Preprint

Typical publishing workflow for an academic journal article (preprint, postprint, and published) with open access sharing rights per SHERPA/RoMEO.

In academic publishing, a preprint is a version of a scholarly or scientific paper that precedes formal peer review and publication in a peer-reviewed scholarly or scientific journal. The preprint may be available, often as a non-typeset version available free, before or after a paper is published in a journal.

History

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Since 1991, preprints have increasingly been distributed electronically on the Internet, rather than as paper copies. This has given rise to massive preprint databases such as arXiv and HAL (open archive) etc. to institutional repositories. The sharing of preprints goes back to at least the 1960s, when the National Institutes of Health circulated biological preprints. After six years the use of these Information Exchange Groups was stopped, partially because journals stopped accepting submissions shared via these channels.[1] In 2017, the Medical Research Council started supporting citations of preprints in grant and fellowship applications,[2] and Wellcome Trust started accepting preprints in grant applications.[3]

In February 2017, a coalition of scientists and biomedical funding bodies including the National Institutes of Health, the Medical Research Council and the Wellcome Trust launched a proposal for a central site for life-sciences preprints.[4][5][6] In February 2017, SciELO announced plans to set up a preprints server – SciELO Preprints.[7] In March 2017, the National Institutes for Health issued a new policy encouraging research preprint submissions.[8][9] In April 2017, Center for Open Science announced that it will be launching six new preprint archives.[10] At the end of the 2010s, libraries and discovery tools increasingly integrate Unpaywall data, which indexes millions of preprints and other green open access sources and manages to serve over half of the requests by users without the need for subscriptions.[11]

During the early months of the COVID-19 pandemic, the need for published research on the disease spurred a wave of research articles being released as preprints,[12] bypassing the peer-review and publication process, which was proving too slow in the context of an active and novel pandemic. The release of COVID-related preprint articles, along with other COVID-related articles published by traditional journals, contributed to the largest ever single-year increase in scholarly articles.[13]

Role

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Academic practices

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Publication of manuscripts in a peer-reviewed journal often takes weeks, months or even years from the time of initial submission, owing to the time required by editors and reviewers to evaluate and critique manuscripts, and the time required by authors to address critiques. The need to quickly circulate current results within a scholarly community has led researchers to distribute documents known as preprints, which are manuscripts that have yet to undergo peer review. The immediate distribution of preprints allows authors to receive early feedback from their peers, which may be helpful in revising and preparing articles for submission.[14] Preprint are also used to demonstrate the precedence of the discoveries and a way to protect the intellectual property (a prompt availability of the discovery can be used to block patenting or discourage competing parties).

Most publishers allow work to be published to preprint servers before submission. A minority of publishers decide on a case-by-case basis or interpret the Ingelfinger Rule to disqualify from submission.[15] Yet, many journals prohibit or discourage the use of preprints in the references as they are not considered as credible sources.

Some journal-independent review services (Peerage of Science, Peer Community In, Review Commons, eLife Preprint Review) offer peer review on preprints. These peer-reviews are either a first step before publication in a journal (Peerage of Science, Review Commons, eLife Preprint Review) or result in a formal editorial decision (Peer Community In) without precluding submission in journals.[16]

Stages of printing

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While a preprint is an article that has not yet undergone peer review, a postprint is an article which has been peer reviewed in preparation for publication in a journal. Both the preprint and postprint may differ from the final published version of an article. Preprints and postprints together are referred to as e-prints or eprints.[17]

The word reprint refers to hard copies of papers that have already been published; reprints can be produced by the journal publisher, but can also be generated from digital versions (for example, from an electronic database of peer-reviewed journals), or from eprints self-archived by their authors in their institutional repositories.

Tenure and promotion

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In academia, preprints are not likely to be weighed heavily when a scholar is evaluated for tenure or promotion, unless the preprint becomes the basis for a peer-reviewed publication.[18]

Some important results in mathematics have been published only on the preprint server arXiv.[19][20] After nearly a century of effort by mathematicians, Grigori Perelman published a series of preprint papers on the arXiv between 2002 and 2003, in which he presented a proof of the Poincaré conjecture.[21][22][23] He was offered both the $1 million Millennium Prize and the Fields Medal for the result, but he declined both prizes.[19]

Advantages of preprints

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The advantages of preprints can be summarized as: prompt dissemination of outcomes, contributes to free flow of information, increase chances of early feedback and comments, increase number of citations, chances of academic collaborations, make authors enthusiastic, may reduce predatory publishing, increases transparency, may publish negative outcomes and controversies, may receive DOI, link to ORCID, plagiarism check, chance to receive grants and awards, promotion of young researchers, early credit, good place for hypothesis, and early detection of science misconduct.[12]

Disadvantages of preprints

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The disadvantages of preprints could be summarized as: lack of peer-review, absence of quality (in controversy), concerns about premature data, media coverage not properly presenting the inherent uncertainty of preprints,[24] risk of double citation (by publishing a peer-reviewed article, the preprint may also be cited), lack of ethical and statistical guidelines, lack of respect for COPE or ICMJE guidelines, breach of intellectual property regulations in some countries, possible harm to health in certain cases, information overload, breach of Ingelfinger rule (a strategy conducted to discourage dissemination of research reports before they are published in the journal), rush to post low-quality research.[12]

Types of preprint servers

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The preprint servers can be grouped in three categories: general (accepting practically all preprints, frequently with bias towards some topic, publisher e.g. Authorea), field-specific (e.g. bioRxiv, ChemRxiv) and regional (e.g. AfricArxiv, Arabixiv). Additionally, preprints can be categorised by the owner (private publishing company e.g. PeerJ PrePrints, libraries e.g. EarthArXiv, universities e.g. arXiv or independent non-profit organisations e.g. HAL). While many preprint servers appeared, some had been terminated. The canceled servers were operated mainly by profit publishing companies (e.g. Nature Publishing Group closed Nature Precedings or O'Reilly&SAGE closed PeerJ PrePrints) or were regional (e.g. INArxiv limited to Indonesia). Moreover, multiple writing platforms (e.g. Authorea) developed separate preprint servers as a part of their service. For more complete list (over 60 preprints servers) see: List of preprint repositories.

See also

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References

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  1. ^ Cobb, Matthew (16 November 2017). "The prehistory of biology preprints: A forgotten experiment from the 1960s". PLOS Biology. 15 (11): e2003995. doi:10.1371/journal.pbio.2003995. PMC 5690419. PMID 29145518.
  2. ^ "The MRC supports preprints". www.mrc.ac.uk. Medical Research Council. 2017-01-03. Retrieved 2018-09-06.
  3. ^ "We now accept preprints in grant applications". wellcome.ac.uk. Wellcome. 10 January 2017. Retrieved 2017-01-10.
  4. ^ Callaway, Ewen (2017-02-16). "Heavyweight funders back central site for life-sciences preprints". Nature. 542 (7641): 283–284. Bibcode:2017Natur.542..283C. doi:10.1038/nature.2017.21466. PMID 28202994. S2CID 4466963.
  5. ^ "Principles for establishing a Central Service for Preprints: a statement from a consortium of funders | ASAPbio". asapbio.org. 13 February 2017. Retrieved 2017-02-13.
  6. ^ "ASAPbio newsletter vol 7 – Funders sign onto principles for preprint development, RFA released, scientific society town hall | ASAPbio". asapbio.org. 14 February 2017. Retrieved 2017-02-14.
  7. ^ "SciELO Preprints on the way". SciELO in Perspective. 2017-02-22. Retrieved 2017-02-22.
  8. ^ "NOT-OD-17-050: Reporting Preprints and Other Interim Research Products". grants.nih.gov. Retrieved 2017-03-25.
  9. ^ "NIH enables investigators to include draft preprints in grant proposals". Science | AAAS. 2017-03-24. Retrieved 2017-03-27.
  10. ^ "Public Goods Infrastructure for Preprints and Innovation in Scholarly Communication". cos.io. Retrieved 2017-04-19.
  11. ^ Dhakal, Kerry (15 April 2019). "Unpaywall". Journal of the Medical Library Association. 107 (2): 286–288. doi:10.5195/jmla.2019.650. PMC 6466485.
  12. ^ a b c Heidary, Fatemeh; Gharebaghi, Reza (2021-05-31). "COVID-19 impact on research and publication ethics". Medical Hypothesis, Discovery & Innovation in Ophthalmology. 10 (1): 1–4. doi:10.51329/mehdiophthal1414. ISSN 2322-3219. PMC 10460218. PMID 37641621.
  13. ^ Brainard, Jeffrey (15 September 2021) [Originally published 8 September 2021]. "No revolution: COVID-19 boosted open access, but preprints are only a fraction of pandemic papers". Science. doi:10.1126/science.acx9058.
  14. ^ "Breaking Down Pros and Cons of Preprints in Biomedicine". Absolutely Maybe. 2016-05-01. Retrieved 2018-01-12.
  15. ^ "Taking the online medicine". The Economist. ISSN 0013-0613. Retrieved 2016-03-23.
  16. ^ "Comparing journal-independent review services". asapbio.org. ASAPbio. 24 July 2020. Retrieved 2021-01-22.
  17. ^ "Self-archiving FAQ". EPrints.
  18. ^ Callaway, Ewen; Powell, Kendall (2016-02-18). "Biologists urged to hug a preprint". Nature. 530 (7590): 265. Bibcode:2016Natur.530..265C. doi:10.1038/530265a. PMID 26887471.
  19. ^ a b Kaufman, Marc (July 2, 2010), "Russian mathematician wins $1 million prize, but he appears to be happy with $0", Washington Post
  20. ^ Nadejda Lobastova and Michael Hirst, "Maths genius living in poverty", Sydney Morning Herald, August 21, 2006
  21. ^ Perelman, Grisha (November 11, 2002). "The entropy formula for the Ricci flow and its geometric applications". arXiv:math.DG/0211159.
  22. ^ Perelman, Grisha (10 March 2003). "Ricci flow with surgery on three-manifolds". arXiv:math.DG/0303109.
  23. ^ Perelman, Grisha (July 17, 2003). "Finite extinction time for the solutions to the Ricci flow on certain three-manifolds". arXiv:math.DG/0307245.
  24. ^ Besançon, Lonni; Peiffer-Smadja, Nathan; Segalas, Corentin; Jiang, Haiting; Masuzzo, Paola; Smout, Cooper; Billy, Eric; Deforet, Maxime; Leyrat, Clémence (2020). "Open Science Saves Lives: Lessons from the COVID-19 Pandemic". BMC Medical Research Methodology. 21 (1): 117. doi:10.1186/s12874-021-01304-y. PMC 8179078. PMID 34090351.
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