Academic publishing is the subfield of publishing which distributes academic research and scholarship. Most academic work is published in academic journal article, book or thesis form. The part of academic written output that is not formally published but merely printed up or posted on the Internet is often called "grey literature". Most scientific and scholarly journals, and many academic and scholarly books, though not all, are based on some form of peer review or editorial refereeing to qualify texts for publication. Peer review quality and selectivity standards vary greatly from journal to journal, publisher to publisher, and field to field.
Most established academic disciplines have their own journals and other outlets for publication, although many academic journals are somewhat interdisciplinary, and publish work from several distinct fields or subfields. There is also a tendency for existing journals to divide into specialized sections as the field itself becomes more specialized. Along with the variation in review and publication procedures, the kinds of publications that are accepted as contributions to knowledge or research differ greatly among fields and subfields.
Academic publishing is undergoing major changes, as it makes the transition from the print to the electronic format. Business models are different in the electronic environment. Since the early 1990s, licensing of electronic resources, particularly journals, has been very common. Currently, an important trend, particularly with respect to journals in the sciences, is open access via the Internet. In open access publishing, a journal article is made available free for all on the web by the publisher at the time of publication. Open-access journals are often funded by the author paying hundreds or thousands of dollars in publication fees, thereby shifting the costs from the reader to the researcher or their funder, but some open-access journals are funded directly. The Internet has facilitated open access self-archiving, in which authors themselves make a copy of their published articles available free for all on the web. Some important results in mathematics have been published only on arXiv.
- 1 History
- 2 Publishers and business aspects
- 3 Scholarly paper
- 4 Peer review
- 5 Publishing process
- 6 Citations
- 7 Publishing by discipline
- 8 Open access journals
- 9 Growth
- 10 See also
- 11 References
- 12 Further reading
- 13 External links
The Journal des sçavans (later spelled Journal des savants), established by Denis de Sallo, was the earliest academic journal published in Europe. Its content included obituaries of famous men, church history, and legal reports. The first issue appeared as a twelve-page quarto pamphlet on Monday, 5 January 1665, shortly before the first appearance of the Philosophical Transactions of the Royal Society, on 6 March 1665.
At that time, the act of publishing academic inquiry was controversial and widely ridiculed. It was not at all unusual for a new discovery to be announced as an anagram, reserving priority for the discoverer, but indecipherable for anyone not in on the secret: both Isaac Newton and Leibniz used this approach. However, this method did not work well. Robert K. Merton, a sociologist, found that 92% of cases of simultaneous discovery in the 17th century ended in dispute. The number of disputes dropped to 72% in the 18th century, 59% by the latter half of the 19th century, and 33% by the first half of the 20th century. The decline in contested claims for priority in research discoveries can be credited to the increasing acceptance of the publication of papers in modern academic journals, with estimates suggesting that around 50 million journal articles have been published since the first appearance of the Philosophical Transactions. The Royal Society was steadfast in its not-yet-popular belief that science could only move forward through a transparent and open exchange of ideas backed by experimental evidence.
Early scientific journals embraced several models: some were run by a single individual who exerted editorial control over the contents, often simply publishing extracts from colleagues' letters, while others employed a group decision making process, more closely aligned to modern peer review. It wasn't until the middle of the 20th century that peer review became the standard.
Publishers and business aspects
In the 1960s and 1970s, commercial publishers began to selectively acquire "top-quality" journals which were previously published by nonprofit academic societies. Due to the inelastic demand for these journals, the commercial publishers lost little of the market when they raised the prices significantly. Although there are over 2,000 publishers, as of 2013, five for-profit companies (Reed Elsevier, Springer Science+Business Media, Wiley-Blackwell, Taylor & Francis, and Sage) accounted for 50% of articles published. (Since 2013, Springer Science+Business Media has undergone a merger to form an even bigger company named Springer Nature.) Available data indicate that these companies have high profit margins, especially compared to the smaller publishers which likely operate with low margins. These factors have contributed to the "serials crisis" – from 1986 to 2005, the number of serials purchased has increased an average of 1.9% per year while total expenditures on serials have increased 7.6% per year.
Unlike most industries, in academic publishing the two most important inputs are provided "virtually free of charge". These are the articles and the peer review process. Publishers argue that they add value to the publishing process through support to the peer review group, including stipends, as well as through typesetting, printing, and web publishing. Investment analysts, however, have been skeptical of the value added by for-profit publishers, as exemplified by a 2005 Deutsche Bank analysis which stated that "we believe the publisher adds relatively little value to the publishing process... We are simply observing that if the process really were as complex, costly and value-added as the publishers protest that it is, 40% margins wouldn't be available."
A crisis in academic publishing is "widely perceived"; the apparent crisis has to do with the combined pressure of budget cuts at universities and increased costs for journals (the serials crisis). The university budget cuts have reduced library budgets and reduced subsidies to university-affiliated publishers. The humanities have been particularly affected by the pressure on university publishers, which are less able to publish monographs when libraries can't afford to purchase them. For example, the ARL found that in "1986, libraries spent 44% of their budgets on books compared with 56% on journals; twelve years later, the ratio had skewed to 28% and 72%." Meanwhile, monographs are increasingly expected for tenure in the humanities. The Modern Language Association has expressed hope that electronic publishing will solve the issue.
In 2009 and 2010, surveys and reports found that libraries faced continuing budget cuts, with one survey in 2009 finding that one-third of libraries had their budgets cut by 5% or more.
Academic journal publishing reform
Several models are being investigated such as open publication models or adding community-oriented features. It is also considered that "Online scientific interaction outside the traditional journal space is becoming more and more important to academic communication". In addition, experts have suggested measures to make the publication process more efficient in disseminating new and important findings by evaluating the worthiness of publication on the basis of the significance and novelty of the research finding.
In academic publishing, a paper is an academic work that is usually published in an academic journal. It contains original research results or reviews existing results. Such a paper, also called an article, will only be considered valid if it undergoes a process of peer review by one or more referees (who are academics in the same field) who check that the content of the paper is suitable for publication in the journal. A paper may undergo a series of reviews, revisions, and re-submissions before finally being accepted or rejected for publication. This process typically takes several months. Next, there is often a delay of many months (or in some subjects, over a year) before an accepted manuscript appears. This is particularly true for the most popular journals where the number of accepted articles often outnumbers the space for printing. Due to this, many academics self-archive a 'pre-print' copy of their paper for free download from their personal or institutional website.
Some journals, particularly newer ones, are now published in electronic form only. Paper journals are now generally made available in electronic form as well, both to individual subscribers, and to libraries. Almost always these electronic versions are available to subscribers immediately upon publication of the paper version, or even before; sometimes they are also made available to non-subscribers, either immediately (by open access journals) or after an embargo of anywhere from two to twenty-four months or more, in order to protect against loss of subscriptions. Journals having this delayed availability are sometimes called delayed open access journals. Ellison has reported that in economics the dramatic increase in opportunities to publish results online has led to a decline in the use of peer-reviewed articles.
Categories of papers
An academic paper typically belongs to some particular category such as:
- Research paper
- Case report or Case series
- Position paper
- Review article or Survey paper
- Species paper
- Technical paper[not specific enough to verify]
Peer review is a central concept for most academic publishing; other scholars in a field must find a work sufficiently high in quality for it to merit publication. A secondary benefit of the process is an indirect guard against plagiarism since reviewers are usually familiar with the sources consulted by the author(s). The origins of routine peer review for submissions dates to 1752 when the Royal Society of London took over official responsibility for Philosophical Transactions. However, there were some earlier examples.
While journal editors largely agree the system is essential to quality control in terms of rejecting poor quality work, there have been examples of important results that are turned down by one journal before being taken to others. Rena Steinzor wrote:
Perhaps the most widely recognized failing of peer review is its inability to ensure the identification of high-quality work. The list of important scientific papers that were initially rejected by peer-reviewed journals goes back at least as far as the editor of Philosophical Transaction's 1796 rejection of Edward Jenner's report of the first vaccination against smallpox.
"Confirmatory bias" is the unconscious tendency to accept reports which support the reviewer's views and to downplay those which do not. Experimental studies show the problem exists in peer reviewing.
The process of academic publishing, which begins when authors submit a manuscript to a publisher, is divided into two distinct phases: peer review and production.
The process of peer review is organized by the journal editor and is complete when the content of the article, together with any associated images or figures, are accepted for publication. The peer review process is increasingly managed online, through the use of proprietary systems, commercial software packages, or open source and free software. A manuscript undergoes one or more rounds of review; after each round, the author(s) of the article modify their submission in line with the reviewers' comments; this process is repeated until the editor is satisfied and the work is accepted.
The production process, controlled by a production editor or publisher, then takes an article through copy editing, typesetting, inclusion in a specific issue of a journal, and then printing and online publication. Academic copy editing seeks to ensure that an article conforms to the journal's house style, that all of the referencing and labelling is correct, and that the text is consistent and legible; often this work involves substantive editing and negotiating with the authors. Because the work of academic copy editors can overlap with that of authors' editors, editors employed by journal publishers often refer to themselves as “manuscript editors”.
In much of the 20th century, such articles were photographed for printing into proceedings and journals, and this stage was known as camera-ready copy. With modern digital submission in formats such as PDF, this photographing step is no longer necessary, though the term is still sometimes used.
The author will review and correct proofs at one or more stages in the production process. The proof correction cycle has historically been labour-intensive as handwritten comments by authors and editors are manually transcribed by a proof reader onto a clean version of the proof. In the early 21st century, this process was streamlined by the introduction of e-annotations in Microsoft Word, Adobe Acrobat, and other programs, but it still remained a time-consuming and error-prone process. The full automation of the proof correction cycles has only become possible with the onset of online collaborative writing platforms, such as Authorea, Google Docs, and various others, where a remote service oversees the copy-editing interactions of multiple authors and exposes them as explicit, actionable historic events.
Academic authors cite sources they have used, in order to support their assertions and arguments and to help readers find more information on the subject. It also gives credit to authors whose work they use and helps avoid plagiarism.
The American Psychological Association (APA) style is often used in the social sciences. The Chicago Manual of Style (CMS) is used in business, communications, economics, and social sciences. The CMS style uses footnotes at the bottom of page to help readers locate the sources. The Modern Language Association (MLA) style is widely used in the humanities.
Publishing by discipline
Scientific, technical, and medical (STM) literature is a large industry which generated $23.5 billion in revenue; $9.4 billion of that was specifically from the publication of English-language scholarly journals. Most scientific research is initially published in scientific journals and considered to be a primary source. Technical reports, for minor research results and engineering and design work (including computer software), round out the primary literature. Secondary sources in the sciences include articles in review journals (which provide a synthesis of research articles on a topic to highlight advances and new lines of research), and books for large projects, broad arguments, or compilations of articles. Tertiary sources might include encyclopedias and similar works intended for broad public consumption or academic libraries.
A partial exception to scientific publication practices is in many fields of applied science, particularly that of U.S. computer science research. An equally prestigious site of publication within U.S. computer science are some academic conferences. Reasons for this departure include a large number of such conferences, the quick pace of research progress, and computer science professional society support for the distribution and archiving of conference proceedings.
Publishing in the social sciences is very different in different fields. Some fields, like economics, may have very "hard" or highly quantitative standards for publication, much like the natural sciences. Others, like anthropology or sociology, emphasize field work and reporting on first-hand observation as well as quantitative work. Some social science fields, such as public health or demography, have significant shared interests with professions like law and medicine, and scholars in these fields often also publish in professional magazines.
Publishing in the humanities is in principle similar to publishing elsewhere in the academy; a range of journals, from general to extremely specialized, are available, and university presses issue many new humanities books every year. The arrival of online publishing opportunities has radically transformed the economics of the field and the shape of the future is controversial. Unlike science, where timeliness is critically important, humanities publications often take years to write and years more to publish. Unlike the sciences, research is most often an individual process and is seldom supported by large grants. Journals rarely make profits and are typically run by university departments.
The following describes the situation in the United States. In many fields, such as literature and history, several published articles are typically required for a first tenure-track job, and a published or forthcoming book is now often required before tenure. Some critics complain that this de facto system has emerged without thought to its consequences; they claim that the predictable result is the publication of much shoddy work, as well as unreasonable demands on the already limited research time of young scholars. To make matters worse, the circulation of many humanities journals in the 1990s declined to almost untenable levels, as many libraries cancelled subscriptions, leaving fewer and fewer peer-reviewed outlets for publication; and many humanities professors' first books sell only a few hundred copies, which often does not pay for the cost of their printing. Some scholars have called for a publication subvention of a few thousand dollars to be associated with each graduate student fellowship or new tenure-track hire, in order to alleviate the financial pressure on journals.
Open access journals
An alternative to the subscription model of journal publishing is the open access journal model, which typically involves a publication charge being paid by the author. Prestige journals typically charge several thousand dollars. Oxford University Press, with over 300 journals, has fees ranging from £1000-£2500, with discounts of 50% to 100% to authors from developing countries. Wiley Blackwell has 700 journals available, and they charge a flat $US3000 open access fee. Springer, with over 2600 journals, charges US$3000 or EUR 2200 (excluding VAT).
The online distribution of individual articles and academic journals then takes place without charge to readers and libraries. Most open access journals remove all the financial, technical, and legal barriers that limit access to academic materials to paying customers. The Public Library of Science and BioMed Central are prominent examples of this model.
Open access has been criticized on quality grounds, as the desire to maximize publishing fees could cause some journals to relax the standard of peer review. It may be criticized on financial grounds as well because the necessary publication fees have proven to be higher than originally expected. Open access advocates generally reply that because open access is as much based on peer reviewing as traditional publishing, the quality should be the same (recognizing that both traditional and open access journals have a range of quality). It has also been argued that good science done by academic institutions who cannot afford to pay for open access might not get published at all, but most open access journals permit the waiver of the fee for financial hardship or authors in underdeveloped countries. In any case, all authors have the option of self-archiving their articles in their institutional repositories in order to make them open access, whether or not they publish them in a journal.
If they publish in a Hybrid open access journal, authors pay a subscription journal a publication fee to make their individual article open access. The other articles in such hybrid journals are either made available after a delay or remain available only by subscription. Most traditional publishers (including Wiley-Blackwell, Oxford University Press, and Springer Science+Business Media) have already introduced such a hybrid option, and more are following. Proponents of open access suggest that such moves by corporate publishers illustrate that open access, or a mix of open access and traditional publishing, can be financially viable, and evidence to that effect is emerging. The fraction of the authors of a hybrid open access journal that make use of its open access option can, however, be small. It also remains unclear whether this is practical in fields outside the sciences, where there is much less availability of outside funding. In 2006, several funding agencies, including the Wellcome Trust and several divisions of the Research Councils in the UK announced the availability of extra funding to their grantees for such open access journal publication fees.
In May 2016, the Council for the European Union agreed that from 2020 all scientific publications as a result of publicly funded research must be freely available. It also must be able to optimally reuse research data. To achieve that, the data must be made accessible, unless there are well-founded reasons for not doing so, for example, intellectual property rights or security or privacy issues.
In recent decades there has been a growth in academic publishing in developing countries as they become more advanced in science and technology. Although the large majority of scientific output and academic documents are produced in developed countries, the rate of growth in these countries has stabilized and is much smaller than the growth rate in some of the developing countries. The fastest scientific output growth rate over the last two decades has been in the Middle East and Asia with Iran leading with an 11-fold increase followed by the Republic of Korea, Turkey, Cyprus, China, and Oman. In comparison, the only G8 countries in top 20 ranking with fastest performance improvement are, Italy which stands at tenth and Canada at 13th globally.
By 2004, it was noted that the output of scientific papers originating from the European Union had a larger share of the world's total from 36.6 to 39.3 percent and from 32.8 to 37.5 per cent of the "top one per cent of highly cited scientific papers". However, the United States' output dropped 52.3 to 49.4 per cent of the world's total, and its portion of the top one percent dropped from 65.6 to 62.8 per cent.
Iran, China, India, Brazil, and South Africa were the only developing countries among the 31 nations that produced 97.5% of the most cited scientific articles in a study published in 2004. The remaining 162 countries contributed less than 2.5%. The Royal Society in a 2011 report stated that in share of English scientific research papers the United States was first followed by China, the UK, Germany, Japan, France, and Canada. The report predicted that China would overtake the United States sometime before 2020, possibly as early as 2013. China's scientific impact, as measured by other scientists citing the published papers the next year, is smaller although also increasing.
- Academic authorship
- Academic writing
- Acknowledgment index
- Council of Science Editors
- Current research information system
- European Association of Science Editors
- EASE Guidelines for Authors and Translators of Scientific Articles
- Library publishing
- List of academic databases and search engines
- Monographic series
- Rankings of academic publishers
- Scientific method
- Serials, periodicals and journals
- Harnad, S., Brody, T., Vallieres, F., Carr, L., Hitchcock, S., Gingras, Y, Oppenheim, C., Stamerjohanns, H., & Hilf, E. (2004) The green and the gold roads to Open Access. Nature Web Focus.
- Jeffery, Keith G. (2006) Open Access: An Introduction. ERCIM News 64. January 2006
- Kaufman, Marc (July 2, 2010), "Russian mathematician wins $1 million prize, but he appears to be happy with $0", Washington Post
- Perelman, Grisha (November 11, 2002). "The entropy formula for the Ricci flow and its geometric applications". arXiv: [math.DG].
- Nadejda Lobastova and Michael Hirst, "Maths genius living in poverty", Sydney Morning Herald, August 21, 2006
- The Amsterdam printing of the Journal des sçavans, Dibner Library of the Smithsonian Institution
- Brown, 1972, p. 368
- Hallam, 1842, p. 406.
- Philosophical Transactions of the Royal Society Vol. 1, Issue 1, is dated March 6, 1665. See also History of the Journal[permanent dead link]
- Merton, Robert K. (December 1963). "Resistance to the Systematic Study of Multiple Discoveries in Science". European Journal of Sociology / Archives Européennes de Sociologie. 4 (2): 237–282. doi:10.1017/S0003975600000801. ISSN 1474-0583.
- Jinha, A. E. (2010). "Article 50 million: An estimate of the number of scholarly articles in existence" (PDF). Learned Publishing. 23 (3): 258–263. doi:10.1087/20100308. Archived from the original (PDF) on 2012-05-23.
- "The History of Scientific Publishing: An interview with Aileen Fyfe" (Podcast). 2016.
- "Five companies control more than half of academic publishing". Phys.org. 10 June 2015.
- Larivière, Vincent; Haustein, Stefanie; Mongeon, Philippe (10 June 2015). "The oligopoly of academic publishers in the digital era". PLoS ONE. 10 (6): e0127502. Bibcode:2015PLoSO..1027502L. doi:10.1371/journal.pone.0127502. PMC . PMID 26061978. Retrieved 12 May 2016.
- McGuigan GS, Russell RD. (2008). The Business of Academic Publishing: A Strategic Analysis of the Academic Journal Publishing Industry and its Impact on the Future of Scholarly Publishing. E-JASL: The Electronic Journal of Academic and Special Librarianship. ICAAP.
- Association of Research Libraries, ARL Statistics: 2004-2005. As cited in McGuigan & Russell 2008.
- "Is the staggeringly profitable business of scientific publishing bad for science?". The Guardian. 2017-06-27. ISSN 0261-3077. Retrieved 2017-07-02.
- Modern Language Association. Report from the Ad Hoc Committee on the Future of Scholarly Publishing Archived 2006-09-23 at the Wayback Machine..
- Sample, Ian (24 April 2012). "Harvard University says it can't afford journal publishers' prices". The Guardian.
- Seeking the New Normal: Periodicals Price Survey 2010 Archived 2010-09-28 at the Wayback Machine.. LibraryJournal.com.
- Hendler, James (2007). "Reinventing Academic Publishing -Part 1". IEEE Intelligent Systems. 22 (5). doi:10.1109/MIS.2007.93 (inactive 2017-03-13).
- Hendler, James (2008). "Reinventing Academic Publishing -Part 3". IEEE Intelligent Systems. 23 (1): 2–3. doi:10.1109/MIS.2008.12.
- J. Scott Armstrong (1997). "Peer Review for Journals: Evidence on Quality Control, Fairness, and Innovation" (PDF). Energy & Environment. 3: 63–84. doi:10.1007/s11948-997-0017-3. Archived from the original (PDF) on 2010-06-20.
- Glenn Ellison, "Is Peer Review in Decline?" Economic Inquiry (July 2011) 49#3 pp 635–657, doi:10.1111/j.1465-7295.2010.00261.x
- Concept Paper:
- "Brief: How to Write a Concept Paper" (PDF). Hanover Grants. 2011. Archived from the original (PDF download) on 2013-06-26. Retrieved 2013-07-04.
Funders often ask for brief 1- to 5-page concept papers (also called “white papers” in the government contracting sector) prior to submission of a full proposal.
- "Format for a Concept paper". The Gerber Foundation. 2012. Archived from the original on 2013-07-05. Retrieved 2013-07-04.
- "Brief: How to Write a Concept Paper" (PDF). Hanover Grants. 2011. Archived from the original (PDF download) on 2013-06-26. Retrieved 2013-07-04.
- David A. Kronick, "Peer review in 18th-century scientific journalism." JAMA (1990) 263#10 pp: 1321-1322.
- Rescuing Science from Politics: Regulation and the Distortion of Scientific ... - Google Books. Books.google.com. 2006-07-24. ISBN 9780521855204. Retrieved 2012-08-07.
- Mahoney, Michael J. "Publication prejudices: An experimental study of confirmatory bias in the peer review system." Cognitive therapy and research (1977) 1#2 pp: 161-175.
- Iverson, Cheryl (2004). ""Copy editor" vs. "manuscript editor" vs...: venturing onto the minefield of titles" (PDF). Science Editor. 27 (2): 39–41. Archived from the original (PDF) on 3 December 2010. Retrieved 19 November 2013.
- de Jager, Marije. Journal copy-editing in a non-anglophone environment. In: Matarese, Valerie (ed) (2013). Supporting Research Writing: Roles and challenges in multilingual settings. Oxford: Chandos. pp. 157–171. ISBN 1843346664.
- Ware, Mark and Michael Wabe. (2012)  The STM Report: An Overview of Scientific and Scholarly Publishing. Outsell and the International Association of Scientific, Technical and Medical PublishersNovember 2012.
- Patterson, David (University of California, Berkeley); Snyder, Lawrence; Ullma, Jeffrey (August 1999). "Evaluating Computer Scientists and Engineers For Promotion and Tenure" (Free PDF download). Computing Research News. Computing Research Association. Retrieved 2013-07-04.
- Grudin, Jonathan (April 2–7, 2005). "Why CHI Fragmented". CHI '05 extended abstracts on Human factors in computing systems. Portland, Oregon: ACM Press. pp. 1083–1084.
- Joel Best, "Following the Money Across the Landscape of Sociology Journals." The American Sociologist (2015): 1-16.
- Cathy Davidson, "The futures of scholarly publishing." Journal of Scholarly Publishing (2015).
- Toby Miller, Blow Up the Humanities (2012)
- For typical policies see UC Berkeley Library, "Selective List of Open Access Fees"
- See Oxford Open Pricing
- See Author Services
- See "Open Choice"
- Zaken, Ministerie van Buitenlandse. "All European scientific articles to be freely accessible by 2020". english.eu2016.nl. Retrieved 2016-05-28.
- "Competitiveness Council, 26-27/05/2016 - Consilium". www.consilium.europa.eu. Retrieved 2016-05-28.
- MacKenzie, Debora (2010-02-18). "Iran showing fastest scientific growth of any country". Science in Society. New Scientist (online magazine). Retrieved 2012-08-07.
- S. M. J. Mortazavi, and Z. Hashemi (June 2011). "Tiger or Rabbit does not Matter: a New Look into the Recent Great Achievements of Iranian Scientists". Indian Journal of Science and Technology. 4 (6): 716–716. Archived from the original on 2014-01-10.
- "2005 OST PSA report" (PDF). Archived from the original (PDF) on 2012-07-21. Retrieved 2012-10-02.
- "Bulletin Board - Which nation's scientific output is rising fastest?". IPM. Retrieved 2012-08-07.
- David Dickson (2004-07-16). "China, Brazil and India lead southern science output". SciDev.Net. Retrieved 2012-08-07.
- China poised to overhaul US as biggest publisher of scientific papers, Alok Jha, Monday 28 March 2011, The Guardian,
- Belcher, Wendy Laura. “Writing Your Journal Article in Twelve Weeks: A Guide to Academic Publishing Success.” ISBN 9781412957014
- Best, Joel. "Following the Money Across the Landscape of Sociology Journals." The American Sociologist (2015): 1-16.
- Brienza, Casey (2012). "Opening the wrong gate? The academic spring and scholarly publishing in the humanities and social sciences". Publishing research quarterly. 28 (3): 159–171. doi:10.1007/s12109-012-9272-5.
- Culler, Jonathan, and Kevin Lamb. Just being difficult? : academic writing in the public arena Stanford, Calif. : Stanford University Press, 2003. ISBN 0-8047-4709-1
- Germano, William. Getting It Published, 2nd Edition: A Guide for Scholars and Anyone Else Serious About Serious Books. ISBN 978-0-226-28853-6. Read a chapter.
- Greco, Albert N (2015). "Academic Libraries and the Economics of Scholarly Publishing in the Twenty-First Century: Portfolio Theory, Product Differentiation, Economic Rent, Perfect Price Discrimination, and the Cost of Prestige". Journal of Scholarly Publishing. 47 (1): 1–43. doi:10.3138/jsp.47.1.01.
- Nelson, Cary and Stephen Watt. "Scholarly Books" and "Peer Review" in Academic Keywords: A Devil's Dictionary for Higher Education. ISBN 0-415-92203-8.
- Tenopir, Carol and Donald King. "Towards Electronic Journals: Realities for Librarians and Publishers. SLA, 2000. ISBN 0-87111-507-7.
- Wellington, J. J. Getting published : a guide for lecturers and researcher (RoutledgeFalmer, 2003). ISBN 0-415-29847-4
- Yang, Rui. "Scholarly publishing, knowledge mobility and internationalization of Chinese universities." in Tara Fenwick and Lesley Farrell, eds. Knowledge mobilization and educational research: Politics, languages and responsibilities (2012): 185-167.