from various researchers; among them was a boycott of commercial publisher Elsevier called The Cost of Knowledge.[18]

In many countries, governments fund some science research. Scientists often publish the results of their research by writing articles and donating them to be published in scholarly journals, which frequently are commercial. Public entities such as universities and libraries subscribe to these journals. Michael Eisen, a founder of the Public Library of Science, has described this system by saying that "taxpayers who already paid for the research would have to pay again to read the results."[15]


In modern times many academies have pressured researchers at publicly funded universities and research institutions to engage in a mix of sharing research and making some technological developments proprietary.[6] Some research products have the potential to generate commercial revenue, and in hope of capitalizing on these products, many research institutions withhold information and technology which otherwise would lead to overall scientific advancement if other research institutions had access to these resources.[6] It is difficult to predict the potential payouts of technology or to assess the costs of withholding it, but there is general agreement that the benefit to any single institution of holding technology is not as great as the cost of withholding it from all other research institutions.[6]

Collaboration among academies

[14] Since then publishing has expanded at even greater rates.[13] By 1699 there were 30 scientific journals; by 1790 there were 1052.[12] devoted to science, and the foundation for the growth of scientific publishing.academic journal, the first Philosophical Transactions of the Royal Society became the editor of Henry Oldenburg In 1665, [11][4]

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