United Nations
	





Cultural Organization
Policy Guidelines 
FOR THE DEVELOPMENT AND PROMOTION OF 
OPEN ACCESS
Policy Guidelines 
FOR THE DEVELOPMENT AND PROMOTION OF 
OPEN ACCESS
by Alma Swan
Communication and 
Information Sector
United Nations
	





Cultural Organization
Open Guidelines Series
Published by the United Nations Educational, Scientific and Cultural Organization 
7, place de Fontenoy, 75352 Paris 07 SP, France
© UNESCO 2012.
Available in Open Access to copy, distribute and transmit the work for non-commercial purposes with appropriate attribution to the work. Some rights reserved for 
adaptation and derivative works. Permission must be taken from UNESCO for commercial use. Adaptation and derivatives of the work should not carry the UNESCO logo, 
and UNESCO shall not be responsible for any distortion of facts therein. Distortion, mutilation, modification of a Work leading to derogatory action in relation to the author 
of the work, the Work, and reputation of UNESCO and its Member States will be treated as breach of the Open Access provision. The person/institution responsible for the 
adaptation/derivative work shall be responsible for legal action, if any, and shall indemnify UNESCO from any liability arising out of such action.
ISBN 978-92-3-001052-2
The designations employed and the presentation of material throughout this publication do not imply the expression of any opinion whatsoever on the part of UNESCO 
concerning the legal status of any country, territory, city or area or of its authorities, or concerning the delimitation of its frontiers or boundaries. 
About the Author:  Dr. Alma Swan, a leading expert in scholarly communication and Open Access, is Director of Key Perspectives Ltd, United Kingdom. 
The author is responsible for the choice and the presentation of the facts contained in this book and for the opinions expressed therein, which are not necessarily those of 
UNESCO and does not commit the Organization.
Acknowledgements: We would like to acknowledge the support of the Open Access Community members at the WSIS Knowledge Communities for their support in 
providing critical comments on the draft document. We also acknowledge reproduction permissions received for the following:
Graphics:
1. Figure 7: Growth of mandatory policies on Open access (data for year 2006 onwards shown by year-quarter) Source: ROARMAP in Page 45
Texts:
2. The texts related to Wellcome Trust Open Access Policy in Appendix 1, Page 62
3. The texts related to NIH Policy in Appendix 1, Page 62-63
4. The texts related to University of Leige policy in Appendix 1, Pages 64-65
5. The texts related to University of Pretoria policy in Appendix 1, Page 65
6. The texts related to Harvard University policy in Appendix 1, Pages 65-68
7. The texts related to Strathmore University policy in Appendix 1, Pages 68
8. The texts related to Queensland University of Technology in Appendix 1, Pages 68-69
9. The texts related to University of Southampton in Appendix 1, Pages 69
Typeset by UNESCO 
Printed by UNESCO
Printed in France
CLD 412.12
3FOREWORD
As stated in its Constitution, UNESCO is dedicated to ‘maintain, increase and diffuse knowledge’. Therefore, part of its 
mission is to build knowledge societies by fostering universal access to information and knowledge through information 
and communication technologies (ICTs). The Knowledge Societies Division of the Communication and Information 
Sector is engaged in promoting multilingualism in cyberspace, access to information for people with disabilities, 
developing national policies for the information society, preservation of documentary heritage, and use of ICTs in 
education, science and culture, including Open Access to scientific information and research. Open Access is at the heart 
of the overall effort by the Organization to build peace in the minds of men and women. 
Through Open Access, researchers and students from around the world gain increased access to knowledge, 
publications receive greater visibility and readership, and the potential impact of research is heightened.  Increased 
access to, and sharing of knowledge leads to opportunities for equitable economic and social development, intercultural 
dialogue, and has the potential to spark innovation. The UNESCO Open Access strategy approved by the Executive Board 
in its 187th session and further adopted by the 36th General Conference identified up-stream policy advice to Member 
States in the field of Open Access as the core priority area amongst others. These policy guidelines are the result of an 
iterative process undertaken by the UNESCO Secretariat and Dr. Alma Swan, a leading expert in the field of Open Access, 
to revise the preliminary report based on the online consultation undertaken in the Open Access Community of the WSIS 
Knowledge Communities for peer review in September 2011.
I believe that this comprehensive document will be broadly useful to decision- and policy-makers at the national and 
international levels. However, it should be stressed that they are meant to be strictly advisory; they are not intended 
as a prescriptive or normative instrument.  Further, I hope that this publication will also serve as a reference point for 
all stakeholders to clarify basic doubts in the field of Open Access. I encourage you to provide us your feedback and 
comments based on your experience of applying the ideas covered in this publication to further improve it in future 
editions.
Jānis Kārkliņš 
Assistant Director-General 
for Communication and Information, 
UNESCO
TABLE OF CONTENTS
FOREWORD by Jānis Kārkliņš 3
INTRODUCTION by Sanjaya Mishra 6
EXECUTIVE SUMMARY  10
SECTION 1. THE DEVELOPMENT OF OPEN ACCESS TO SCIENTIFIC INFORMATION AND RESEARCH 13
1.1 The development of scientific communication 13
1.2 The development of Open Access to scientific information 14
1.3 Defining Open Access 15
1.4 Target content for Open Access 18
SECTION 2. Approaches to Open Access 20
2.1 Open Access repositories: the ‘green’ route to Open Access 20
2.2 Open Access journals: the ‘gold’ route to Open Access 22
SECTION 3. THE IMPORTANCE OF OPEN Access 24
3.1 Access problems 24
3.2 Levels of Open Access 26
3.3 Open Access in the wider ‘open’ agenda 27
SECTION 4. THE BENEFITS OF OPEN Access  28
4.1 Enhancing the research process 28
4.2 Visibility and usage of research 28
4.3 Impact of research 29
SECTION 5. BUSINESS MODELS 30
5.1 The context: traditional business models in scientific communication 30
5.2 New business models in scientific communication 30
5.3 Open data 34
5.4 System costs 34
SECTION 6. COPYRIGHT AND LICENSING 36
6.1 Copyright and Open Access 36
6.2 Licensing 38
SECTION 7. STRATEGIES TO PROMOTE OPEN ACCESS  41
7.1 Policy-focused strategies 41
7.2 Advocacy-based strategies 42
7.3 Infrastructural approaches  42
7.4 Organisations engaged in promoting Open Access 43
SECTION 8. POLICY FRAMEWORK FOR OPEN Access  45
8.1 Development and growth of policies 45
8.2 Policy issues 45
8.3 A typology of policies 50
SECTION 9. SUMMARY POLICY GUIDELINES  53
9.1 The context  53
9.2 Guidelines for governments and other research funders 53
9.3 Guidelines for Institutional policy-makers 55
SELECTED BIBLIOGRAPHY AND REFERENCES 58
GLOSSARY OF KEY TERMS AND ABBREVIATIONS 60
APPENDIX 1. EXAMPLE POLICIES 62
A1.1 Funder policies 62
A1.2 Institutional policies 64
APPENDIX 2. MODEL POLICIES FOR INSTITUTIONS, FUNDERS AND GOVERNMENTS 71
A2.1 Type 1: immediate deposit, no waiver (“Liège-style” policy) 71
A2.2 Type 2: rights-retention policies 72
POLICY GUIDELINES FOR THE DEVELOPMENT AND PROMOTION OF OPEN ACCESS 75
FEEDBACK QUESTIONNAIRE 75
6INTRODUCTION
Open Access to Scientific Information and 
Research
Scientific information is both a researcher’s greatest 
output and technological innovation’s most important 
resource. Open Access (OA) is the provision of free access 
to peer-reviewed, scholarly and research information to 
all. It requires that the rights holder grants worldwide 
irrevocable right of access to copy, use, distribute, transmit, 
and make derivative works in any format for any lawful 
activities with proper attribution to the original author.  
Open Access uses Information and Communication 
Technology (ICT) to increase and enhance the 
dissemination of scholarship. OA is about Freedom, 
Flexibility and Fairness.
The rising cost of journal subscription is a major force 
behind the emergence of the OA movement. The 
emergence of digitisation and Internet has increased the 
possibility of making information available to anyone, 
anywhere, anytime, and in any format. Through Open 
Access, researchers and students from around the world 
gain increased access to knowledge, publications receive 
greater visibility and readership, and the potential impact 
of research is heightened. Increased access to and 
sharing of knowledge leads to opportunities for equitable 
economic and social development, intercultural dialogue, 
and has the potential to spark innovation. Open Access is 
at the heart of UNESCO’s goal to provide universal access 
to information and knowledge, focussing particularly on 
two global priorities: Africa and Gender equality. In all the 
work UNESCO does in the field of OA, the overarching goal 
is to foster an enabling environment for OA in the Member 
States so that the benefits of research are accessible to 
everyone through the public Internet.
UNESCO and Open Access
The Constitution of United Nations Educational, Scientific 
and Cultural Organization (UNESCO) in Article I, Clause 
2 states one of the purposes and functions of the 
Organisation as:
(c) Maintain, increase and diffuse knowledge: By assuring 
the conservation and protection of the world’s 
inheritance of books, works of art and monuments of 
history and science, and recommending to the nations 
concerned the necessary international conventions;
By encouraging cooperation among the nations 
in all branches of intellectual activity, including the 
international exchange of persons active in the fields 
of education, science and culture and the exchange of 
publications, objects of artistic and scientific interest 
and other materials of information;
By initiating methods of international cooperation 
calculated to give the people of all countries access to 
the printed and published materials produced by any 
of them.
While UNESCO’s mission is to contribute to the building 
of peace, the eradication of poverty, sustainable 
development and intercultural dialogue through 
education, the sciences, culture, communication and 
information, the Organisation has the following five 
overarching objectives:
 ◾ Attaining quality education for all and lifelong learning 
 ◾ Mobilising science knowledge and policy for 
sustainable development 
 ◾ Addressing emerging social and ethical challenges 
 ◾ Fostering cultural diversity, intercultural dialogue and a 
culture of peace 
 ◾ Building inclusive knowledge societies through 
information and communication
The organisation also has two global priorities – Africa 
and Gender Equality within its overall mandate, as areas of 
focus. Thus, in the areas of its competence, UNESCO’s role 
is to improve access to information and knowledge for the 
Member States through appropriate use of information 
and communication technologies. While the programme 
sectors engage in the specific area of UNESCO’s 
competence, the Communication and Information sector, 
7especially the Knowledge Societies Division (KSD) engages 
in creating an enabling environment in Member States to 
facilitate access to information and knowledge in order 
to build inclusive knowledge societies. Open Access to 
scientific information and research is one of the many 
programmes on which the KSD works to increase access 
to information and knowledge. Some of the other related 
areas where UNESCO works are:
Free and Open Source Software (FOSS)
In the area of Free and Open Source Software (FOSS), 
UNESCO fulfils its basic functions of a laboratory of ideas 
and a standard-setter to forge universal agreements on 
emerging ethical issues by supporting the development 
and use of open, interoperable, non-discriminatory 
standards for information handling and access as 
important elements in developing effective infostructures 
that contribute to democratic practices, accountability 
and good governance. Recognising that software plays 
a crucial role in access to information and knowledge, 
UNESCO supported the development and distribution 
of software such as the Micro CDS/ISIS1 (information 
storage and retrieval software) and Greenstone2 (digital 
library software). FOSS is the engine for the growth and 
development of Open Access, and UNESCO encourages 
community approaches to software development. 
Preservation of Digital Heritage
Preservation of digital cultural heritage, including 
digital information is a priority area for UNESCO. Digital 
preservation consists of the processes aimed at ensuring 
the continued accessibility of digital materials. Making 
information that are preserved accessible to citizens is 
facilitated through the appropriate use of a combination 
of software and hardware tools. UNESCO’s Charter on the 
Preservation of the Digital Heritage (2003) states that 
“the purpose of preserving the digital heritage is 
to ensure that it remains accessible to the public. 
Accordingly, access to digital heritage materials, 
especially those in the public domain, should be free of 
unreasonable restrictions. At the same time, sensitive 
and personal information should be protected from 
any form of intrusion”. 
UNESCO’s Memory of the World (MoW) programme aims 
at preserving world’s documentary heritage by making 
it permanently accessible to all without hindrance. The 
mission of the Memory of the World Programme is: 
1 http://www.unesco.org/new/en/communication-and-information/access-
to-knowledge/free-and-open-source-software-foss/cdsisis/
2 http://www.greenstone.org/
 ◾ To facilitate preservation, by the most appropriate 
techniques, of the world’s documentary heritage.
 ◾ To assist universal access to documentary heritage. 
 ◾ To increase awareness worldwide of the existence and 
significance of documentary heritage.
Open Educational Resources
Access to high quality education is key to the building 
of peace, sustainable social and economic development, 
and intercultural dialogue. Open Educational Resources 
(OER) provide a strategic opportunity to improve access 
to quality education at all levels, and increase dialogue, 
knowledge sharing and capacity building. In the 
education and research ecosystem, OER and OA forms 
two important interventions that works in an integrated 
fashion to promote the quality of learning and generate 
new knowledge. The term OER was coined at UNESCO in 
the 2002 Forum on the Impact of Open Courseware for 
Higher Education in Developing Countries.
Information for All Programme (IFAP)
KSD also hosts the intergovernmental programme – 
Information for All Programme (IFAP) that is engaged in 
reducing the gap between information have and have not 
in North and South. The IFAP seeks to: 
 ◾ promote international reflection and debate on the 
ethical, legal and societal challenges of the information 
society;
 ◾ promote and widen access to information in the public 
domain through the organisation, digitisation and 
preservation of information;
 ◾ support training, continuing education and lifelong 
learning in the fields of communication, information 
and informatics;
 ◾ support the production of local content and foster the 
availability of indigenous knowledge through basic 
literacy and ICT literacy training;
 ◾ promote the use of international standards and 
best practices in communication, information and 
informatics in UNESCO’s fields of competence; and
 ◾ promote information and knowledge networking at 
local, national, regional and international levels.
8World Summit on the Information Society
The World Summit on the Information Society3 (WSIS), 
Geneva (2003) declared that “the ability for all to access 
and contribute information, ideas and knowledge is 
essential in an inclusive Information Society”. It further 
emphasised that sharing of global knowledge for 
development can be enhanced by removing barriers 
to equitable access to information.  While a rich public 
domain is an essential element for the growth of the 
Information Society, preservation of documentary records 
and free and equitable access to scientific information 
is necessary for innovation, creating new business 
opportunities and provide access to collective memory of 
the civilizations.
In the context of Open Access, the Summit proclaimed: 
28. We strive to promote universal access with equal 
opportunities for all to scientific knowledge and the 
creation and dissemination of scientific and technical 
information, including open access initiatives for 
scientific publishing.
Two of the Action Lines of the WSIS (Action Line 3: 
Access to information and knowledge and Action Line 
7: E-Science) have been involved in promoting Open 
Access to peer-reviewed information and research data 
through their interventions and engagements with the 
stakeholders.
Objective of this Document
The overall objective of the Policy Guidelines is to 
promote Open Access in Member States by facilitating 
understanding of all relevant issues related to Open 
Access. Specifically, it is expected that the document shall:
 ◾ Enable Member State institutions to review their 
position on access to scientific information in the light 
of the Policy Guidelines; 
 ◾ Assist in the choice of appropriate OA policy in the 
specific contexts of Member States; and
 ◾ Facilitate adoption of OA policy in research funding 
bodies and institutions by integrating relevant issues in 
the national research systems.
Thus, the Policy Guidelines are not prescriptive in nature, 
but are suggestive to facilitate knowledge-based decision-
making to adopt OA policies and strengthen national 
research systems.
3 http://www.itu.int/wsis/docs/geneva/official/dop.html
Organisation of the Contents
The content of the Policy Guidelines is organized in to nine 
sections:
 ◾ Section 1: The Development of Open Access to Scientific 
Information and Research, gives an overview of the 
definitions used, and the history of the OA movement 
– Budapest–Bethesda–Berlin.
 ◾ Section 2: Approaches to Open Access, enumerates the 
‘green’ and ‘gold’ routes to OA.
 ◾ Section 3: The Importance of Open Access, explains 
how OA is important for scholars, research institutions 
and for developing knowledge societies.
 ◾ Section 4: The Benefits of Open Access, emphasizes that 
OA enhances research process, improves visibility and 
usage of research works, and therefore, the impact of 
research works is also increased through citations and 
impact outside the academia.
 ◾ Section 5: Business Models, analyses the traditional 
business models in scientific communications and 
describes the new emerging models in the context of 
OA.
 ◾ Section 6: Copyright and Licensing, provides an 
overview of the legal issues in a non-legal language to 
explain that copyright is at the heart of OA. Copyright 
owners consent is essential to make OA happen, and 
authors and creators can retain rights to increase use 
of their works through different mechanisms, including 
Creative Commons licensing.
 ◾ Section 7: Strategies to Promote Open Access, describes 
policy- focused, advocacy-based and infrastructural 
approaches to OA. While all the approaches are 
important, it also lists a number of organizations 
engaged in promoting OA.
 ◾ Section 8: Policy Framework for Open Access, presents 
an overview of the growth of policies, and a critical 
appraisal of the issues affecting OA policies. It also 
presents a typology of OA policies to explain the 
difference in different types of policies adopted around 
the world. The chapter should be seen along-with the 
examples in Appendix-1.
 ◾ Section 9: Summary Policy Guidelines, is the key 
section of this document and explain the various 
components that a standard policy should consider, 
and suggests the best policy decision to be included.  
This section should also be seen along-with the 
templates in Appendix-2. 
9The Policy Guidelines also gives a detailed bibliography 
and glossary of terms and abbreviations used at the end. 
An executive summary is also there in the beginning to 
provide an overview of the document to help a quick 
understanding, though it is recommended that you read 
the sections for detail.
Using the Policy Guidelines
The Policy Guidelines can be used by individuals as a 
basic text on Open Access and related policies. While we 
recommend that beginners to the world of Open Access 
should read it from cover to cover, people having some 
understanding of OA may like to start reading from any of 
the sections. Decision-makers, administrators and research 
managers should focus on Sections 8 and 9 that capture 
all relevant issues of OA policy development. At the end 
of this document, you will find examples of different types 
of OA policies (Appendix 1), and three policy templates 
(Appendix 2) to choose and adopt. While every institution 
may have their unique process of policy adoption, we 
recommend a more democratic, consultative and open 
approach to adopt Open Access policy, as success of the 
policy implementation will depend on the ownership 
of the stakeholders to deposit their work and/or publish 
in OA journals.  We are sure that the Policy Guidelines will 
be useful to you, and we are interested in listening to 
your experiences and feedback. Please fill the attached 
feedback form at page 75-76 and return it to us to 
help improve the Policy Guidelines and also share your 
experiences with others.
Dr. Sanjaya Mishra 
Programme Specialist 
(ICT in Education, Science and Culture) 
Knowledge Societies Division 
Communication and Information Sector 
United Nations Educational, 
Scientific and Cultural Organization
10
EXECUTIVE SUMMARY 
These Guidelines provide an account of the development 
of Open Access, why it is important and desirable, how to 
attain it, and the design and effectiveness of policies.
Open Access is a new way of disseminating research 
information, made possible because of the World Wide 
Web. The development of the concept is summarised as 
follows:
 ◾ The Web offers new opportunities to build an optimal 
system for communicating science – a fully linked, 
fully interoperable, fully-exploitable scientific research 
database available to all
 ◾ Scientists are using these opportunities both to 
develop Open Access routes for the formal literature 
and for informal types of communication
 ◾ For the growing body of Open Access information, 
preservation in the long-term is a key issue
 ◾ Essential for the acceptance and use of the Open 
Access literature are new services that provide for the 
needs of scientists and research managers
 ◾ There are already good, workable, proven-in-use 
definitions of Open Access that can be used to 
underpin policy
 ◾ There is also a distinction made between two types of 
Open Access – gratis and libre – and this distinction 
also has policy implications
 ◾ Two practical routes to Open Access (‘green’ and 
‘gold’) have been formally endorsed by the research 
community
 ◾ The primary, and original, target for Open Access 
was the journal literature (including peer-reviewed 
conference proceedings). Masters and doctoral theses 
are also welcome additions to this list and the concept 
is now being widened to include research data and 
books
There is already considerable infrastructure in place to 
enable Open Access although in some disciplines this 
is much further advanced than others. In these cases, 
cultural norms have changed to support Open Access. 
Open Access is achieved by two main routes:
 ◾ Open Access journals, the ‘gold’ route to Open Access, 
are a particularly successful model in some disciplines, 
and especially in some geographical communities
 ◾ The ‘green’ route, via repositories can capture more 
material, faster, if the right policies are put in place
Additionally, ‘hybrid’ Open Access is offered by many 
publishers: this is where a fee can be paid to make a single 
article Open Access in an otherwise subscription-based 
journal. In some cases, the publisher will reduce the 
subscription cost in line with the new revenue coming in 
from Open Access charges, but in most cases this is not 
offered. The practice of accruing new revenue from Open 
Access charges without reducing the subscription price is 
known as ‘double dipping’.
There are a number of issues that contribute to the 
importance of Open Access:
 ◾ There is a problem of accessibility to scientific 
information everywhere
 ◾ Levels of Open Access vary by discipline, and some 
disciplines lag behind considerably, making the effort 
to achieve Open Access even more urgent
 ◾ Access problems are accentuated in developing, 
emerging and transition countries
 ◾ There are some schemes to alleviate access problems 
in the poorest countries but although these provide 
access, they do not provide Open Access: they are not 
permanent, they provide access only to a proportion 
of the literature, and they do not make the literature 
open to all but only to specific institutions
 ◾ Open Access is now joined by other concepts in a 
broader ‘open’ agenda that encompasses issues such 
as Open Educational Resources, Open Science, Open 
Innovation and Open Data
 ◾ Some initiatives aimed at improving access are not 
Open Access and should be clearly differentiated as 
something different
11
The benefits of Open Access are summarised as follows:
 ◾ Open Access improves the speed, efficiency and 
efficacy of research
 ◾ Open Access is an enabling factor in interdisciplinary 
research
 ◾ Open Access enables computation upon the research 
literature
 ◾ Open Access increases the visibility, usage and impact 
of research
 ◾ Open Access allows the professional, practitioner and 
business communities, and the interested public, to 
benefit from research 
As Open Access has grown, new business models have 
been developed – for journal publishing, for Open Access 
repositories, book publishing and services built to provide 
for new needs, processes and systems associated with the 
new methods of dissemination.
The dissemination of research depends upon the 
copyright holder’s consent and this can be used to 
enhance or hamper Open Access. Copyright is a bundle 
of rights: authors of journal articles normally sign the 
whole bundle of rights over to the publisher, though this is 
not normally necessary. 
Authors (or their employers or funders) can retain the 
rights they need to make the work Open Access, assigning 
to the journal publisher the right to publish the work 
(and to have the exclusive right to do this, if required). 
Such premeditated retention of sufficient rights to enable 
Open Access is the preferable course of action rather than 
seeking permission post-publication.
Formally licensing scientific works is good practice 
because it makes clear to the user – whether human or 
machine – what can be done with the work and by that 
can encourage use. Only a minor part of the Open Access 
literature is formally licensed at present: this is the case 
even for Open Access journal content. 
Creative Commons licensing is best practice because the 
system is well-understood, provides a suite of licences that 
cover all needs, and the licences are machine-readable. 
In the absence of such a licence, legal amendments to 
copyright law will be necessary in most jurisdictions to 
enable text-mining and data-mining research material.
Policy development is still a relatively new activity with 
respect to research dissemination. Policies may request 
and encourage provision of Open Access, or they may 
require it. Evidence shows that only the latter, mandatory, 
type accumulate high levels of material. Evidence also 
shows that researchers are happy to be mandated on this 
issue.
The issues that an Open Access policy should address are 
as follows:
 ◾ Open Access routes: policies can require ‘green’ 
Open Access by self-archiving but to preserve authors’ 
freedom to publish where they choose policies should 
only encourage ‘gold’ Open Access through publication 
in Open Access journals
 ◾ Deposit locus: deposit may be required either in 
institutional or central repositories. Institutional policies 
naturally specify the former: funder policies may also 
do this, or may in some cases specify a particular 
central repository
 ◾ Content types covered: all policies cover journal 
articles: policies should also encourage Open Access 
for books: funder polices are increasingly covering 
research data outputs
 ◾ Embargoes: Policies should specify the maximum 
embargo length permitted and in science this should 
be 6 months at most: policies should require deposit 
at the time of publication with the full-text of the item 
remaining in the repository, but closed, until the end of 
the embargo period
 ◾ Permissions:  Open Access depends on the 
permission of the copyright holder, making it 
vulnerable to publisher interests. To ensure that Open 
Access can be achieved without problem, sufficient 
rights to enable that should be retained by the author 
or employer and publishers assigned a ‘Licence To 
Publish’. Where copyright is handed to the publisher, 
Open Access will always depend upon publisher 
permission and policies must acknowledge this by 
accommodating a ‘loophole’ for publishers to exploit
 ◾ Compliance with policies: compliance levels vary 
according to the strength of the policy and the on-
going support that a policy is given: compliance 
can be improved by effective advocacy and, where 
necessary, sanctions 
 ◾ Advocacy to support a policy: there are proven 
advocacy practices in support of an Open Access 
policy: policymakers should ensure these are known, 
understood, and appropriate ones implemented
 ◾ Sanctions to support a policy: both institutions and 
funders have sanctions that can be used in support of 
12
an Open Access policy: policymakers should ensure 
that these are identified, understood and appropriate 
ones implemented where other efforts fail to produce 
the desired outcome
 ◾ Waivers: where a policy is mandatory authors may not 
always be able to comply. A waiver clause is necessary 
in such policies to accommodate this
 ◾ ‘Gold’ Open Access: where a funder or institution has 
a specific commitment with respect to paying ‘gold’ 
article-processing fees, this should be stated in the 
policy
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13
SECTION 1. The Development of Open 
Access to Scientific Information and 
Research
1.1 The development of scientific 
communication
The primary purposes of a formal publishing system 
through journals or books are so that scholars may 
establish their right to the intellectual property contained 
in the articles, so that authors can lay claim to be the 
first to conduct the work and present its findings, and to 
operate a quality control system through peer review that 
endeavours to guarantee that the work published is bona 
fide, original and properly conducted.
The beginning of the modern era of scientific 
communication can be traced back to the publication in 
1665 of the first issues of both the Journal des Sçavans in 
Paris and the Philosophical Transactions of the Royal Society 
(of London). The number of scholarly journals grew very 
slowly at first, with 100 extant titles in the mid 1800s and 
approximately linear growth until the latter half of the 
20th century when numbers grew very rapidly, reflecting 
massive investment in science that increased project 
funding and researcher numbers. 
The number of peer-reviewed journals currently in 
publication is generally agreed to be around 25,0004: there 
are probably many more local and regional peer-reviewed 
publications in addition to this, as well as publications that 
do not undertake formal peer review.
Over three centuries there was little change in the system 
apart from in intensity of activity, but in the mid-20th 
century computing developments offered opportunities 
for new ways of communicating about research. By the 
1970s, scientists at Bell Laboratories were posting their 
findings on electronic archives that offered file transfer 
protocol (ftp) access for other scientists. This may seem 
4 This is the number indexed by Ulrich’s Periodicals Directory 
insignificant, but represents a major shift: now, scientists 
were permitting access to their own files on remote 
computers and accessing those of other scientists in the 
same way. The age of digital scientific communication 
had begun, though it remained largely the domain of 
computer scientists until the advent of the World Wide 
Web in the late 1980s5. The development of graphical Web 
browsers subsequently enabled anyone with a computer 
and online access to communicate with anyone else with 
a computer and online access. 
Now, with the only limiting factors being the technological 
limits of bandwidth and computer power, scientists can 
take advantage of instant communication. They are doing 
so in increasingly diverse ways through informal, self- 
or community-regulated networks utilising tools such 
as blogs, wikis, discussion groups, podcasts, webcasts, 
virtual conferences and instant messaging systems. These 
developments are changing both the character of science 
communication in many ways and scientists’ expectations 
of a science communication system. We can expect 
continuing evolution in this area. 
At the same time, the formal components of the scientific 
publishing system have moved to the Web and while 
some scientific journals are still published in print to 
accompany the electronic version, new journals are 
mostly born electronic. At the moment, at least, journals 
still represent the formal record of science.  To improve 
their functionality, over the past decade or so an array of 
new features have been added to such journals, such as 
extensive hyper-linking within the text to other articles, 
graphics and datasets. In addition, some of the early 
worries of librarians (and some scientists) about the long-
term preservation of electronic journals have been at least 
partly allayed by arrangements between (some) publishers 
5 Developed by Berners-Lee (1989) see full reference in bibliography.
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and national libraries and by international developments 
such as CLOCKSS6.
Alongside the move to the Web of journals there has been 
the development of specialised Web-based search-and-
discovery tools to enable scientists to identify and locate 
articles of relevance to their work. Some of these tools 
are electronic versions of previous, paper-based services, 
others are new services altogether, such as Web search 
engines (for example, Google Scholar).
1.2 The development of Open 
Access to scientific information
The early use of the Internet by computer scientists was 
the forerunner of true Open Access. They made their 
findings freely available for other computer scientists 
to use and build on. But theirs was a comparatively 
rudimentary system and was open only to a discrete 
community. The Web, however, offered the possibility for 
scientists to make their work available to all who might 
wish to use it, and though academic research might be 
viewed as being primarily of use to academic scientists, 
there are other constituencies that benefit from it as well – 
independent researchers, the professional and practitioner 
communities, industry and commerce.
In 1991, the high-energy physics preprint server, arXiv7 
(preprints are the pre-peer review version of journal 
articles) was established and the practice of self-archiving 
(depositing in an Open Access archive) of scientific 
articles took root in that community. Later in that 
decade, Citeseer8, a citation-linked index of the computer 
science literature was developed to harvest articles from 
websites and repositories where they were being self-
archived by the computer science community. These two 
rapidly-growing collections9 of openly-available material 
demonstrated the demand for access to that literature – 
usage is extremely high – and showed the way for the rest 
of the scientific disciplines. 
6 Controlled LOCKSS (Lots of Copies Keep Stuff Safe), a community-governed 
initiative to preserve scholarly material in a sustainable, geographically-
distributed, dark archive: http://www.clockss.org/clockss/Home 
7 The server was initially hosted at the Los Alamos Laboratory in the USA, 
and moved to Cornell University in 2001: www.arxiv.org It contains around 
750,000 full-text documents and 75,000 new submissions each year. It 
serves approximately 1 million full-text downloads to around 400,000 
individual users each week: http://www.nature.com/nature/journal/v476/
n7359/full/476145a.html 
8 http://citeseerx.ist.psu.edu/ 
9 CiteSeer contains more than 750,000 documents and fulfils 1.5 million 
viewing requests per day. arXiv contains nearly 700,000 documents and 
sees over a million visits per day.
While many disciplines did not follow suit, there was 
subsequent development of Open Access collections 
in biomedicine in the form of PubMed Central10 and in 
economics (RePEC11 and similar services). These services 
are all excellent examples of opening up the literature 
in specific disciplines, but there remains a great deal of 
science not covered by them and so much work to be 
done in extending Open Access to these areas. 
At the same time as repositories were developing as 
locations for Open Access material, the alternative type 
of Open Access dissemination vehicle was also on the 
rise – Open Access journals. These are journals of a new 
type: they make their contents freely available online 
(though they may still charge subscriptions for printed 
versions) and employ a variety of business models to cover 
their costs. There are currently nearly 7,000 journals listed 
in the Directory of Open Access Journals, a service that 
is compiling a verified, searchable index of this type of 
publication. Some of these journals head their categories 
in the impact factor rankings published by Thomson 
Reuters12. 
In some cases, books are also available as Open Access 
publications and in fact one of the earliest experiments 
in Open Access was by the National Academies Press 
which, in 1994, began making its books freely available 
online while selling print copies (a model it still uses 
though with some refinements). Recent developments 
in this area have been extensive: of note are the many 
advances by university presses to find a sustainable 
model for producing their outputs in Open Access form13, 
the establishment of a shared production platform and 
Open Access digital library for publishers of books in the 
humanities in Europe14, and with commercial publishers 
entering the scene15.
With these developments, the need to advocate a clear 
message to the whole scientific community led to the 
development of a formal definition of Open Access.
10 http://www.ncbi.nlm.nih.gov/pmc/  There are also national versions of 
PubMed Central (such as UK PubMed Central: http://ukpmc.ac.uk/) 
11 http://repec.org/ 
12 Web of Knowledge Journal Citation Reports: http://wokinfo.com/products_
tools/analytical/jcr/ 
13 OASIS (Open Access Scholarly Information Sourcebook): University 
presses and Open Access Publishing: http://www.openoasis.org/index.
php?option=com_content&view=article&id=557&Itemid=385 
14 OAPEN (Open Access publishing in European Networks): http://www.
oapen.org/home 
15 For example, Bloomsbury Academic: http://www.bloomsburyacademic.
com/ 
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1.3 Defining Open Access
1.3.1 The Budapest Open Access 
Initiative
Although there have been several different attempts at 
formally defining Open Access, the working definition 
used by most people remains that of the Budapest 
Open Access Initiative (BOAI, 200216) which was released 
following a meeting in Budapest in December 2001.  The 
Initiative is worded as follows:
An old tradition and a new technology have converged 
to make possible an unprecedented public good. The old 
tradition is the willingness of scientists and scholars to 
publish the fruits of their research in scholarly journals 
without payment, for the sake of inquiry and knowledge. 
The new technology is the internet. The public good they 
make possible is the world-wide electronic distribution 
of the peer-reviewed journal literature and completely 
free and unrestricted access to it by all scientists, scholars, 
teachers, students, and other curious minds. Removing 
access barriers to this literature will accelerate research, 
enrich education, share the learning of the rich with the 
poor and the poor with the rich, make this literature as 
useful as it can be, and lay the foundation for uniting 
humanity in a common intellectual conversation and 
quest for knowledge. 
For various reasons, this kind of free and unrestricted 
online availability, which we will call open access, has so 
far been limited to small portions of the journal literature. 
But even in these limited collections, many different 
initiatives have shown that open access is economically 
feasible, that it gives readers extraordinary power to 
find and make use of relevant literature, and that it 
gives authors and their works vast and measurable new 
visibility, readership, and impact. To secure these benefits 
for all, we call on all interested institutions and individuals 
to help open up access to the rest of this literature and 
remove the barriers, especially the price barriers, that 
stand in the way. The more who join the effort to advance 
this cause, the sooner we will all enjoy the benefits of open 
access. 
The literature that should be freely accessible online is 
that which scholars give to the world without expectation 
of payment. Primarily, this category encompasses their 
peer-reviewed journal articles, but it also includes any 
as-yet un-reviewed preprints that they might wish to put 
16 http://www.soros.org/openaccess 
online for comment or to alert colleagues to important 
research findings. There are many degrees and kinds of 
wider and easier access to this literature. By “open access” 
to this literature, we mean its free availability on the 
public internet, permitting any users to read, download, 
copy, distribute, print, search, or link to the full texts of 
these articles, crawl them for indexing, pass them as data 
to software, or use them for any other lawful purpose, 
without financial, legal, or technical barriers other than 
those inseparable from gaining access to the internet itself. 
The only constraint on reproduction and distribution, and 
the only role for copyright in this domain, should be to 
give authors control over the integrity of their work and 
the right to be properly acknowledged and cited. 
While the peer-reviewed journal literature should be 
accessible online without cost to readers, it is not costless 
to produce. However, experiments show that the overall 
costs of providing open access to this literature are far 
lower than the costs of traditional forms of dissemination. 
With such an opportunity to save money and expand the 
scope of dissemination at the same time, there is today a 
strong incentive for professional associations, universities, 
libraries, foundations, and others to embrace open 
access as a means of advancing their missions. Achieving 
open access will require new cost recovery models and 
financing mechanisms, but the significantly lower overall 
cost of dissemination is a reason to be confident that the 
goal is attainable and not merely preferable or utopian. 
To achieve open access to scholarly journal literature, we 
recommend two complementary strategies.  
I.  Self-Archiving: First, scholars need the tools and 
assistance to deposit their refereed journal articles in 
open electronic archives, a practice commonly called, 
self-archiving. When these archives conform to standards 
created by the Open Archives Initiative, then search 
engines and other tools can treat the separate archives 
as one. Users then need not know which archives exist or 
where they are located in order to find and make use of 
their contents. 
II. Open-access Journals: Second, scholars need the 
means to launch a new generation of journals committed 
to open access, and to help existing journals that elect 
to make the transition to open access. Because journal 
articles should be disseminated as widely as possible, 
these new journals will no longer invoke copyright to 
restrict access to and use of the material they publish. 
Instead they will use copyright and other tools to ensure 
permanent open access to all the articles they publish. 
Because price is a barrier to access, these new journals will 
not charge subscription or access fees, and will turn to 
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other methods for covering their expenses. There are many 
alternative sources of funds for this purpose, including 
the foundations and governments that fund research, 
the universities and laboratories that employ researchers, 
endowments set up by discipline or institution, friends 
of the cause of open access, profits from the sale of add-
ons to the basic texts, funds freed up by the demise or 
cancellation of journals charging traditional subscription 
or access fees, or even contributions from the researchers 
themselves. There is no need to favor one of these 
solutions over the others for all disciplines or nations, and 
no need to stop looking for other, creative alternatives. 
Open access to peer-reviewed journal literature is the 
goal. Self-archiving (I.) and a new generation of open-
access journals (II.) are the ways to attain this goal. They 
are not only direct and effective means to this end, they 
are within the reach of scholars themselves, immediately, 
and need not wait on changes brought about by markets 
or legislation. While we endorse the two strategies just 
outlined, we also encourage experimentation with further 
ways to make the transition from the present methods of 
dissemination to open access. Flexibility, experimentation, 
and adaptation to local circumstances are the best ways 
to assure that progress in diverse settings will be rapid, 
secure, and long-lived. 
The Open Society Institute, the foundation network 
founded by philanthropist George Soros, is committed 
to providing initial help and funding to realize this goal. 
It will use its resources and influence to extend and 
promote institutional self-archiving, to launch new 
open-access journals, and to help an open-access journal 
system become economically self-sustaining. While the 
Open Society Institute’s commitment and resources are 
substantial, this initiative is very much in need of other 
organizations to lend their effort and resources. 
We invite governments, universities, libraries, journal 
editors, publishers, foundations, learned societies, 
professional associations, and individual scholars who 
share our vision to join us in the task of removing the 
barriers to open access and building a future in which 
research and education in every part of the world are that 
much more free to flourish. 
The BOAI addresses a number of issues that are important 
and need to be highlighted.
First, it acknowledges that the reason Open Access is 
now possible is because the Web offers a means for free 
dissemination of goods. In the days of print-on-paper, free 
dissemination was not possible because each copy had 
an identifiable cost associated with it in terms of printing 
and distribution. Second, and related to the first, the BOAI 
acknowledges that there are costs to producing the peer-
reviewed literature, even though peer review services are 
provided for free by scientists, as is the raw material, of 
course.
Third, the BOAI describes two ways in which work can be 
made Open Access: by self-archiving, that is by depositing 
copies of papers in Open Access archives (commonly 
called the ‘green route’); and by publishing in Open Access 
journals, publications that make their content freely 
available on the Web at the time of publication (referred to 
as the ‘gold route’). 
Fourth, the BOAI details the kinds of access barriers that 
are non-permissible in an Open Access world – financial, 
technical and legal. Implicit in the definition is also the 
removal of a temporal barrier, meaning that research 
findings should be immediately available to would-be 
users once in publishable form, and thereafter available 
permanently. It is helpful to think of this also in terms of 
‘price barriers’ (for example, subscription costs or pay-per-
view charges) and ‘permission barriers’ (onerous copyright 
or licensing restrictions on use)17. 
Finally, the Initiative addresses the issue of use of the Open 
Access literature which, it says, should be available to read, 
download, copy, distribute, print, search, or link to the full 
texts of these articles, crawl them for indexing, pass them as 
data to software, or use them for any other lawful purpose. 
This may seem like an unnecessarily detailed list, but the 
Initiative was setting in place the conditions needed for 
digital science in the 21st century, where computational 
methods will dominate as science becomes more data-
intensive and machines need to access the literature to 
create knowledge. In other words, being able to read an 
article for free will not be enough. 
This has led to an extension of the definition of Open 
Access, distinguishing between free-to-read and free-
to-do more types of access. These are explained in the 
section below.
1.3.2 Gratis and Libre Open Access
From the viewpoint of policy development, this issue is 
important. Policies may explicitly acknowledge it, requiring 
material to be made Open Access with provision for re-use 
in ways over and above simply reading. This most liberal 
definition of Open Access has been called, by agreement 
within the Open Access advocacy community, ‘libre’ Open 
17 From ‘Overview of Open Access (2010) by Peter Suber. See bibliography for 
full reference.
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Access. The other variant, where material is free to read but 
does not explicitly permit further types of re-use, is called 
‘gratis’ Open Access. 
The difference between the two may seem subtle, but the 
implications are rather profound.  In terms of scientists’ 
behaviour in respect of their own interests, all scientists 
want their work to be read and built upon by others. That 
is precisely why they publish: unless they work in industry 
or in another private capacity, contributing to the general 
knowledge base is the purpose of their employment 
as public servants. Gratis Open Access thus presents no 
conflict with the normal aims of scientists to make their 
findings available and to have as much impact as possible. 
The argument goes that they may not, however, be so 
clear about the issue of liberal re-use rights for their work. 
Making their articles available for other scientists to read is 
one thing, it is said, but allowing more may be a step too 
far. 
It is worth examining here what is implicated. There are 
two fundamental types of re-use. First, what we might 
term ‘human re-use’, by which is meant that scientists may 
use an article in ways other than just reading it to find 
out what its messages are. We can imagine a number of 
possibilities. 
A scientist might:
 ◾ extract a component of the article (a graph or table, 
photograph or list) and carry out further analysis or 
modification for the purpose of research 
 ◾ use one of these components alongside others like it 
to form a public collection
 ◾ use one or other of those components in presentations 
or teaching materials that are made widely available
 ◾ use a component in an article for publication
 ◾ extract large chunks of text for use in other articles
But fellow scientists are not the only potential users. 
There may be people who could make commercial use of 
material in the article, too. 
Second, there is what we can term ‘machine re-use’, by 
which is meant that computers can also use what is in 
the literature. Computation upon the scientific literature 
is in its early days, but technologies are being developed 
and refined because of the huge potential they have for 
creating new knowledge that can be beneficial18. For 
18 For an overview of open computation, see Lynch (2006): full reference in 
the bibliography.
example, text-mining of the biomedical literature19 has 
the potential to identify avenues to discovering new 
drugs and other therapies20. It is worth noting that these 
technologies do not work well on texts in PDF format, 
which unfortunately is the format that most Open Access 
articles are available in at the moment. The preferred 
format is XML (Extensible Markup Language). This 
may seem a trivial point, but in policy terms it is rather 
significant. In the future, as this area develops, policies 
are likely to discourage PDF and insist on a format that is 
either XML or can be easily converted to it.  
1.3.3 Other formal definitions of 
Open Access
Subsequent definitions of Open Access have been offered. 
The Bethesda Statement on Open Access Publishing21 
built upon the BOAI by specifying in detail the ways in 
which Open Access material can be used. In particular, it 
specifies what an Open Access publication is and which 
rights the owners or creators of the work grant to users 
through the attachment of particular licences. It says, an 
Open Access Publication is one that meets the following 
two conditions:
1. The author(s) and copyright holder(s) grant(s) to all users 
a free, irrevocable, worldwide, perpetual right of access to, 
and a license to copy, use, distribute, transmit and display 
the work publicly and to make and distribute derivative 
works, in any digital medium for any responsible purpose, 
subject to proper attribution of authorship, as well as the 
right to make small numbers of printed copies for their 
personal use. 
2. A complete version of the work and all supplemental 
materials, including a copy of the permission as stated 
above, in a suitable standard electronic format is 
deposited immediately upon initial publication in at least 
one online repository that is supported by an academic 
institution, scholarly society, government agency, or other 
well-established organization that seeks to enable open 
access, unrestricted distribution, interoperability, and 
long-term archiving (for the biomedical sciences, PubMed 
Central is such a repository). 
The Bethesda Statement therefore reinforces the emphasis 
on barrier-free dissemination of scientific works and 
19 For an explanation of the technologies, see Rodriguez-Esteban (2009): full 
reference in the bibliography. 
20 For an example of how the technologies work, the UK’s National Centre 
for Text Mining (NaCTeM) and the European Bioinformatics Institute are 
collaborating with UK PubMed Central on text-mining the biomedical 
literature: http://www.nactem.ac.uk/ukpmc/  
21 http://www.earlham.edu/~peters/fos/bethesda.htm 
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expressly details the types of re-use that Open Access 
permits, including the making of derivative works, and the 
rights/licensing conditions that apply.
Finally, the Berlin Declaration on Open Access to 
Knowledge in the Sciences and Humanities was 
published in 200322. This is essentially the same as the 
Bethesda Statement but at the third of the annual Berlin 
Conferences on Open Access (which are held in different 
cities each year) the conference agreed to an additional 
recommendation for research institutions, as follows:
In order to implement the Berlin Declaration institutions 
should implement a policy to: 
1. require their researchers to deposit a copy of all their 
published articles in an open access repository 
and 
2. encourage their researchers to publish their research 
articles in open access journals where a suitable 
journal exists (and provide the support to enable that 
to happen). 
Although there have been further attempts to define 
Open Access, these three (Budapest, Bethesda and Berlin), 
usually used together and referred to as the ‘BBB definition 
of Open Access’, have become established as the working 
definition.
This account of the definition of Open Access has been 
thorough because the issue is critically important to policy 
development, whether by research funders, institutions or 
other bodies. It is easy for policies to specify too little – in 
which case what results is not a true Open Access body of 
literature; or too much – in which case there are too many 
hurdles to clear to achieve Open Access satisfactorily.
Reflection on the definitions above makes it clear 
that there are three main issues to deal with in policy 
development: 
 ◾ what should be covered by a policy
 ◾ what should be specified with regard to timing, costs, 
and how Open Access should be provided
 ◾ and what conditions should be applied with respect to 
copyright and licensing
These issues are further discussed in section 8.
22 http://oa.mpg.de/lang/en-uk/berlin-prozess/berliner-erklarung/ 
1.4 Target content for Open Access
Central to making policy on Open Access is what types of 
research outputs are to be covered. The general term that 
is used to describe the target of Open Access is ‘the peer-
reviewed research literature’. In broadest terms, this would 
cover journals, peer-reviewed conference proceedings 
(the primary dissemination route in some disciplines, 
such as engineering) and books. Using this general term 
‘literature’, though, brings the need for some caveats. 
First, there is the issue of how to deal with scholarly books. 
Journals are simple: scientists write articles for publication 
in journals and do not expect payment for this. Indeed, 
their purpose in writing for journals is to gain reputational 
capital and benefit personally in the currency of academic 
research – citations. Book authors, however, do sometimes 
expect a financial reward as well as reputational capital to 
come to them from writing books. The financial reward 
is certainly very small in the vast majority of cases, and 
most authors in the humanities (which is the discipline 
most affected since books are the primary dissemination 
tool) acknowledge that their expectations of financial 
reward are hardly high23, but the fact that the potential for 
financial payoff exists means that what can be required in 
policy terms with respect to journal articles cannot be the 
same for books. Nonetheless, policies usually do mention 
books (and book chapters), complete with caveat (see 
section 8 for further discussion on this).
Second, there is another category of research output 
that is increasingly becoming a focus for policy, and 
that is research data. Science is now data-intensive and 
becoming ever more so. In some disciplines (but not all) 
there is an acknowledged need to share data in order 
to effect progress. Science is simply too big in some 
fields to move forward without collaborative intent. The 
Human Genome Project illustrates this point: thousands 
of scientists around the world worked on the effort to 
sequence the whole human DNA complement and the 
principles of data sharing were agreed at the now-famous 
Bermuda meeting in 199624.  There is excellent provision of 
public data storage and preservation facilities for scientists 
23 Anecdotally, most cheerfully agree that reputational capital far outweighs 
financial reward as the main hoped-for benefit from publishing their work 
in book form.
24 1st International Strategy Meeting on Human Genome Sequencing: This 
included a principle that no-one would claim intellectual property rights 
over genome data and that data would be made publicly-available within 
24 hours of being produced: http://www.ornl.gov/sci/techresources/
Human_Genome/research/bermuda.shtml#1 
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in biomedical research25, as there is in some other data-
intensive disciplines. 
As well as the significant policy and infrastructure 
developments to support Open Data seen in some 
disciplines there is a more general awakening of interest in 
this topic. Research funders, keen to optimise conditions 
for scientific progress, are also working on policy support 
to ensure that research data are made accessible by the 
scientists they fund. Many research funders around the 
world now have Open Data policies in place, some of 
them backed by particular infrastructural arrangements 
to enable the practicalities of complying with them26.  
Some researchers use their institution’s digital repository 
for depositing datasets for sharing, or place datasets on 
open websites. Publishers also make space available 
on their own websites for datasets supporting journal 
articles and in some cases journals require data to be 
made openly available as a condition of publication27. It 
must be emphasised, however, that data sharing is by no 
means ubiquitous and data management practices and 
norms vary considerably from one discipline to another, 
as many studies have demonstrated28. There is, however, 
growing organisation and formalisation of this field and 
the recently-developed Panton Principles define the aims 
and principles of Open Data concept29. 
Third, there are other types of research literature for 
which openness is considered desirable. These are 
theses (masters and doctoral) and the ‘grey’ literature (the 
research literature not destined for peer-reviewed journals 
such as working papers, pamphlets, etc). Whilst these 
are not covered by the formal definition of Open Access, 
they are second-tier targets and it should be noted that in 
some disciplines this tier of outputs is of very considerable 
significance.
Finally, though this is till very much in its infancy, there 
is a move towards developing an Open Bibliography of 
science. The premise here is that scientific information 
would be much more easily findable were there to be 
a properly constructed, fully-open bibliographic service 
(currently, the most comprehensive bibliographic services 
are paid-for services produced by commercial publishing 
companies). Though this issue is nowhere approaching 
25 For example, see the databases maintained by the National Centre 
for Biotechnology Information: http://www.ncbi.nlm.nih.gov/ and the 
European Bioinformatics Institute: http://www.ebi.ac.uk/ 
26 As an example, see the Natural Environment Research Council’s data centre 
network in the UK: http://www.nerc.ac.uk/research/sites/data/ 
27 The journal Nature, for example, has a clause in its conditions of publishing 
that stipulates that authors must make supporting data available for others 
to see and use.
28 See: Ruusalepp (2008), Brown & Swan (2009) and Swan & Brown (2008): full 
references in the bibliography.
29 http://pantonprinciples.org/ 
the stage where policy development can take place, the 
groundwork is being done to build an Open Bibliography 
system30.
Summary points on the development of 
Open Access
 ▶ The Web offers new opportunities to build an optimal system for 
communicating science – a fully linked, fully interoperable, fully-
exploitable scientific research database available to all
 ▶ Scientists are using these opportunities both to develop Open 
Access routes for the formal literature and for informal types of 
communication
 ▶ For the growing body of Open Access information, preservation in 
the long-term is a key issue
 ▶ Essential for the acceptance and use of the Open Access literature 
are new services that provide for the needs of scientists and 
research managers
 ▶ There are already good, workable, proven-in-use definitions of 
Open Access that can be used to underpin policy
 ▶ There is also a distinction made between two types of Open 
Access – gratis and libre – and this distinction also has policy 
implications
 ▶ Two practical routes to Open Access (‘green’ and ‘gold’) have been 
formally endorsed by the research community
 ▶ The primary, and original, target for Open Access was the journal 
literature (including peer-reviewed conference proceedings). 
Masters and doctoral theses are also welcome additions to this list 
and the concept is now being widened to include research data 
and books
30 See the new principles on open metadata promoted by the Joint 
Information Systems Committee in the UK: http://www.jisc.ac.uk/
news/stories/2011/07/openmetadata.aspx and the Open Knowledge 
Foundation’s Working Group on Open Bibliographic Data http://wiki.okfn.
org/Wg/bibliography 
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SECTION 2. Approaches to 
Open Access
A ny form of scientific output can be made openly available, simply by being posted onto a website. This can and does happen 
for journal articles, book chapters and whole 
books, datasets of all types (including graphics, 
photographs, audio and video files) and 
software. The term Open Access, however, tends 
to be used about information made available in 
one of two structured ways.  
2.1 Open Access repositories: the 
‘green’ route to Open Access
Open Access repositories house collections of scientific 
papers and other research outputs and make them 
available to all on the Web. Because repositories can 
collect all the outputs from an institution, and because 
all institutions can build a repository, the potential for 
capturing high levels of material is excellent, though this 
potential is only realised if a proper policy is put in place. 
Repositories mostly run on open source software31 and 
all adhere to the same basic set of technical rules32 that 
govern the way they structure, classify, label and expose 
their content to Web search engines. Because they all 
abide by these basic rules they are interoperable: that is, 
they form a network and, through that network, create 
between them one large Open Access database, albeit 
distributed across the world. They are all indexed by 
Google, Google Scholar and other search engines, so 
discovering what is in this distributed database is a simple 
matter of searching by keyword using one of these tools. 
It can also be done using one of the more specialised 
discovery tools that index only repository content 
31 The most common ones are EPrints (www.eprints.org) and DSpace (http://
www.duraspace.org/) 
32 OAI-PMH (Open Archives Initiative - Protocol for Metadata Harvesting): 
http://www.openarchives.org/OAI/openarchivesprotocol.html 
rather than the whole Web33. The current distribution of 
repositories is shown in Figure 1.
47% 
20% 
19% 
7% 
3% 3% 1% 0% 
Europe 
North America 
Asia 
South America 
Australasia 
Africa 
Caribbean 
Other 
Figure 1: Distribution of repositories  
(source: OpenDOAR, July 2011)
2.1.1 Centralised, subject-specific 
repositories
The earliest type of repository was the subject-specific, 
centralised type and there are some outstandingly 
successful examples. One such is the repository for 
high-energy physics and allied fields, called arXiv (see 
section 1.2).  Subject-specific repositories may be created 
by authors directly depositing their work into the 
repository (like arXiv), or by ‘harvesting’ content from other 
collections (e.g. university repositories) to create a central 
service. The economics Open Access repository, RePEc, 
is created in this way. The success of the ‘harvesting’ type 
of repository is dependent upon there being sufficient 
suitable content in the university or research institute 
repositories that can be harvested. The success of direct-
deposit repositories is dependent either upon community 
norms where the expectations are that authors will share 
their findings, or upon policy support that establishes this 
behaviour where the culture of sharing does not pre-exist. 
33 For example, the Bielefeld Academic Search Engine: http://base.ub.uni-
bielefeld.de/en/index.php  or OAIster: http://oaister.worldcat.org/ 
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This is therefore an important policy issue, and is discussed 
further in section 8.
Another successful subject-specific example is PubMed 
Central (PMC), the repository that houses the Open Access 
outputs of the National Institutes of Health amongst 
other things. It was established in the US in the year 
2000, with the contents of just two journals. Within two 
years it covered 55 journals and numbers have been 
growing steadily to the present day, when it collects the 
contents of 600 journals as well as manuscripts deposited 
by authors. The database currently has around 2 million 
full-text journal articles, though while all are free to 
access and read, only about 11% fall under the strictest 
definition of Open Access by being distributed under a 
licence that permits more liberal re-use (see section 1.3). 
The general intention in this biomedical sciences field 
appears to be to build a network of national or regional 
PMCs to complement and mirror the US-based one. The 
first international PMC (PMCi) was established in the UK 
in 2007 by a consortium of other research funders. A 
Canadian site has been announced, with discussion of 
additional sites in other regions, including the possibility of 
transforming the UK site into a European PMC. 
2.1.2 Institutional and other broad-
scope repositories
In other fields and disciplines there is no centralised 
service like PMC or arXiv nor, yet, an established set of 
cultural practices around Open Access. There is, however, 
a growing network of institutional repositories, plus a 
handful of central, broad-scope ones such as OpenDepot34 
that serve large communities. These repositories 
complement the centralised, subject-based repositories. 
Ultimately, a network in which all research-based 
universities and research institutes have a repository has 
the potential to provide virtually 100% Open Access for 
the scholarly literature.
The first institutional repository was built in the School 
of Electronics & Computer Science at the University of 
Southampton, United Kingdom, in 200035. The software 
that it runs on, EPrints36, is open source and after its release 
other institutions began to build their own repositories to 
provide Open Access to their research outputs. Growth has 
been rapid: within a decade there were 1800 repositories 
34 OpenDepot is a central, Open Access repository operated by the University 
of Edinburgh, UK. It offers a deposit location for researchers whose own 
institution does not yet have a repository and re-directs articles to the 
home institution repository when one is established: http://opendepot.org/ 
35 http://eprints.ecs.soton.ac.uk/ 
36 http://www.eprints.org/software/ 
in institutions worldwide and the number continues to 
increase37 as universities and research institutions see the 
value of the additional visibility and impact a repository 
provides. 
Research policy in some countries has also encouraged 
the establishment of repositories. In the UK, for example, 
the periodic national Research Assessment Exercise (RAE; 
in future to be called the Research Excellence Framework, 
REF38) has required universities to gather information 
about research activities and outputs. Because a repository 
provides a structure for such an exercise almost all British 
universities now have institutional repositories, many with 
formal policies underpinning them. In Australia, a similar 
national research assessment exercise39 actually required 
Australian universities to have a repository to collect 
research articles for submission to the assessment exercise. 
The relative numbers of types of repository are shown in 
Figure 2.
83%
11%
4% 2%
Institutional
Subject-specific
Specialised
Government
Figure 2: Repository types40 
(Source: OpenDOAR, July 2011)
37 At the time of writing there are well over 2000 repositories globally. Two 
directories track the numbers and types of repositories: the Directory of 
Open Access Repositories (ROAR): http://roar.eprints.org/ and OpenDOAR: 
http://www.opendoar.org/index.html 
38 http://www.hefce.ac.uk/research/ref/ 
39  At the time called the Research Quality Framework (RQF); now called the 
Excellence in Research for Australia Initiative (ERA) http://www.arc.gov.au/
era/ 
40 Specialised repositories may collect material on a particular topic from a 
number of sources, or may focus on one type of content, such as theses. 
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2.2 Open Access journals: the ‘gold’ 
route to Open Access
2.2.1 The Open Access publishing 
arena
Open Access journals also contribute to the corpus of 
openly available literature. There are around 7,000 of these 
at the moment, altogether offering over 600,000 articles41. 
Again, community norms play a role in determining 
whether such journals are welcomed and supported by 
researchers. In some disciplines there are many, highly 
successful Open Access journals, such as in biomedicine; 
and in some geographical communities there is also 
an organised approach to Open Access publishing, 
exemplified by the Latin American service SciELO 
(Scientific Electronic Library Online)42. The potential for 
capturing high levels of Open Access material by this route 
is good, but is limited by the willingness of publishers 
to forego their subscription-based revenue model and 
switch to one that delivers Open Access (see section 5 for 
a discussion of business models). 
The Open Access publishing scene is very varied: there are 
some large publishing operations and thousands of small 
or one-journal operations. And just as for the subscription-
access literature, quality ranges from excellent to poor. 
The Open Access journal literature is no different in that 
respect.
The earliest sizeable Open Access publisher to show that 
Open Access can be consistent with commercial aims 
was BioMed Central43 (now part of the Springer science 
publishing organisation). BioMed Central currently 
publishes some 210 journals, mainly in biomedicine, 
though also with some coverage of chemistry, physics 
and mathematics. BioMed Central deposits all its journal 
articles in PMC at the time of publication as well as 
hosting them on its own website. The Hindawi Publishing 
Corporation44, the Open Access publisher with the largest 
journal list, also publishes in the sciences. It has more than 
300 journals covering the natural and applied sciences, 
agriculture and medicine.
41 The Directory of Open Access Journals maintains a list and a search facility: 
http://www.doaj.org 
42  SciELO is an electronic publishing cooperative that offers a collection of 
Latin American and Caribbean journals and associated services: http://
www.scielo.org/php/index.php?lang=en 
43 http://www.biomedcentral.com/ 
44 http://www.hindawi.com/ 
Another publisher, the Public Library of Science45, 
publishes some of the highest impact journals in biology 
and medicine (PLoS Biology and PLoS Medicine, plus others). 
This publisher has also changed the shape of scientific 
publishing through the launch of PLoS ONE, a journal that 
covers all the natural sciences. PLoS ONE introduced a 
new system of quality control. Though still based upon 
peer review, pre-publication referees are asked to judge an 
article purely on the basis of whether the work has been 
carried out in a sound scientific manner. The paper is then 
published and judgments about its relevance, significance 
and impact are made through post-publication 
community response online. The model has proved very 
successful and has recently been emulated by the Nature 
Publishing Group with the launch of Nature Scientific 
Reports46.
There has been significant activity in this area in 
developing and emerging countries, too. Open Access 
provides the means for scientists in these regions to 
at last make their work easily findable and readable by 
developed-world scientists. In scientific communication 
terms, Open Access is becoming a great leveller. SciELO 
(Scientific Electronic Library Online), a collection of peer-
reviewed Open Access journals published mainly from 
South American countries in Spanish or Portuguese, 
covers over 800 journals offering over 300,000 articles 
in the natural sciences, medicine, agriculture and social 
sciences. And Bioline International47, a service that 
provides a free electronic publishing platform for small 
publishers wishing to publish Open Access journals in 
the biosciences, has over 50 journals in its collection, 
all from developing and emerging countries, covering 
biomedicine and agriculture. As well as these services, 
libraries generally include the Directory of Open Access 
Journals (DOAJ) in their catalogues, thereby increasing 
visibility or articles from developing countries and 
bringing them to the attention of developed world 
researchers.
2.2.2 ‘Hybrid’ Open Access
As well as the ‘pure gold’ Open Access journals described 
above – journals in which all content is Open Access and 
licensed accordingly – there is another model. Most large 
scholarly publishers have introduced this in order to offer 
Open Access while retaining their current subscription-
based business model. This so-called ‘hybrid’ Open Access 
option allows authors to opt to pay a publication fee and 
45 http://www.plos.org/ 
46 http://www.nature.com/srep/marketing/index.html 
47 http://www.bioline.org.br/ 
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have their article made Open Access within an otherwise 
subscription journal. Take-up on these options is not high 
(less than 3% currently), largely because of the level of 
fee48 but also because many universities and funders who 
permit authors to use their funds to pay for Open Access 
publishing will not allow them to do so to publishers who 
‘double dip’: that is, charge an article-processing fee for 
making an article Open Access but do not lower their 
subscription charges in line with the new revenue stream. 
That said, there are a number of publishers who have 
made public commitments to adjusting the subscription 
price of their journals as revenue comes in from Open 
Access charges.  
It should also be noted that many journals offering this 
option do not make the articles available under a suitable 
licence: this means that though the articles are free to 
access and read they are often not allowed to be re-used 
in other ways, including by computing technologies.
2.2.3 Other ways of making research 
outputs open
It is possible to make articles and data open by posting 
them on publicly available websites such as research 
group site, departmental websites or authors’ personal 
sites. As well as these examples, there is growing interest 
in community websites49, and researchers are increasingly 
using these to share articles and other information.
Although these methods do make papers publicly 
available, these sites lack the structured metadata 
(labelling system) that repositories or Open Access 
journals create for each item, and most do not comply 
with the internationally-agreed standard OAI-PMH 
protocol (see section 2.1). This means that their contents 
are not necessarily fully indexed by Web search engines, 
which means that their visibility and discoverability are 
compromised. Author websites are also commonly out 
of date or become obsolete when researchers move 
from one institution to another, and they play no reliable 
preservation role. Moreover, one of the significant reasons 
from the institution or funder viewpoint for having 
material in a repository is to create a body of outputs that 
can be measured, analysed and assessed. If a repository 
is to be used for this purpose then it is important that it 
collects all the institution’s outputs, rather than having 
48 For example, fees for ‘hybrid’ journals published by Wiley and Elsevier are 
around USD 3000, excluding taxes and colour charges.
49 Such as Mendeley http://www.mendeley.com or Academia.edu http://
academia.edu/ 
them spread across multiple academic community 
websites.
Summary points on approaches to Open Access
 ▶ There is already considerable infrastructure in place to enable 
Open Access
 ▶ In some disciplines this is much further advanced than others
 ▶ In some disciplines cultural norms have changed to support Open 
Access but not so much in others
 ▶ Open Access journals, the ‘gold’ route to Open Access, are a 
particularly successful model in some disciplines, and especially in 
some geographical communities
 ▶ The ‘green’ route, via repositories can capture more material, 
faster, if the right policies are put in place
 ▶ ‘Hybrid’ Open Access is offered by many publishers.  
Predominantly these publishers are ‘double-dipping’
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SECTION 3. The Importance of 
Open Access
T he importance of access to research in the context of building a sustainable global future has been highlighted by UNESCO 
previously, and data have been produced 
on the patterns and trends with respect to 
the generation of, and access to, scientific 
information50.
3.1 Access problems
Probably no scientist, wherever they may live and 
work, would claim that he or she has access to all the 
information they need. Many studies have shown that 
this is so even in wealthy research-intensive countries. The 
Research Information Network (RIN) in the UK, concluded 
in a meta-report that brought together the findings from 
five RIN-sponsored studies carried out on discovery and 
access51, that ‘the key finding is that access is still a major 
concern for researchers’. 
On a global scale, the SOAP study, a large, 3-year, 
publisher-led, EU-funded project looking at Open Access 
and publishing, surveyed 40,000 researchers across the 
world and found that 37% of respondents said they could 
find all the articles they need ‘only rarely or with difficulty’. 
This presumably even takes into account the workarounds 
that researchers use – emailing authors, asking colleagues 
in other institutions, or using paid-for access through ILL 
(inter-library loan) or PPV (pay-per-view) systems.
Inter-library loan expenditure on journal articles is another 
indicator of lack of access. The UK’s ‘Elite 5’ universities, 
those with libraries expected to be the best-resourced 
in the country, show inter-library loan costs for journal 
articles currently averaging around USD 50,000 per year. 
And Open Access repository download figures indicate 
50 Reported in the UNESCO Science Report 2010 and the World Social Science 
Report 2010: see UNESCO (2010) and International Social Science Council 
(2010) in bibliography for full reference
51 http://www.rin.ac.uk/our-work/using-and-accessing-information-resources/
overcoming-barriers-access-research-information 
the extent that access is being fulfilled through that Open 
Access route for those who are unable to access the 
original journal52. 
We may also assume that journal access problems in the 
developed world will increase. Library budgets are under 
pressure, Big Deals (purchase of ‘bundles’ of a publisher’s 
offerings on 2-, 3- or 5-year deals) are being cancelled53 
and society-published journals are feeling the chill wind 
of recession in the form of attrition of prestigious but 
unaffordable titles. 
In the developing world, the situation is even more 
serious. A World Health Organization survey carried out 
in the year 2000 found that researchers in developing 
countries claim access to subscription-based journals to 
be one of their most pressing problems. This survey found 
that in countries where the per capita income is less than 
USD 1000 per annum, 56% of research institutions had no 
current subscriptions to international journals, nor had for 
the previous 5 years (Aronson, 2004). 
This problem was already acknowledged and understood, 
of course. The World Conference on Science, held in 1999 
under the auspices of UNESCO and the ICSU, declared, 
“Equal access to science is not only a social and ethical 
requirement for human development, but also essential for 
realizing the full potential of scientific communities worldwide 
and for orienting scientific progress towards meeting the 
needs of humankind”54.  
Nearly a decade later in 2008, when improvement was 
still sought, the UK National Commission for UNESCO 
52 e.g. The University of Salford’s new repository containing some 1500 full-
text research papers, experiences 25,000 downloads of these each month; 
the School of Electronics & Computer Science, University of Southampton, 
UK, which sees 30,000 downloads a months of the circa 6,000 full-text 
items in its repository; and the University of Liege in Belgium, with 35,000 
downloads per month of the 30,000 articles it holds.
53 In the US: http://chronicle.com/article/Libraries-Abandon-
Expensive/128220/ and in the UK: http://chronicle.com/blogs/
wiredcampus/british-research-libraries-say-no-to-big-deal-serials-
packages/32371 
54 UNESCO and the International Council of Scientific Unions (1999): 
World Conference on Science; Declaration on Science and the Use of 
Scientific Knowledge (July 1). http://www.unesco.org/science/wcs/eng/
declaration_e.htm.
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concluded, “Strengthening scientific capacity in developing 
countries has therefore been greatly hampered by their 
inability to afford essential scientific literature due to the 
combined forces of the high cost of journal subscriptions, 
declining institutional budgets and currency weaknesses”55. 
More recently, a study by the Southern African Regional 
Universities Association (SARUA) revealed a picture on 
access to and dissemination of research publications in 
that region56 that indicates that improvement is still far 
from being realised. 
Publisher-mediated initiatives such as the WHO’s HINARI57, 
OARE58 and AGORA59 provide free access to journals 
for some developing world users. They are not Open 
Access by definition, however, since access is available 
only to some users in some countries. The programmes 
differentiate between countries that have a per capita 
GNI above and below USD 1250, charging a USD 1000 
per institution subscription to those with a per capita 
GNI between USD 1250 and 3500. Countries whose per 
capita GNI is above USD 3500 pay the normal subscription 
rate, however relatively poor they are: Brazil and India, for 
example, do not qualify for these schemes, despite their 
developing country status. And if a country manages 
to raise its economic status a little it can find itself cut 
off from these programmes, as the recent experience of 
Bangladesh demonstrated60.
All of the above discussion relates to academic scientists 
and their institutions. There are other constituencies that 
can benefit from access to the scientific literature as well. 
These are what the BOAI terms ‘other curious minds’. They 
include the professional community (for example, family 
doctors, legal practices, accountancy firms, healthcare 
workers), the practitioner community (for example, civil 
engineering companies, horticulturalists, consultancies), 
the education community (middle and high school 
teachers) and independent scholars and consultants 
whose work is research-based. There is further discussion 
of this topic in section 4.3.2.
55 UNESCO (2008) Improving Access to Scientific Information for Developing 
Countries: UK Learned Societies and Journal Access Programmes. Report by 
Improving Access to Scientific Information Working Group (Natural Sciences 
Committee) 
http://www.unesco.org.uk/uploads/Improving%20Access%20to%20
Scientific%20Information%20-%20May%2008.pdf 
56 Abrahams, L, Burke, M, Gray, E & Rens, A (2008). Opening access to 
knowledge in Southern African universities. In SARUA 2008 Study Series, 
Southern African Regional Universities Association, Johannesburg, http://
www.sarua.org/?q=content/opening-access-knowledge-southern-african-
universities    
57 Health InterNetwork Access to Research Initiative http://www.who.int/
hinari/en/ 
58 Online Access to research in the Environment: http://www.oaresciences.
org/en// 
59 Access to Global Online Research in Agriculture:  
http://www.aginternetwork.org/en/ 
60 http://www.bmj.com/content/342/bmj.d196.full 
As well as the issue of access per se, the type of access is 
important. Being able to read a simple PDF representation 
of a journal article is helpful and may be all that is 
necessary for many researchers. The formal definition 
of Open Access, however, does require re-use rights to 
enable the article to be re-used in various ways (text-
mined, translated into other languages, used in part in 
other products, etc.), as discussed in section 1.3.2. This is 
what is known as ‘libre’ Open Access.  ‘Libre’ Open Access 
does not yet constitute the bulk of the Open Access 
literature. In institutional repositories the majority of 
articles are of the ‘gratis’ type, though a small proportion 
carry an appropriate (usually Creative Commons) licence 
and are ‘libre’. Where specific policies and processes are in 
place to ensure that the material collected is ‘libre’ then the 
level can be raised considerably. The best example of such 
an effort is UKPMC, which has systems in place to secure 
‘libre’ status wherever possible. The proportion of articles 
in that collection that are ‘libre’ has increased greatly over 
the last few years61 (Se Figure 3).
0 
20000 
40000 
60000 
80000 
100000 
120000 
140000 
1 2 3 4 5 6 7 8 9 
Non-OA articles (per year) OA articles (per year) 
Figure 3: Proportions of ‘gratis’ (orange) and ‘libre’ (blue) 
articles in UKPMC 2001-2009 
(courtesy of Robert Kiley, Wellcome Trust)
61 See Robert Kiley’s summary of this in early 2011: http://ukpmc.blogspot.
com/2011/04/increasing-amount-of-content-in-ukpmc.html 
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3.2 Levels of Open Access
The level of material that is openly accessible varies 
considerably from discipline to discipline and field to 
field. In some cases there is a long-established culture of 
sharing, such as in high-energy physics, astronomy and 
computer science. To others, the concept is newer and 
practice lags behind. 
Infrastructure plays a role here, as does community culture 
and norms, and the interplay between the two can help 
to strongly drive developments, particularly where there 
is funding and easily-identifiable scientific and societal 
benefits to be had from Open Access. Open Access is 
virtually ubiquitous in the fields of high-energy physics 
and astronomy because depositing findings in the arXiv 
repository (see section 1.2) has become a community 
norm. In the biomedical sciences, a field that has enjoyed 
rapid and extensive Open Access developments over 
recent years, there is a well-developed and sophisticated 
infrastructure in place to enable the sharing of journal 
articles through PubMed Central (and research datasets, 
see section 1.4). 
The current levels of Open Access material in repositories 
(the ‘green’ route) and in journals (the ‘gold’ route) have 
been measured in various ways. Figure 4 shows the levels 
in repositories (green bars) and journals (gold bars) for 
different disciplines.
Figure 5 shows the levels in repositories (the ‘green’ route). 
The bars show the % Open Access, in the year 2008, of 
the literature from the years 1998-2006. Figure 6 shows 
these percentages broken down by discipline. Note that 
these studies have been carried out by two research 
groups using different methodologies, which explains the 
variances in the results. Altogether, however, the current 
overall percentage of the literature that is openly available 
can be assumed to be currently around 30%.
0 10 20 30 40 
Medicine 
Biochemistry, genetics, 
molecular biology 
Other areas related to 
medicine 
Mathematics 
Earth sciences 
Social sciences 
Chemistry and Chemical 
engineering 
Engineering 
Physics and astronomy 
OA journals ('gold' OA) OA repositories ('green' OA) 
% articles that are Open Access 
	


13,9 
13,7 
10,6 
8,1 
7 
5,6 
5,5 
4,8 
3 
7,8 
6,2 
4,6 
17,5 
25,9 
17,9 
7,4 
13,6 
20,5 
Figure 4: Percentage of the total scholarly literature in 
the form of Open Access articles, by discipline and mode 
of dissemination in 200862
 
14% 
16% 
18% 
20% 20% 
22% 
23% 22% 
21% 
0% 
5% 
10% 
15% 
20% 
25% 
1998 1999 2000 2001 2002 2003 2004 2005 2006 
(N = 210,212 articles) 
Publication year 
Figure 5: Percentage of the total scholarly literature available 
in Open Access repositories in 201063
62 Data from Björk et al, 2010 (see bibliography for full reference). This research 
group estimates that in 2008, 20.4% of the literature was available in some 
form of Open Access. The same group measured Open Access in 2006 and 
estimated that the level of Open Access material was 19.4% of the total 
literature (Björk et al, 2009: see bibliography for full reference). The difference is 
within confidence limits.
63 Data from Gargouri et al, 2011 (unpublished; personal communication from 
Yassine Gargouri, Université du Québec à Montréal)
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0 
5 
10 
15 
20 
25 
30 
35 
40 
45 
1998 1999 2000 2001 2002 2003 2004 2005 2006 
Health 
Social sciences 
Earth sciences 
Physics 
Psychology 
Biomedicine 
All fields  
Biology 
Chemistry 
Engineering 
Mathematics 
Clinical medicine 
Figure 6: Percentage of the total scholarly literature available 
in Open Access repositories in 2010, by year of publication, 
broken down by discipline64
Levels of Open Access are also likely to vary by country or 
region, though little data have been published on this yet.
3.3 Open Access in the wider ‘open’ 
agenda
Open Access to research outputs is not an isolated 
concept. It sits within a broad ecosystem of ‘open’ issues 
that are taking root in the scientific research sphere 
and, indeed, in the wider society with its open agenda 
focused on open public domain information. Alongside 
Open Access in the scientific domain are such things as 
Open Data, Open Notebooks (or Open Science)65, Open 
Educational Resources (OER; teaching and learning 
materials)66, Open Innovation and Open Source Software. 
Importantly, there is interdependency between these 
things. Opening up teaching and learning materials can 
be only partly achieved if research information cannot be 
64 Data from Gargouri et al, 2011 (op cit)
65 Where experimental scientists publish their laboratory notebooks 
containing methodologies and results openly on the Web. For example, see 
the UsefulChem site: http://usefulchem.wikispaces.com/All+Reactions  and 
Cameron’s LaBLog: http://biolab.isis.rl.ac.uk/camerons_labblog 
66 For example, the OER Commons: http://www.oercommons.org/ 
included because it is still locked behind proprietary toll 
barriers: research results are teaching materials in many 
cases. Open laboratory notebooks only go some of the 
way towards making experimental results available to all: 
the context and synthesis of findings in that domain are 
found in research articles that should be Open Access 
alongside the notebooks’ content. So Open Access is 
an important early step in a move towards creating a 
knowledge commons and building true knowledge 
societies.
Open Knowledge is perhaps the best term of all to use 
to indicate the scope of what is trying to be achieved. 
Open Knowledge is any kind of information – sonnets to 
statistics, genes to geodata – that can be freely used, reused, 
and redistributed67. It is the sum of intellectual endeavour 
– research, teaching, creating, innovating – made open. 
Open Access is a crucial piece of this jigsaw.
Summary points on the importance of Open Access
 ▶ There is a problem of accessibility to scientific information 
everywhere
 ▶ Levels of Open Access vary by discipline
 ▶ Access problems are accentuated in developing, emerging and 
transition countries
 ▶ There are some schemes to alleviate access problems in the 
poorest countries but although these provide access, they do not 
provide Open Access: they are not permanent, they provide access 
only to a proportion of the literature, and they do not make the 
literature open to all but only to specific institutions
 ▶ Open Access is now joined by other concepts in a broader ‘open’ 
agenda that encompasses issues such as Open Educational 
Resources, Open Science, Open Innovation and Open Data
 ▶ Some initiatives aimed at improving access are not Open Access 
and should be clearly differentiated as something different
67 Definition from the Open Knowledge Foundation: http://okfn.org/ 
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SECTION 4. The Benefits of 
Open Access 
A n open approach to scientific communication brings a number of benefits for research itself and for 
scientists, their institutions and research 
funders.
4.1 Enhancing the research process
An open research literature enhances the research process 
in a number of ways.
First, open literature means that research can move faster 
and more efficiently. Scientists do not have to spend time 
seeking out articles that they cannot access through their 
own library. In a subscription-based world, this entails 
asking colleagues in other institutions, writing to the author 
or using inter-library loan systems to obtain an article. In an 
Open Access world the article is available with a few clicks 
of the mouse. This speeds up not only the research process 
itself, but peer review, when reviewers look up supporting 
articles cited in the paper, and other research-related 
activities such as reviewing the literature for a new project. 
Authors cite a number of problems that Open Access 
overcomes68, enhancing the efficacy of the research process 
and ‘returning their faith in the integrity of their own work’.
Second, interdisciplinary research is generally considered 
to be growing in importance as scientific problems 
increasingly require the input and technologies from 
various disciplines to resolve. Open Access enhances 
interdisciplinary research because it makes it easy for 
scientists in one discipline to locate and use the literature 
of another (their institution may not cater for this need 
if there is no strong research programme in the other 
discipline). Also, in business terms, it is easier to launch 
successful interdisciplinary journals using an Open Access 
68 These include: avoiding duplication, going up blind alleys and redundancy 
in their work; avoiding disruptions to their work due to the need to search 
for an article, losing their thread and having to revisit issues; avoiding 
delays in the submission of papers to journal and funding bids; avoiding 
hindrances to peer review; avoiding resource bias (see full reference to RIN 
(2009) in bibliography)
model because, with little strong community identity 
and therefore demand, it has always been difficult to sell 
subscription-based titles that cover a broad scientific base 
because libraries find it difficult to assess demand within 
their institution. 
Third, the new computational technologies can only work 
on an open literature, such things as text-mining and data-
mining technologies. These computational tools extract 
information from articles – often across disparate fields of 
research – and create new knowledge. They are, of course, 
capable of processing and bringing together information 
at speeds and in ways that the human brain cannot. These 
computational applications are already used extensively 
in pharmaceutical research and some areas of chemistry, 
and will form the basis of a new approach to research 
for the future.  Their promise, however, is hampered by 
the fact that they cannot ‘see’ most of the literature at the 
moment. Access to abstracts and bibliographic details is 
not enough: these tools need to be able to ‘read’ the full 
text of a research article, including any data within it and 
supporting it.
4.2 Visibility and usage of research
Open Access maximises visibility of research outputs and 
through this increases their chances of usage. Articles that 
are in repositories or Open Access journals are easily and 
immediately discoverable through a Web search using 
appropriate keywords and are retrievable, in their entirety, with 
one click. 
Data on repository usage demonstrates the levels of interest in 
research and at the same time is an indicator of the severity of 
the access. Would-be users with library access to subscription 
journals or books have no need to visit repositories. Some 
examples of repository usage were given in section 3.1. These 
were from repositories in the developed world, but the same 
phenomenon can be seen for developing world science: 
for example, the repository at the Universidad de Los Andes 
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in Venezuela enjoyed over 4 million article downloads in 
201069. Importantly, Open Access provides this much-needed 
visibility for developing world research, which has always been 
hampered by the lack of channels for reaching developed 
world scientists and the bias of the large abstracting and 
indexing services towards developed world outputs70. Open 
Access changes this and redresses the balance, making 
developing world research just as visible as that from wealthy, 
research-intensive regions. This will help to change roles and 
perceptions in the scientific community and in time deliver an 
economic benefit to developing countries as they attempt to 
build their own knowledge societies71.  
4.3 Impact of research
4.3.1 Academic impact
From visibility derives usage, and from usage derives impact.  
A considerable body of evidence is accumulating that 
indicates that Open Access can increase impact in the form 
of citations as well as the usage impact discussed above. 
There have been around 35 studies conducted on this topic, 
a few of which do not show any increase in citations from 
open Access. The rest, however – about 30 studies – do 
demonstrate that Open Access increases citations impact 
with an increase of up to 600% found in some cases, though 
most showed an increase of up to 200%72. 
Two things are of great importance here. First, not every 
article that is Open Access will gain additional citations. 
This is intuitive, since not every article is worthy of citations 
in the first place, however many people read it. What Open 
Access does is to maximise audience size so that articles 
that are worthy of citing stand the maximum chance of 
being seen by anyone who might have reason to cite 
them.  
69 This repository publishes its usage statistics: http://www.saber.ula.ve/
stats?level=general&type=access&page=down-series&start=01-08-
2011&end=02-08-2011&pyear=2011&pmonth=08&anoinicio=2011&anofi
m=2011&mesinicio=01&mesfim=08 
70 And Open Access is expected to overcome the general divide between 
mainstream and peripheral in science, including the divide between the 
developed and developing world. For full reference see Guedon (2008) in 
the reference list
71 As recognised by Dr Blade Nzimande, South Africa’s Minister for Higher 
Education, in a speech to the 2009 World Conference on Higher Education, in 
which he drew a distinction between the knowledge societies of the developed 
world and those of the African continent.  Specifically, he said that the former are 
producers of knowledge and the latter are consumers. Open Access will change 
this, enabling the developed world to discover and consume easily – for the first 
time – the scientific knowledge created by the developing world. http://www.
education.gov.za/dynamic/dynamic.aspx?pageid=306&id=8720 
72 A summary of studies carried out up to the beginning of 2010 showed that 
27 studies demonstrated a citation advantage from Open Access and 4 did 
not. See Swan (2010) in the Bibliography.
4.3.2 Impact outside academia
As well as citation impact, Open Access can have 
beneficial impact on other constituencies. The most-
often used example of this kind of impact is the benefit 
to patients from access to health research information, 
but the education, professional, practitioner and business 
sectors are potential users and beneficiaries of scientific 
research. It is early in our understanding of their needs and 
the benefits that can accrue to these constituencies, but 
there are pointers. 
First, it is known that these people use the literature where 
it is openly available to them. For example, the usage 
data for PubMed Central (the NIH’s large collection of 
biomedical literature) show that of the 420,000 unique 
users per day of the 2 million items in that database, 25% 
are from universities, 17% from companies, 40% from 
‘citizens’ and the rest from ‘Government and others’. 
Second, the European Union’s Community Innovation 
Surveys examine innovative businesses at regular intervals: 
a recent survey showed that ‘innovative enterprises find 
the information they need more easily from suppliers 
or customers than from universities or public research 
institutes’73. 
Third, some recent work studying the access needs and 
problems of R&D-based SMEs in Denmark provides some 
data on how important it is for these companies, and 
the Danish economy, to have quick, easy and free access 
to the scientific literature74. There is no reason to believe 
that the Danish situation is so vastly different from any 
other developed, knowledge-based economy, so the 
global effect of lack of access to scientific information on 
innovative businesses can be expected to be huge. 
Summary points on the benefits of Open Access
 ▶ Open Access improves the speed, efficiency and efficacy of 
research
 ▶ Open Access is an enabling factor in interdisciplinary research
 ▶ Open Access enables computation upon the research literature
 ▶ Open Access increases the visibility, usage and impact of research
 ▶ Open Access allows the professional, practitioner and business 
communities, and the interested public, to benefit from research 
73 Parvan, S-V (2007) Statistics in Focus: Science and technology, 81/2007. 
http://epp.eurostat.ec.europa.eu/cache/ITY_OFFPUB/KS-SF-07-081/EN/KS-
SF-07-081-EN.PDF
74 See more details in Houghton et al (2011) in the bibliography
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SECTION 5. Business Models
5.1 The context: traditional 
business models in scientific 
communication
Traditionally, and because scientific communication 
was carried out through print-on-paper methods which 
carried a cost for every copy produced, access to scientific 
information was achieved through subscriptions for 
journals (whereby libraries and other subscribers paid a fee 
– usually on an annual basis – to receive the journal issues 
throughout the year as they were published, and through 
a one-off cash transaction for books. 
Inherent in that system was the problem that access 
was only for those who could afford it, but, until the 
second half of the twentieth century, at least prices were 
not considered to be excessive. In the last few decades, 
however, journal prices have spiralled, increasing by many 
times the rate of inflation and other price indices. The 
upshot initially was that libraries struggled to maintain 
journal subscriptions, generally by plundering the budget 
for buying books. Book sales suffered as a result75. The 
humanities have paid the price for the rocketing prices of 
journals in the sciences. But the book budget could not 
forever be plundered and journal subscriptions eventually 
began to fall when libraries could no longer keep up with 
the annual price rises76. 
Towards the end of the 20th century, a new model was 
offered by larger publishers with sizeable journal lists, the 
so-called Big Deal. Under this model, libraries purchased 
access to all the journals in a publisher’s list – a bundled 
deal – for 2-, 3- or 5-year periods. Libraries were thus able 
to offer their patrons access to far more material from a 
single publisher than hitherto, but the cost was also much 
greater than buying individual subscriptions to selected 
journals. The Big Deal has persisted successfully for more 
75  In the 1970s a typical academic book would expect sales of around 1500 
copies; now typical print runs are between 200 and 500 copies.
76 This has been dubbed the ‘serials crisis’. See a full account in Young (2009), 
listed in the bibliography.
than a decade but is now starting to suffer as library 
budgets are once again under severe pressure.  
Against this background, in the interests of science and 
scientists, began the move to open up the scientific 
literature.
5.2 New business models in 
scientific communication
Having largely relinquished academic publishing activities 
to large commercial publishers (this category includes 
some learned society publishers) over the past 50 years, 
the research community is taking the activity back under 
its control in some areas. Three types of institutional player 
are engaged in this effort – the library, the university 
press (if there is one), and individual scientists or groups 
of scientists. In addition to this institution-level approach, 
new players are entering the commercial publishing scene 
with new business models aimed at offering Open Access 
to their products. 
Where operations are not cash-centred, such as in the 
case of repositories and some Open Access journals, a 
range of new business models has developed, some of 
them commonly used by Web-based businesses in other 
sectors77. In brief, these are:
 ◾ Institutional model: the operation is supported by the 
institution
 ◾ Community model: the operation is supported by the 
community by cash donations or in-kind support
 ◾ Public sponsors model:  the operation is supported 
by ongoing sponsorship from a public body such as a 
national ICT organisation
77 Described in more detail in A DRIVER’s Guide to Institutional Repositories 
(2007). See full reference under Swan (2007) in the bibliography.  
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 ◾ Subscription model: the operation trades, and is 
supported through subscription payments from its 
users 
 ◾ Commercial model: the organisation trades, and is 
supported through cash payments from users and/or 
advertising 
5.2.1 Repositories
Repositories sell nothing, at least for cash, but they return 
value in other ways to the institution or community 
that supports them. The business case for repositories is 
usually made around maximising visibility and impact and 
optimising research monitoring and management. Where 
an institutional repository is concerned, the business 
case may also be anchored in the imperative to properly 
preserve information and to improve teaching. And where 
a repository also covers educational materials, there is the 
additional agenda of supporting learning. The overall case 
can be summarised as a set of purposes:
 ◾ To open up and offer the outputs of the institution or 
community to the world 
 ◾ To impact on and influence developments by 
maximising the visibility of outputs and providing the 
greatest possible chance of enhanced impact as a 
result
 ◾ To showcase and sell the institution to interested 
constituencies – prospective staff, prospective 
students and other stakeholders
 ◾ To collect and curate digital outputs (or inputs, in the 
case of special collections)
 ◾ To manage and measure research and teaching 
activities
 ◾ To provide and promote a workspace for work-in-
progress, and for collaborative or large-scale projects
 ◾ To facilitate and further the development and 
sharing of digital teaching materials and aids
 ◾ To support and sustain student endeavours, 
including providing access to theses and dissertations 
and providing a location for the development of 
e-portfolios
The value proposition, which is that each repository will 
make available free of charge to all the results of the 
research effort of the community it represents, is made 
by repositories to the wider research community from a 
position of commitment to the knowledge commons and 
to sharing the outcomes of publicly-funded work.  
Business models for repositories are either institutional 
– that is, the individual institution finances and supports 
the repository because the repository returns value to the 
institution in terms of impact and reputation – or they are 
public sponsorship or community models.
An example of public sponsorship is the CLACSO (Latin 
America Social Science Council) regional repository for 
social science research in Latin America78, which has been 
supported over a decade by development funds from 
Sweden (SIDA79), Norway (NORAD80), Canada (IDRC81) and 
the UK (INASP82). 
5.2.2 Repository services 
Repository services are one of the main keys to success 
for repositories. Useful, popular services can really boost 
the use of repositories, both by information creators and 
information seekers. 
Examples of services that can be provided are usage 
statistics, impact (citation) statistics, policy advice, CV 
generation, search-and-retrieve, rankings, and journal/
book publishing (from the repository). 
Business models vary, though most are based on a free-
to-use sponsored83 or community-developed84 model. 
There is concern that some or most of these may not be 
sustainable in the long term, and considerable thought is 
now going into how to secure that sustainability for the 
most-used services. Community financial support has 
been shown to be forthcoming for some Open Access 
services85 and this may be one way forward.
78 http://www.clacso.edu.ar 
79 Swedish International Development Cooperation Agency: http://www.sida.
se/English/ 
80 Norwegian Agency for Development Cooperation: http://www.norad.no/
en/ 
81 International Development Research Center: http://www.idrc.ca/EN/Pages/
default.aspx 
82 International Network for the Availability of Scientific Publications: http://
www.inasp.info/ 
83 For example, the SHERPA RoMEO service that provides information on 
publisher policies with respect to self-archiving in repositories, funded 
over a long period by the UK’s Joint Information Systems Committee (JISC): 
http://www.sherpa.ac.uk/romeo/ 
84 For example, the community-created Open Access Repositories news list: 
http://www.connotea.org/tag/oa.repositories?start=10 
85 For example, the arXiv, supported by donations from research institutions 
http://arxiv.org/help/support/arxiv_busplan_Apr2011 and the Stanford 
Encyclopaedia of Philosophy, an Open Access resource compiled and kept 
up to date by experts in the community and sustained by donations from 
foundations and research institutions: http://plato.stanford.edu/
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5.2.3 Open Access journals
Open Access journals use a variety of business models. 
The lower the cost base, the easier it is to develop a way 
of doing business that is sustainable, so smaller publishers 
and society publishers that do not have a strong 
imperative to maximise shareholder value find it is easier 
to switch to an Open Access model than large commercial 
publishers. The main types of business model for Open 
Access journals are as follows.
5.2.3.1 Article-processing charges
Many Open Access journals levy a charge at the ‘front end’ 
of the publishing process. This article-processing charge 
(APC) is paid by authors, their institutions or their research 
funders (though most bona fide Open Access journals 
will waive this in case of genuine hardship and some do 
so as a matter of routine for authors from developing 
countries). Journals that levy an APC, though, remain in 
the minority86. 
Where a charge is levied, it is paid usually from the author’s 
research grant or from an institutional fund specifically 
established for this purpose. Some research funders have 
explicitly committed to providing funds specifically for the 
payment of APCs. In other cases, funders have said that 
research grants money may be allocated to publishing 
costs at the grant-holder’s discretion87. A number of 
institutions have also established a fund to pay APCs88. 
Each institution has its own policy on how authors may 
access this fund. The long-term outcomes – that is, the 
long-term sustainability – of such initiatives are as yet 
unclear.
5.2.3.2 Institutional membership 
schemes
Some Open Access publishers have also introduced 
an institutional membership scheme. Details vary from 
publisher to publisher and though not suitable for very 
small publishers, larger ones have found some purchase 
in this approach.  A number of variants have been 
introduced so far, including: schemes where institutions 
86 Various studies have shown that 53% (http://www.alpsp.org/ngen_public/
article.asp?id=200&did=47&aid=270&st=&oaid=-1) and 67% (http://www.
sennoma.net/main/archives/2007/12/if_it_wont_sink_in_maybe_we_
ca.php) of Open Access journals charge no fees, and that 83% of Open 
Access journals published by learned society publishers make no APC fee 
http://www.earlham.edu/~peters/fos/newsletter/11-02-07.htm#list.  
87 BioMed Central, a large Open Access publisher, maintains a list of 
foundations that support Open Access publishing by having some 
mechanism for allowing payment of APCs from funder grants: http://www.
biomedcentral.com/info/about/apcfaq#grants 
88 For example, the University of Nottingham, UK: http://eprints.nottingham.
ac.uk/UniversityOpenAccessPublicationFund.pdf 
pay a lump sum in advance to cover the cost of articles 
that their authors will publish in the forthcoming year; 
schemes where institutions are invoiced at regular 
intervals in arrears for articles published in the preceding 
period; flat rate annual payments based on researcher (or 
student) numbers at the institution89. 
5.2.3.3 Community publishing
Relatively common for journals in the humanities, this is a 
model under which journals are produced entirely within 
the academy as a result of voluntary efforts by researchers 
who provide editing, peer review and production services. 
They are published online for free (Open Access) and 
in addition they are sometimes sold on subscription 
in print. There is a huge number of new Open Access 
publishing ventures of this type, many of them spurred 
by community electronic publishing platforms90 or open 
source, easy-to-use technology for publishing Open 
Access journals, conference proceedings and books91.  
5.2.3.4 Journals supported by 
advertising or sponsorship 
Public sponsorship is seen in Latin America, where 
regional and national research journals are largely 
subsidised by state funds that cover research92. 
If the basic business model is a community one (section 
5.2.3.3), advertising can help to defray any unavoidable 
overheads expenses (such as communications costs). 
Advertising sales can help to support Open Access, and 
although the great majority of journals cannot hope 
to attract sufficient advertising revenue to support an 
operation with substantial overhead costs, advertising can 
be a partial solution. An example of a prestigious journal 
that makes its research content Open Access online 
helped by an advertising revenue stream is the British 
Medical Journal93.
89 See, for example, the schemes offered by BioMed Central http://www.
biomedcentral.com/info/about/membership and Hindawi Publishing 
Corporation http://www.hindawi.com/memberships/ 
90 For example, SciELO: www.scielo.br and Bioline International: http://www.
bioline.org.br/ 
91 For example, the Public Knowledge Project’s open source software suite: 
Open Journal Systems http://pkp.sfu.ca/?q=ojs, Open Conference Systems 
http://pkp.sfu.ca/?q=ocs and, in development, Open Monograph Press 
(expected launch date September 2011) http://pkp.sfu.ca/omp 
92 For example, the SciELO Open Access journal collection (Scientific 
Electronic Library Online www.scielo.br) is supported by the Foundation 
for Research Support of the State of Sao Paolo (FAPESP), the National 
Council of Scientific and Technological Development (CNPq) and the Latin 
American and Caribbean Center on Health Sciences Information.
93 This title earns income from selling advertising (it is a prime vehicle for 
job advertisements in the UK medical arena) and subscriptions to libraries 
and the revenue enables it to offer its research content free online without 
any author or reader charges: https://mx2.arl.org/Lists/SPARC-OAForum/
Message/4634.html 
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5.2.3.5 Institutional subsidy
Institutions formally subsidise journal publishing wherever 
they are supporting, even if it is by subventing overhead 
costs, Open Access journal publishing operations by 
a university press or by the library. As well as these, 
universities often informally support community 
publishing ventures (section 5.2.3.3) by providing space, 
heat, light and telecoms services. 
Although the sustainability of this model may 
seem unclear at this stage, the model is likely to 
grow in importance as shifts occur in scholarly 
communication and researchers take a greater control 
over the communication process. There is increasing 
acknowledgment by research institutions and funders 
that the communication of research should be considered 
part of the research process, with the concomitant tacit 
(and occasionally explicit94) acknowledgment that the 
costs will need to be directly borne by the producers of 
research rather than the consumers. Of course, in some 
cases these two entities are the same, though in general 
there is not a direct relationship between research 
intensiveness (of institutions or nations) and expenditure 
on communication: research institutions in less research-
intensive countries, for example, still need to buy access 
to research information and the cost is disproportionate in 
relation to their research programmes.
5.2.3.6 Hard copy sales
Some journals support their Open Access publishing 
model wholly or partly by sales of the print version. Where 
this subscription income covers costs, journals have no 
need to levy an article-processing charge (APC) at the 
front end of the publishing process. 
MedKnow, a Mumbai-based medical publisher, has 
adopted this model very successfully. All the contents 
are freely accessible online and subscriptions are sold to 
libraries around the world for the hard copy version. Since 
adopting this Open Access model, Medknow has seen 
sales, submissions and impact all rise95. 
5.2.3.7 Collaborative purchasing 
models
It is also possible for a specific community to act in a 
coordinated fashion to provide Open Access for that 
specific field. There is just one example of such a model 
94 The Wellcome Trust, for example, provides money to cover Open Access 
journal article-processing fees: http://www.wellcome.ac.uk/about-us/
policy/spotlight-issues/Open-access/Guides/wtx036803.htm 
95 See case study on Medknow: http://www.openoasis.org/index.
php?option=com_content&view=article&id=553&Itemid=378 
in the planning at the moment, the SCOAP3 (Sponsoring 
Consortium for Open Access Publishing in Particle 
Physics)96 initiative in high-energy physics. The SCOAP3 
initiative has brought together a collection of institutions, 
research laboratories and scholarly societies that, together 
with national research funders, will pay certain sums to 
the publishers of journals in high-energy physics in return 
for making the entire contents of those journals Open 
Access. The project is now preparing its tendering exercise. 
High-energy physics is a discrete field served by a very 
small number of journals and is mainly concentrated in a 
small number of large research centres, which makes this 
approach potentially viable. Its potential to scale to other 
fields and disciplines, however, would seem low. 
5.2.4  ‘Hybrid’ Open Access
‘Hybrid’ Open Access is the situation where article-
processing charges are paid to make individual articles 
Open Access within otherwise subscription-based 
journals. Publishers list this option in order to be able 
to say they offer authors a route to Open Access if they 
wish to take it up. In some cases, publishers reduce 
their subscription prices as revenue from the Open 
Access option rises but in most cases this does not 
happen and publishers benefit from the Open Access 
article-processing fee as extra income.  Funders97 and 
institutions98 can be loathe to pay APCs to publishers who 
engage in this practice, commonly referred to as ‘double 
dipping’. 
5.2.5 Open Access books
Increasingly, experiments are being carried out to 
find viable and sustainable models for Open Access 
book publishing. Initiatives have come from university 
presses, libraries99 and even commercial publishers. The 
development of new technologies and platforms for 
book production in an Open Access environment has 
progressed over recent years. To cite just two examples, 
there is open source software now available specifically for 
Open Access book production100; and a new cooperative 
publishing platform for university presses and other 
small publishers enables them to take advantage of a 
96 http://scoap3.org/ 
97 Wellcome Trust calls for greater transparency on journal Open Access 
publishing costs: http://www.wellcome.ac.uk/News/Media-office/Press-
releases/2009/WTX057058.htm 
98 http://tillje.wordpress.com/2009/12/14/policies-of-oa-journal-funds-about-
hybrid-oa/ 
99 Sometimes referred to as ‘librishers’, having taken on a publishing role. see 
Adema and Schmidt 2010) in the bibliography.
100 For example, Open Monograph Press: http://pkp.sfu.ca/omp 
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full set of publishing services in return for a fee, leaving 
them to concentrate on commissioning and editorial 
work101 as their core activities. In all, there is a great deal of 
development and activity in this area102.
The main business models are listed below. 
5.2.5.1 Subsidy
This is a model used by some university presses whose 
parent institution recognises the value of dissemination 
of research outputs (books) even though there is a cost 
to the institution in doing this. The trend now is for 
universities to acknowledge that the role of the press is 
to support the overall mission of the parent institution 
by returning value in terms of impact and prestige rather 
than by striving for profit per se. Reputational capital is 
as valuable to a university as cash and a press can play a 
major role in maximising that. In many cases there may 
not be a cash return to the university at any meaningful 
level, but subvention has traditionally played a part in 
academic publishing and can now be viewed with even 
greater confidence as investment in the reputation and 
brand of the institution. 
Some scholarly societies may also work in this way if the 
society is large enough to be able to support some of the 
costs of dissemination.
5.2.5.2 Sponsorship
Though rare, it may sometimes be possible to find 
sponsorship for the occasional volume where a sponsor 
wishes to support the publication for philanthropic 
reasons or to increase the reach of a particular message.
5.2.5.3 Hard copy sales
This is the model most commonly in use at the moment. 
University presses tend to use this model and there is at 
least one example of a commercial publisher that has 
employed it, too. Publishers make the digital version of 
their books Open Access online and earn revenue from 
print sales. Modern print-on-demand (POD) technology 
means that fixed-length print runs are no longer 
necessary and there are no inventory (warehousing) and 
remaindering costs. Sales of the hard copy support the 
cost of a book’s production and editing. In at least one 
case a collaborative publishing platform and digital library 
(i.e. the delivery and marketing tool) has been developed 
for use by multiple publishers, so that these costs can 
101 Developed and offered by OAPEN: http://project.oapen.org/ 
102 .See Adema and Schmidt 2010): reference listed in full in the bibliography.
be shared, cutting overheads for each participating 
publisher103.
5.2.5.4 Other possible models
Books offer scope for other innovative pricing and 
business models. For example, the notion of a book can 
be deconstructed so that there is a basic product – the 
text – plus various levels of added value. Examples could 
be extensive hyper-linking, additional graphics, linked 
datasets, teaching aids, translations and so forth, with 
buyers opting to pay extra for whichever extras they want. 
This model will be used by the World Bank as it moves 
from a sales-based book publisher to an Open Access 
book publisher over the next twelve months.   
5.3 Open data
Where there is organised infrastructure to support Open 
Data the business model is one based on sponsorship by 
public bodies (such as the data services operated by the 
National Centre for Biotechnology Information and the 
UK Research Councils’ data centres) or are community-
supported (such as the data services run by the European 
Bioinformatics Institute).
Institutions may establish dedicated data repositories, 
though this is a relatively new development and only a 
few institutions have moved in this direction so far. More 
commonly, data are deposited and stored in the general 
institutional repository, so their curation and preservation 
are supported by the institution.
Research groups may post datasets on their research 
websites: in these cases the model is still institutional.
5.4 System costs
A number of studies have been carried out over the past 
5 years that have examined the costs and benefits of 
traditional and new forms of scholarly communication. 
These economic studies have all indicated that moving to 
an Open Access literature, whatever the business model, 
would be cheaper overall due to efficiency gains and 
lower operational costs in research institutions, and would 
have a societal benefit.
103 http://www.oapen.org/home 
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The studies were done for Australia, the UK, Denmark, 
The Netherlands, and the US104. In all cases, substantial 
economic savings were shown to be achievable, whether 
through Open Access journal publishing or through using 
the network of institutional repositories to disseminate 
knowledge105. The move to Open Access will therefore 
not only be more effective for communicating scientific 
knowledge, but will not require more money to be 
pumped into the dissemination system: indeed, there will 
be savings to be made. 
Summary points on business models for Open 
Access
 ▶ New business models are being developed to service the ‘open’ 
agenda
 ▶ New business models are being developed and tried for Open 
Access journals, books, repositories, repository services and data
 ▶ These new business models will not require more money to be 
found for scientific communication
104 See Houghton et al (2006a), (2006b), (2009a), (2009b), Knowledge Exchange 
(2009) and CEPA (2011). Full references in the bibliography.
105 For example, the UK study demonstrated a forty-fold benefit/cost ratio from 
‘green’ Open Access and for the US the benefit  from Open Access to all 
research published by the main Federal agencies would be between 4 and 
25 times the cost.
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SECTION 6. Copyright and Licensing
A lthough copyright law varies by jurisdiction there is generally a clause that makes special permission for ‘fair use’ or 
‘fair dealing’ of a work, to take account of the 
special needs of the scholarly community. This 
allows a written work, for example, to be copied 
for the purpose of private study, and for parts 
of the work to be reproduced in other works of 
a scholarly nature. Details are particular to each 
jurisdiction.
Copyright is at the heart of Open Access 
because accessibility depends entirely upon 
the copyright owner. If the copyright owner 
consents, then Open Access can happen: if the 
copyright owner does not consent, Open Access 
is not possible for that work. Provision of Open 
Access cannot be made under any ‘fair use’ or 
’fair dealing’ exceptions to copyright law, so if 
Open Access is the aim, the right steps must be 
taken to ensure that copyright will not impede 
it. 
6.1 Copyright and Open Access
6.1.1 Ownership of works of 
scholarship
The ownership of the intellectual property in a journal 
article or book resides normally with the author except for 
those circumstances where the author’s employer claims 
ownership under conditions of employment. This may be 
the case where researchers are employed by Government 
research establishments, for example. 
Traditionally, however, scientists submitting an article to 
a journal have transferred copyright (which is actually a 
bundle of rights) to the publisher by signing the publisher’s 
copyright transfer agreement (CTA). Included in this 
bundle of rights is the right to publish the work, and 
publication is precisely what the author seeks to achieve. 
Many publishing agreements, however, impose severe 
restrictions on the use of the work. In some cases these 
can even affect the author’s own use of his/her work in 
teaching and research. 
It is perfectly possible for scientists to have their work 
published without signing over all rights. Some rights 
can be retained by scientists, allowing them to do what 
they want in terms of dissemination through alternative 
channels as well as through the journal in which they have 
chosen to publish. The most common way of achieving 
this is for the publisher to have a Licence To Publish (LTP) 
and for the author to retain the rest of the bundle of rights. 
Publishers can use such devices to acquire the rights they 
need to publish the work without acquiring the rest of the 
rights in the work. There seems to be a general trend in 
this direction. A 2008 survey indicated that there had been 
a drop in the number of publishers requiring copyright 
transfer from the author from 83% in 2003, to 61% in 2005 
and to 53% in 2008. In 2005, 3% of publishers were found 
not to require any form of written agreement with the 
author and this had increased to almost 7% by 2008106.
6.1.2 Making work Open Access
The perceptions of scientists in respect of what they are 
allowed to do to disseminate their article, even having 
signed a publisher CTA, are frequently wrong, and the 
agreement is often much more liberal than they believe107. 
Almost 60% of journals allow self-archiving of postprints, 
albeit usually with an embargo period and a further third 
allow self-archiving of preprints108. So the commonly-held 
belief that publishers systematically thwart Open Access is 
largely erroneous.
Nonetheless, some publishers do not allow authors to 
provide any access themselves to their own work and 
many allow self-archiving only after an embargo period, 
put in place to protect their sales revenue. In addition, 
106 Cox, J and Cox, L (2008) Scholarly Publishing Practice; Third survey 2008: 
Academic journal publishers’ policies and practices in online publishing. 
Shoreham-by-Sea, ALPSP. http://www.alpsp.org/ngen_public/article.
asp?aid=24781 
107 See Morris (2009) Journal authors’ rights: perception and reality http://
www.publishingresearch.net/documents/JournalAuthorsRights.pdf 
108 http://www.sherpa.ac.uk/romeo/statistics.php?la=en 
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their position may change. There have already been cases 
of publishers shifting their stance on self-archiving as 
levels of the practice begin to grow. 
The simplest approach to ensuring that work can be made 
Open Access without any problem is to retain the right 
to do so. The right can be retained either by the authors 
themselves or by an agent for the author with the author’s 
permission. These are two different situations and warrant 
brief description.
6.1.2.1 Rights retention by the author
As noted above, at the time a paper is accepted for 
publication authors are asked by the publisher to sign a 
CTA and the whole bundle of intellectual property rights 
usually moves into the publisher’s hands. Open Access 
from that point on is by grace of the publisher.  Authors 
can, however, retain the rights they need to make their 
work openly available by negotiating with the publisher at 
this point. 
The term ‘negotiation’ does not imply haggling: there 
are tools available to help the author amend the CTA so 
that the necessary rights are retained. These are ‘author 
addenda’, specific pieces of legal wording that authors 
can append to a publisher’s CTA and which state the 
rights that the author will retain after passing an article to 
a publisher for publication. Addenda vary considerably, 
so care must be taken to choose an addendum that suits 
the author (or institution) in each particular case. Many 
addenda restrict the author to use the work for non-
commercial purposes, for example, which may work well 
if the author is publishing a journal article, but may restrict 
the author too much if the output is another type of work. 
Two widely-used author addenda are those from SPARC/
Science Commons109 and from SURF/JISC110.
Individual universities, such as the University of California 
at Berkeley, are actively encouraging faculty to retain 
intellectual property rights altogether or to use only 
publishers that ‘maintain reasonable business practices’111. 
109 These two organisations have between them developed the Scholar’s 
Copyright Addendum Engine which includes a number of addenda, 
including SPARC’s own Author Addendum: http://sciencecommons.org/
projects/publishing/scae/ plus a brochure about rights http://www.arl.org/
sparc/author/index.shtml     
110 The SURF/JISC Copyright Toolbox, developed by the SURF Foundation in 
the Netherlands and the Joint Information Systems Committee (JISC) in the 
UK, incorporates a licence-to-publish that authors can assign to publishers. 
This enables them to retain a bundle of rights for themselves over the use 
of their own work. The Toolkit also provides sample wordings that can be 
used if an author or publisher wishes to amend the standard publishing 
agreement in the licence: http://copyrighttoolbox.surf.nl/copyrighttoolbox/
authors/ 
111 University of California Statement of Principles on Scholarly 
Publishing(2005): http://senate.britain.dnsalias.net/sites/default/files/
recommendations-reports/statement_of_principles_for_web.pdf 
Sometimes, institutions may develop their own 
agreements for authors to offer to publishers. In the case 
of institutionally-developed agreements, there is usually 
provision for the institution itself to hold some rights to 
use the work as well. MIT developed an author addendum 
for its researchers in 2006 and in 2007 a consortium of 
12 research universities produced an ‘addendum from 
the Committee for Institutional Cooperation’112 and 
the same year the University of California produced its 
own Amendment to Publication Agreement113. Other 
addenda or agreements have been drawn up by individual 
universities or research institutions114. Institutional policies 
on copyright are increasing as Open Access becomes 
mainstream and universities seek to protect future 
research outputs from falling under publisher ownership. 
The University of Texas, for example, declares in its 
copyright management guidelines that its researchers 
must manage copyright in their articles for the benefit of 
“the authors, the citizens of Texas, state government, the 
component institutions, and the U. T. System”. 
Publishers are not obliged to accept author addenda, 
though many do, including some of the largest publishers, 
though the author needs to specifically request this: it 
is not offered as an option upfront by the publisher. In 
the case of the NIH policy (the Wellcome Trust policy is 
similar), which stipulates that authors must retain the non-
exclusive right to make future articles Open Access, some 
publishers did indeed initially announce that they would 
not publish NIH-funded work under such conditions. The 
aftermath, however, is that these publishers have retracted 
this position and there are now no publishers that will not 
publish articles from NIH-funded research, even under the 
conditions imposed by the NIH115.
6.1.2.2 Rights retention by the 
employer
As stated above, in the case of Government research 
establishments, rights over results produced by employees 
are usually held by the employer. This agreement with the 
employee, as a condition of employment, predates any 
subsequent agreement with a publisher and renders it 
void. 
Universities, too, can use this formula, and some are doing 
so. Harvard University, the most prominent example, was 
112 http://www.lib.umn.edu/scholcom/CICAuthorsRights.pdf 
113 http://osc.universityofcalifornia.edu/manage/model-amendment.pdf 
114 The Open Access Directory maintains a list of addenda: http://oad.simmons.
edu/oadwiki/Author_addenda 
115 Of publishers surveyed: list maintained by the Open Access Directory: 
http://oad.simmons.edu/oadwiki/Publisher_policies_on_NIH-funded_
authors 
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given this right by unanimous votes at a series of meetings 
of faculties. Faculties voted to grant the university a 
nonexclusive, irrevocable right to distribute their scholarly 
articles for non-commercial purposes116.
Other universities have established such rights, too. 
For example, Queensland University of Technology in 
Brisbane, Australia, has wording in its Intellectual Property 
Policy117 as follows:
Under the terms of QUT Intellectual Property Policy, the 
University specifies that any assignment of copyright 
in scholarly works authored by staff is subject to the 
University retaining a perpetual, irrevocable, non-exclusive 
right to use that work for teaching, for research and 
to disseminate a version of the work online (for non-
commercial purposes) via QUT ePrints [the university 
repository] no later than 12 months after the publication 
date.
Such agreements with authors, made by the employer 
in advance of any later arrangement with publishers, 
ensures that the necessary rights management is in 
place to enable Open Access, whatever the publisher’s 
position. Of course, the publisher is perfectly at liberty to 
refuse to publish the work under such conditions: that is 
the balance that is striven for between author rights and 
publisher rights. Publishers may opt not to publish the 
work under these conditions: that is their choice. 
6.2 Licensing
6.2.1 Why licensing Open Access 
content is important
The most fundamental condition for Open Access is 
simply that the full text of a journal article or book section 
is available for anyone to read, free of charge. This alone, 
however, does not conform to the ‘BBB’ (Budapest, 
Bethesda, Berlin: see section 1.3) definitions of true Open 
Access and certainly does not permit the new uses that 
have so much promise. 
Moreover, if an article carries no licence information at all 
it is not clear to users what they might do with it: can they 
extract a graph or table and put it in another document? 
Can they take numerical data and add them to an existing, 
separate database? Can they use passages from the text to 
116 http://osc.hul.harvard.edu/policies 
117 QUT Intellectual Property Policy: http://www.mopp.qut.edu.au/D/D_03_01.
jsp#D_03_01.05.mdoc 
illustrate an argument in digital teaching materials placed 
on the Web?
Proper, appropriate licensing sets out the conditions for 
re-use and reassures would-be users that they can use the 
material in particular ways with impunity. This is important 
both for individuals seeking to understand how they can 
use the material and for text-mining and data-mining 
approaches to knowledge creation. This second matter 
will grow in importance as the use of these technologies 
become more widespread.  Legal changes will be needed 
in many jurisdictions to enable them. At the time of 
writing the UK Government has signalled its intent to 
make the technology exempt from UK copyright law118. As 
yet, only Japan makes this permissible.
6.2.2 Licensing principles
Formal licensing is not yet ubiquitous in Open Access 
practice, despite the advantages it brings. Licensing an 
article or book clarifies what users may do with it and, by 
instilling confidence in the user about how they might use 
the work, encourages use. 
The Budapest Open Access Initiative, Berlin Declaration 
and Bethesda Statement on Open Access Publishing 
laid out the conditions for Open Access (see Section 1.3). 
Broadly, these were:
 ◾ That the peer-reviewed literature is available without 
subscription or price barriers
 ◾ That the literature is available immediately 
 ◾ That the published material may be re-used in various 
ways without permission 
The Budapest Initiative states:
“The only constraint on reproduction and distribution, 
and the only role for copyright in this domain, should be 
to give authors control over the integrity of their work and 
the right to be properly acknowledged and cited.”
This means that Open Access articles and books, including 
data, graphics and supplements, may be linked to, crawled 
by search engines, excerpted and extracted, crawled by 
text mining technologies, clipped into other articles, blogs, 
and so forth completely free of charge. The only condition 
is proper accreditation of the source. The publisher may 
118 See the UK Government’s announcement of a plan of action http://www.
bis.gov.uk/news/topstories/2011/Aug/reforming-ip in response to a recent 
review of intellectual property carried out for the UK Government by 
Hargreaves (2011) (full reference in bibliography) and the Government’s 
response in full: http://www.bis.gov.uk/assets/biscore/innovation/docs/
g/11-1199-government-response-to-hargreaves-review  
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be part of that accreditation, though this is not always the 
case, particularly with journal articles. With Open Access 
book content, the publisher is almost always cited in the 
accreditation in alignment with the norms of scholarly 
practice.
6.2.3 Licensing practice
Authors and publishers who wish to enable true Open 
Access must therefore word their licences accordingly. 
This can be a challenging task for some publishers (or 
individual authors who may also wish to disseminate their 
own work with a clear set of permissions attached to it). 
6.2.3.1 Repositories
For repository content, there is a variable picture. 
Repository software usually makes provision for a 
depositor to select a particular licence to attach to 
each item deposited (including Creative Commons 
licences; see below). This is not obligatory, however, so 
many items carry no licence information at all. Others 
may have a standard copyright statement or one with 
some modification for specific use provision (e.g. non-
commercial use only), or a formal licence of some kind.
6.2.3.2  Open Access journals
Although libre Open Access is the ideal, even most Open 
Access journals do not offer this, instead publishing under 
traditional copyright conditions (all rights reserved) and 
allowing fair use/fair dealing only119. 
6.2.3.3 Creative Commons licensing
The Creative Commons organisation has developed a set 
of licences from which authors or publishers can choose. 
Some Open Access publishers use Creative Commons 
licences to ensure that the content of the articles 
published in their journals are reusable in the widest (libre 
Open Access) sense: that is, they can be reproduced, 
abstracted, ‘mashed up’ with other material to produce 
new information, crawled by text-mining and data-mining 
tools and so on.
Creative Commons has designed a collection of licences 
to ensure that there is a suitable licence for every purpose. 
The explanation of these licences and how they can be 
used to best effect is provided on the Creative Commons 
119 The Directory of Open Access Journals lists 1535 (22% of the total 
6873) using some kind of Creative Commons licence: http://www.doaj.
org/?func=licensedJournals. 763 journals (11% of the total) have the SPARC 
Europe Seal of Approval (which requires a CC-BY licence): http://www.doaj.
org/doaj?func=sealedJournals&uiLanguage=en 
website120. The site has a licence generator tool for 
publishers and creators to use. 
Where publishers and authors wish to make their work 
as freely reusable as possible, including by other parties 
who may develop new products to sell by reusing the 
material in some way, the most appropriate licence 
for the publisher to use in this instance is the Creative 
Commons ‘Attribution’ licence (commonly referred to as 
‘CC-BY’), a tool that requires the creator of the work to be 
acknowledged when the work is re-used but does not 
restrict the re-use in any way.  
Where publishers and authors may wish to restrict some 
forms of re-use, such as not permitting commercial 
derivatives to be made, there is a Creative Commons 
licence for these possibilities, too.  The key terms of CC 
licences are Attribution, No Commercial, No Derivatives 
and Share Alike.
The advantages of using a Creative Commons licence over 
a custom one are:
 ◾ There is almost certainly a ready-made licence that 
will suit the publisher’s requirements, saving time and 
effort in drawing up a custom licence
 ◾ Creative Commons licences are easily understood and 
commonly used, so that a potential reader or re-user of 
a work will immediately understand the conditions of 
the licence
 ◾ The licences have machine-readable metadata, 
simplifying processes where applications such as 
harvesters and text-mining tools carry out automated 
tasks: these tools can recognise, by the machine-
readable licence, which content they are permitted to 
gather and work upon
120 http://creativecommons.org/ 
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Summary points on copyright
 ▶ Open Access requires the copyright holder’s consent
 ▶ Copyright is a bundle of rights
 ▶ The norm is to sign the whole bundle of rights over to the journal publisher, though it is not necessary to do this in most cases: publishers can go 
about their work so long as the author signs over the them the right to publish the work
 ▶ Authors and other copyright holders (employers and funders) can retain the rights they need to make the work Open Access
 ▶ A premeditated retention of sufficient rights to enable Open Access is the preferable course of action rather than seeking permission post-
publication
 ▶ Licensing scientific works is good practice because it makes clear to the user what can be done with the work and by that can encourage use
 ▶ Only a minor part of the Open Access literature is formally licensed at present: this is the case even for Open Access journal content
 ▶ Creative Commons licensing is best practice because the system is well-understood, provides a suite of licences that cover all needs, and the licences 
are machine-readable
 ▶ Otherwise, legal amendments to copyright law will be necessary in most jurisdictions to enable text-mining and data-mining for material without 
an appropriate Creative Commons licence
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SECTION 7. Strategies to Promote 
Open Access 
S trategies to promote Open Access fall into three main categories – policy-oriented, advocacy-based and infrastructure 
development. All three types have been pursued 
at many levels and in some cases have involved 
aligning the arguments for Open Access with 
arguments for other elements of the ‘open’ 
agenda (such as open Educational Resources or 
Open Source Software).  While doing this can 
build a very strong case in some circumstances, 
it should be remembered that the case for Open 
Access to scientific information does work as an 
argument on its own and does not necessarily 
need to be allied to another cause to create an 
effective advocacy programme.
It is, however, becoming harder to separate the 
arguments for Open Access to the literature 
and Open Data, since the aims are so alike and 
the desired outcomes in terms of scientific 
progress practically indistinguishable. Policy 
development is proceeding along the same lines 
for both issues, advocacy activities are similarly 
broader now, and infrastructural development is 
around the needs to open up both the research 
literature and research data.  Because of this 
increasing alignment UNESCO will find that 
building strategies into the future to support 
Open Access will need to also embrace strategies 
for Open Data.   
Strategies are pursued at institutional, national 
and international levels.
7.1 Policy-focused strategies
There is no doubt that policy development by significant 
research funders, institutions and other organisations has 
increased awareness in Open Access and accelerated 
its development where the policies apply. By their 
very existence, policies serve to promote the aims and 
objectives of Open Access, to engender interest and 
action and to serve as examples for others. 
Many individuals, groups and organisations promoting 
Open Access have therefore focused their activities on 
persuading research institutions, research funders and 
other influential organisations of the need for a policy on 
Open Access. 
Governments and other public sector bodies are 
increasingly inviting and listening to the arguments for 
an open scientific literature (and data).  In some cases, 
changes in legislation have been involved. 
There is currently legislation being considered, either 
on the provision of Open Access itself or on changes to 
copyright law that would assist the move to openness, in 
Brazil, Argentina, Germany and Poland, for example. In the 
Ukraine, there is already a law121, passed in 2007 as part 
of the country’s information society developments, and 
the recent National Law of Science in Spain has a section 
specifically about Open Access (see section 8.1). 
Just a few examples of significant policy 
implementations122 that have hastened and promoted 
Open Access are:
Institutional-level mandatory policies
 ◾ The first institutionally-based policy at the School 
of Electronics & Computer Science, University of 
Southampton, UK, in 2002
 ◾ The first pan-institutional policy at Queensland 
University of Technology in 2004
 ◾ The first Indian institutional policy at the National 
Institute of Technology, Rourkela in 2006
121 http://www.eprints.org/openaccess/policysignup/fullinfo.
php?inst=The%20Parliament%20of%20Ukraine%20%28Verhovna%20
Rada%29 
122 A full list of existing mandatory policies on Open Access can be found at 
the Registry of Open Access Mandatory Archiving Policies (ROARMAP): 
http://roarmap.eprints.org/ 
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 ◾ The eight faculty-specific policies adopted at Harvard 
University between 2008 and 2011
National-level mandatory policies
 ◾ The Open Access policies adopted by the seven UK 
Research Councils between 2005 and 2011
 ◾ The Open Access policy adopted by the US’s National 
Institutes of Health (NIH) in 2007
International-level mandatory policies
 ◾ The Wellcome Trust policy, adopted in 2005
 ◾ The multi-institutional, international policy from 
ICRISAT (international Crops research Institute for the 
Semi-Arid tropics, headquartered in Hyderabad, India) 
in 2009
 ◾ The policy covering 20% of research carried out under 
the 7th Framework Programme of the European Union
The long-term success of Open Access policies will be 
assessed by the amount of Open Access content they 
engender and how well they align with the definitions of 
Open Access (see section 1.3). Monitoring of compliance 
with policy is undertaken by some policymaking bodies 
(but not all) and has resulted in strengthening of policy 
in at least one high-profile case (the NIH). We know that 
compliance levels vary considerably. The effectiveness of 
different policy types is discussed in section 8.
7.2 Advocacy-based strategies
Strategies based on advocacy have focused on two 
main things – creating an evidence base for the benefits 
of Open Access, and making the case to policymakers, 
funders and research managers.
The BOAI was an early, formal advocacy initiative. 
Published in 2002, it set the direction for Open Access 
advocacy for the rest of the decade. Funded in its 
conceptualisation by the Open Society Institute (now 
called Open Society Foundations: see section 7.4), the 
BOAI provided in a few, clear, unambiguous paragraphs a 
description and set of aims that advocates could coalesce 
around and use to promote the ideas about opening 
up science. The Initiative can be signed by institutions 
and foundations that commit to its aims and remains 
an influential advocacy tool for Open Access alongside 
the Berlin Declaration (which also collects signatures of 
commitment from institutions).
Since 2002, there has been increasing intensity in 
advocacy activity. Organisations specifically established 
to promote Open Access have emerged (see section 7.4), 
some with an international remit, some operating within 
national or regional boundaries. The evidence base for the 
benefits of Open Access has been growing, demonstrating 
the value of access to scientific information not just for 
scientists but for other constituencies, too (see Section 4).  
Advocacy targets are policymakers, researchers and, 
increasingly, students who are receptive to the notion 
of openness, are open to the development of better 
ways of communicating science and are the scientists 
of the future. Culture change is taking root in the young 
scientists of today. The student ‘Free Culture’ movement123 
and the Right To Research Coalition124 are examples of 
student activism with respect to opening up science.
The research library community has a strong voice in 
Open Access advocacy, as would be expected. SPARC 
(and its European and Japanese counterparts) is a highly 
effective advocacy organisation that has effected change 
at many levels. The European research library network, 
LIBER, and EIFL (Electronic Information for Libraries). 
There are also actors that have arisen from the research 
community itself, including from the ranks of senior 
management: Enabling Open Scholarship, an international 
organisation of university managers promoting the 
principles and practices of open scholarship, is one such. 
These organisations, and others, are listed in section 7.4.
Advocacy is not limited to dedicated organisations, 
though. It takes place on the ground, locally across the 
world. The launch of Open Access Day in 2008 by the 
Public Library of Science was so successful that the next 
year the event lasted a week and has done so ever since. In 
2010, Open Access Week125 involved thousands of events 
in 90 countries and the movement is growing even bigger. 
7.3 Infrastructural approaches 
Open Access can only be fully achieved if the right 
infrastructure is in place to enable global access and true 
interoperability. In section 2.1 the issue of interoperability 
was mentioned in the context of technical standards for 
repository metadata (to ensure all Open Access material is 
described in basically the same way). This is not all that is 
123 http://freeculture.org/ 
124 http://www.righttoresearch.org/ 
125 http://www.openaccessweek.org/
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needed, however, and much work remains to be done to 
get the full foundations in place.
What has been achieved so far is the establishment of 
a Web-based network of repositories and Open Access 
journal collections plus supporting organisations that 
set and uphold technical standards, develop technical 
solutions for outstanding problems and promote Open 
Access. The essential components are in place, but 
there remain interoperability issues around transfer of 
information across the network from one repository to 
another, usage reporting, impact assessment, and identity 
management and preservation amongst others, as well as 
some challenging problems concerning access to research 
data. These are areas where future work will be focused. 
7.4 Organisations engaged in 
promoting Open Access
There are many organisations, large and small, engaged 
in promoting Open Access. This is by no means a 
comprehensive list, but it presents a selection of some 
of the most prominent actors. These organisations all 
have distinct remits and each presents an opportunity for 
collaboration and partnership with UNESCO.
International library community organisations
 ◾ SPARC (Scholarly Publishing and Academic Resources 
Coalition)126: established by the Association of Research 
Libraries in the US 
 ◾ SPARC Europe127: The European equivalent of SPARC in 
the US. This, like SPARC Japan, operates a programme 
of activities independently of SPARC but the three 
organisations also work collaboratively on many 
initiatives while pursuing their own agendas 
 ◾ SPARC Japan128
 ◾ LIBER (Ligue des Bibliothèques Européennes de 
Recherche - Association of European Research 
Libraries)129
 ◾ EIFL (Electronic Information for Libraries)130: EIFL 
(Electronic Information for Libraries): an international 
organisation that works in collaboration with libraries 
in more than 45 developing and transition countries 
126 http://www.arl.org/sparc/ 
127 http://www.sparceurope.org/ 
128 http://www.nii.ac.jp/sparc/en/ 
129 http://www.libereurope.eu
130 http://www.eifl.net/ 
in Africa, Asia and Europe and enables access to 
knowledge for education, learning, research and 
sustainable community development.
 ◾ COAR (Confederation of Open Access Repositories): 
a worldwide membership organisation for repository 
managers launched in 2009131
 ◾ Latin American Federated Network of Institutional 
Scientific Documentation Repositories, Red CLARA132
 ◾ IBICT (Instituto Brasileiro de Informação em Ciência e 
Tecnologia)133
There are also very many national library organisations 
around the world that promote Open Access as part of 
their work. 
International organisations that have arisen from the 
research community 
 ◾ Open Knowledge Foundation (OKF): established in 
2004 to promote open knowledge of all kinds. UK 
based, but with an international reach134
 ◾ Enabling Open Scholarship (EOS): established in 
2009 to promote the principles and practices of 
open scholarship to higher education and research 
institution managers
 ◾ Centre for Internet & Society, Bangalore: established 
in 2008, the CIS works on issues relating to the effect 
of the Internet on society, including Open Access. 
Although based in India, the CIS’s mission has an 
emphasis on South-South dialogues and exchanges135
Infrastructure organisations  
 ◾ JISC (Joint Information Systems Committee), UK: The 
UK’s national ICT organisation for higher education, the 
JISC sponsors a wide-ranging programme of covering 
infrastructure development and evidence-based 
research136
 ◾ SURF Foundation, The Netherlands: the ICT 
organisation for Netherlands. SURF funds work to 
promote IT-based innovation in higher education and 
research137  
131 http://coar-repositories.org/ 
132 Latin American Federated Network of Institutional Scientific 
Documentation Repositories, Red CLARA: http://www.redclara.net/index.
php?option=com_content&view=article&id=533&Itemid=504&lang=es
133 http://www.ibict.br/ 
134 http://okfn.org/ 
135 http://www.cis-india.org/ 
136 http://www.jisc.ac.uk/openaccess 
137 http://www.surffoundation.nl/en/Pages/default.aspx 
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 ◾ Digital Repositories Federation, Japan: a coalition 
of Japanese universities that specifically supports 
developments around repositories in Japan138 
Funding organisations supporting Open Access
 ◾ OSF (Open Society Foundations): funds research, 
development and advocacy work internationally in 
support of Open Access139 
 ◾ FECYT (Fundación Española para la Ciencia y la 
Tecnología): Spanish national research funding 
body, supporting science and technology, including 
developments to help Open Access140
 ◾ DFG (Deutsche Forschungsgemeinschaft): German 
national funding body for research. Supports Open 
Access infrastructural developments and advocacy141
 ◾ European Commission: funds research and 
development across the European Union and supports 
Open Access infrastructure and policy development142
Publisher associations
 ◾ OASPA (Open Access Scholarly Publishers 
Association)143: a membership organisation of Open 
Access journals and book publishers 
138 http://drf.lib.hokudai.ac.jp/drf/index.php?Digital%20Repository%20
Federation%20%28in%20English%29 
139 http://www.soros.org/ 
140 http://www.fecyt.es/fecyt/home.do 
141 http://www.dfg.de/en/index.jsp 
142 http://ec.europa.eu/research/science-society/index.cfm?fuseaction=public.
topic&id=1294&lang=1 
143 http://www.oaspa.org/ 
Summary points
 ▶ Strategies for Open Access have bases in the development of 
policy and infrastructure, and in advocacy
 ▶ All three approaches have borne fruit, they are interdependent, 
and all are on-going
 ▶ All three now increasingly embrace Open Data too
 ▶ There are many actors pursuing these strategies on international, 
national and local levels with whom UNESCO could work and 
partner 
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SECTION 8. Policy Framework for 
Open Access 
P olicy development is of critical importance to the progress of Open Access and a structured process is the best way to 
ensure a good policy outcome144. Policy support 
is necessary even where advocacy is at its most 
effective. 
8.1 Development and growth of 
policies
While there had been various policy approaches 
that involved encouraging Open Access or issuing a 
declaration of approval for the concept, the first policy 
to have any real effect was the mandatory one adopted 
by the School of Electronics & Computer Science at the 
University of Southampton, UK, in 2002. This required 
authors in that School to place their postprints (the 
authors’ final version of their peer-reviewed articles) in 
the School’s repository. It was followed by a similar policy 
covering the whole institution at Queensland University of 
Technology, Brisbane, in 2004 and, later in that year, at the 
University of Minho in Braga, Portugal.
These are institutional policies – or, in the case of 
Southampton, a sub-institutional policy since it affected 
just one School. Research funders, too, have been 
introducing policies over the past 5 years or so. The 
first was the Wellcome Trust, a London-based funder of 
biomedical research worldwide. It adopted its policy in 
2005, quickly followed by the National Institutes of Health 
(NIH) in the US. 
As well as institutional and funder policies, there has been 
some development of policy at national level. The first 
national policy was in the Ukraine in 2007. A draft law on 
science policy was released in early 2009 in Spain that 
included a section on Open Access and this was ratified 
144 See guidelines in the Portuguese RCAAP OA Policy Toolkit: http://projecto.
rcaap.pt/index.php/lang-pt/consultar-recursos-de-apoio/remository?func=
startdown&id=336 
on 12 May 2011145. Laws are also under development in 
Argentina146, Poland and Brazil at the present time. 
At the time of writing there are in total 297 mandatory 
Open Access policies in force from research funders 
(52 policies), universities and research institutes (132 
policies) and individual departments, faculties or schools 
in research-based institutions (31 policies). Mandatory 
policies covering doctoral and master’s theses have also 
been introduced in some institutions (82 policies).
Figure 7 shows the growth of mandatory Open Access 
policies over the last decade147.
Figure 7: Growth of mandatory policies on Open Access (data for 
years 2006 onwards shown by year-quarter)  
Source: ROARMAP148
8.2 Policy issues
8.2.1 Voluntary or mandatory   
Welcome though the growth in polices is, there are 
nonetheless many thousands of universities, research 
institutes and research funders across the world that 
145 Ley de la Ciencia (government press release in Spanish): http://bit.ly/nfeiAC. 
For a translation of the relevant Article into English: http://bit.ly/l4wmVQ 
146 http://www.unlp.edu.ar/uploads/docs/con_sup_junio_2011anteproyecto_
de_ley_de_repositorios.pdf
147 The Registry of Open Access Repository Mandatory Archiving Policies 
(ROARMAP) monitors policy growth: http://roarmap.eprints.org/ 
148 http://roarmap.eprints.org/ (accessed August 2011)
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have not yet implemented an Open Access policy – 
and without policies deposit levels (self-deposit) for 
repositories remain obstinately low at around 20-30% of 
total scholarly works (research outputs).   
Evidence has unequivocally demonstrated that to 
have real effect policies must be mandatory, whether 
institutional or funder policies. Mandatory policies at 
institutions succeed in accumulating content in their 
repositories, averaging 60% of total output after a couple 
of years of the policy being in place149.  Figure 8 shows 
the levels of Open Access in institutional repositories with 
mandatory policies compared to the level of voluntary 
self-archiving.
Evidence shows that researchers are quite happy to 
be mandated to act in this way150. The recent growth 
in policies based on the ‘Harvard model’, where faculty 
members vote to approve a mandate for Open Access, is a 
manifestation of this.
The NIH introduced a voluntary policy in May 2005 but, 
despite publicising the policy widely and informing 
grant-holders, the compliance rate remained stubbornly 
low (below 5% in the first year and not much better the 
following year). The US Congress then ordered NIH to 
make the policy mandatory and the new policy took effect 
at the beginning of 2008. Compliance is now well over 
50% and rising.
100% 
90% 
80% 
70% 
60% 
50% 
40% 
30% 
20% 
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2002 2003 2004 2005 2006
Figure 8: Percentage of the total institutional journal article 
outputs made Open Access by self-archiving in repositories 
at four institutions  
(universities of Minho and Southampton, Queensland University of 
Technology and CERN) with mandatory policies, compared with the 
level of self-archiving at non-mandated institutions  
(source: Gargouri et al, 2010)
149 Studies by Sale (2006) and Gargouri et al (2010) have produced data to 
show this: full references in the bibliography.  
150 In surveys, over 80% of authors say they would be willing to cooperate 
with a mandate and a further 14% saying they would do so with some 
reservations. See Swan & Brown (2005); full reference in the bibliography
8.2.2 Types of Open Access
A policy can cover either only ‘green’, or both ‘green’ 
and ‘gold’, Open Access, but there is a difference of 
approach for each type. While ‘green’ Open Access (using 
repositories) can be mandated by institutions or funders, it 
would be extremely problematical for a policy to insist on 
‘gold’ Open Access: that would mean compelling scientists 
to publish in particular journals. There is no mandatory 
policy on ‘gold’ Open Access to date, though many do 
include encouragement to scientists to publish in an Open 
Access journal if there is a suitable one. 
Some funders (and a very few universities) also provide 
funds specifically to pay for article-processing fees for 
Open Access journals; rather more do not allocate new 
funds but permit the payment of APCs from grant money. 
It should be noted that grant money has been used 
for decades to pay colour charges or page charges to 
subscription journals: funders that allow this might now 
consider requiring Open Access for such articles as a 
payoff from an otherwise toll-access journal.
All mandatory policies have a focus on ‘green’ Open 
Access. They require articles to be deposited in a 
repository and made Open Access at an appropriate time.
8.2.3 Locus of deposit
Many funder policies stipulate only that articles must be 
deposited in ‘a suitable repository’, acknowledging that in 
the disciplines they fund there may be a choice of deposit 
loci. In physics, for example, scientists may prefer to 
deposit their articles in the central arXiv repository rather 
than their institutional repository. In other disciplines, 
where there is not a popular central repository, the 
institutional repository will be the most appropriate place 
for deposit. 
Institutional policies naturally oblige authors to use the 
institutional repository for deposit. Not only does this 
enable them to benefit from the advice and assistance 
of the repository staff, it has institutional benefits, too, 
in terms of collecting together all the research outputs 
from an institution, forming a permanent record of digital 
scholarship for that institution. In research management 
terms, the repository is a valuable tool.
Some scientists may find themselves under more than 
one mandatory policy – one from their institution and 
one from their research funder. In response to increasing 
incidents of this type, technical development work has 
been carried out to provide tools that enable the author 
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to deposit an article once and for it to be copied into 
other repositories151.  UKPMC is developing the means 
to send a copy of articles deposited there as a result of 
funder mandates to the institutional repository of the 
author. These schemes simplify life for authors, encourage 
compliance with policies and enhance Open Access.
The optimum arrangement, one that accommodates the 
needs of all stakeholders, and has the potential to collect 
the greatest amount of Open Access content, is for a 
network of institutional repositories to be the primary 
locus for deposit and for centralised, subject-specific 
collections to be created by harvesting the required 
content from that network of distributed repositories152. 
Institutions have a strong interest in collecting and 
stewarding the intellectual capital resulting from their 
research programmes and can ensure that the material is 
collected through implementation of a mandatory policy.
8.2.4 Content types
8.2.4.1 Literature
The target for Open Access is the peer-reviewed literature 
and most repositories use software that enables searching 
limited to peer-reviewed material, a matter of good 
practice. Most policies cover journal articles. Many policies 
also encompass peer-reviewed conference proceedings 
because that is the primary publication route for some 
disciplines, notably engineering and computer sciences. 
In other disciplines conference proceedings may also be 
peer-reviewed and published some of the time, but the 
journal literature remains the main publication route: 
those cases fall into the ‘nice to have’ rather than ‘must 
have’ category for Open Access. 
As well as these things, many policies cover theses 
(masters and doctoral) which are, of course, peer-reviewed 
outputs. In some case, and in particular in Latin America, 
most policies developed so far are thesis-specific.
Many policies specifically mention and encourage Open 
Access to books and book sections (chapters) but do not 
include these in the mandate since, as discussed in section 
1.4, books represent a different case as they are not part of 
the literature given away for free by scientists. 
With respect to journal articles, policies generally specify 
that the version that must be deposited is the postprint 
151 For example, SWORD (Simple Web Service Offering repository deposit): 
http://swordapp.org/  
152 The conclusion of a study on the optimal technical and organisational 
infrastructure to deliver Open Access on a national scale (Swan et al, 2005): 
full reference in the bibliography.
– that is, the author’s final version of the article once peer-
review has taken place and any required changes have 
been made. If the policy of the journal in which the article 
will be published is to allow preprint-only Open Access, 
then the policy may mention this. The policy will also 
cover the issue of publisher embargoes.  
8.2.4.2 Data
Research data are increasingly covered by policies and 
often these policies are being implemented by smaller, 
niche players as well as large research funders153. These 
policies are not usually, however, the same (Open Access) 
policies that cover the text-based literature. Data are 
exceptional because policies must take into account 
issues of privacy and special cases where data cannot 
be released for other reasons. Developing and wording 
Open Data policies is therefore a specialised issue that 
is not as straightforward as developing polices for Open 
Access to the literature. Where there is Open Access policy 
development now, Open Data policy development will 
follow. 
8.2.5 Embargoes
Many publishers – but certainly not all – stipulate an 
embargo period before an article can be made Open 
Access. This is a result of publishers’ fears of falling sales. 
Most Open Access policies will acknowledge this and 
permit embargoes so that authors are not placed in a 
position of difficulty with respect to their publisher. In 
science, publisher embargoes are normally 6-12 months: 
anything longer than that is considered unreasonable by 
the community, and certainly not in the public interest, 
and most mandatory policies make a 12-month embargo 
the maximum permissible: in a considerable number of 
science funder policies the maximum embargo allowed is 
6 months. In any event, policy should specify the length 
of embargo allowed and not simply leave it as vague 
language such as ‘in accordance with the publisher’s 
policy’.
The problem with allowing embargoes, however, is that 
authors are almost certain to forget about depositing once 
months have passed after publication. The natural time for 
an author to deposit their postprint is when it is ready for 
final submission to the journal. 
To accommodate this, and hence maximise deposit 
levels, the most common types of repository software 
153 See, for example, the Centre for Global Development’s new data policy: 
http://blogs.cgdev.org/globaldevelopment/2011/08/cgds-new-data-code-
transparency-policy.php 
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offer an embargo facility: the author deposits the 
postprint at the time of submission to the journal and 
chooses the embargo length from a list provided by the 
software. At the end of that embargo period, the software 
automatically makes the article Open Access.
There is something more to this, too: the software ensures 
that the article metadata (the title, authors, etc) are open 
from the time of deposit. Metadata are not copyrightable 
and so publishers cannot prevent them from being 
displayed. The metadata are indexed by Web search 
engines (e.g. Google Scholar), so during the embargo 
period it is possible for users to discover the existence of 
the article, even though the full-text is not open to them.  
Also, and importantly, the institution has a complete 
record of the research outputs of the institution, not the 
partial one that would result from a policy that relied upon 
researchers remembering to deposit six or twelve months 
down the line from publication.
The software has a ‘request a copy’ button that 
automatically sends an email message to the depositing 
author asking for a copy to be emailed to the would-
be user. This is allowable under ‘fair use’: the author is 
providing a single copy for private study. Through this 
arrangement, the article’s usage and impact can begin to 
grow from the moment of deposit, despite the embargo.
8.2.6 Gratis and libre Open Access
Existing mandatory policies generally avoid this 
distinction154. Requiring libre Open Access is considered 
a step too far at present, despite its promise for science, 
as it would make it very difficult for authors to publish in 
journals of choice because of publisher resistance. It is 
an issue for future policy, though that future will not be 
too far ahead. The trend for Open Access journals to use 
Creative Commons licensing to permit liberal re-use is 
upwards, and as more journals convert to Open Access 
this can be expected to continue.
8.2.7 Permissions
As discussed in section 6, Open Access is dependent upon 
the permission of the copyright holder. 
154 The exceptions are the UKPMC funders (8 UK medical charities and the 
Medical Research Council), which require libre Open Access where they pay 
the whole or part of an article-processing charge for publishing in Open 
Access journals. 
8.2.7.1 Authors as copyright holders
Where authors retain sufficient right to enable Open 
Access, policymakers need to find ways to work with that. 
Institutions can either secure sufficient rights themselves 
as a condition of employment, or they can be granted 
those rights by the authors.
An example of the former is Queensland University of 
Technology, which has the following wording in its 
Intellectual Property Policy155:
Ownership of copyright
 ▶ In accordance with general law principles noted in section 3.1.4 
above, QUT as an employer is the owner of copyright where 
the work is created by staff members in the course of their 
employment. QUT’s ownership of copyright applies to both 
academic and professional staff. 
Assignment of scholarly works
 ▶ Provided that QUT does not have contractual obligations to a third 
party which would prevent QUT effecting such an assignment, 
QUT assigns the right to publish scholarly works to the creator(s) 
of that work. The assignment is subject to a perpetual, 
irrevocable, worldwide, royalty-free, non-exclusive licence 
in favour of QUT to allow QUT to use that work for teaching, 
research and commercialisation purposes and to reproduce and 
communicate that work online for non-commercial purposes via 
QUT’s open access digital repository.
 ▶ If required, QUT will sign documents to more fully record the staff 
member’s ownership of the right of publication of the copyright in 
a scholarly work and QUT’s non-exclusive licence to that work. 
 ▶ If required, a staff member will sign documents to more fully 
record the licence in favour of QUT to use scholarly works as 
contemplated by this section 3.1.5.
 ▶ The “right to publish” scholarly works in this section 3.1.5 means 
the right to publish a work as referred to in the Copyright Act 1968 
(Cwth).
 ▶ The version of the scholarly work that QUT can make available via 
the digital repository may be the published version or the final 
post-peer review manuscript version. QUT will agree to third party 
publisher-requested embargoes of 12 months or less (from date 
of publication by the third party publisher) on the publication of 
the manuscript via the digital repository.
 ▶ Any subsequent publication agreement or assignment of the right 
to publish the scholarly work entered into by the creator will be 
subject to the terms of the pre-existing non-exclusive licence 
referred to in this section 3.1.5. 
155 http://www.mopp.qut.edu.au/D/D_03_01.jsp#D_03_01.05.mdoc 
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An example of the latter is the Harvard University position, 
where researchers in six faculties have voted to grant 
to the University a nonexclusive, irrevocable right to 
distribute their scholarly articles for any non-commercial 
purpose156. This right trumps any other, subsequent 
agreement with publishers.
8.2.7.2 Publishers as copyright holders
Where the author has transferred all rights to the publisher, 
as is most often the case when signing a standard 
publisher CTA (see section 6), permission to make work 
Open Access must be sought from the publisher.
Seeking permission from publishers for more than they 
offer as standard is unlikely to be successful. In the case 
of more than half of journals, the publisher does allow 
some form of self-archiving, though in around one-third of 
journals this is for the preprint only, an unsatisfactory state 
of affairs for many authors. It is unusual for a publisher to 
change position, when asked, to permit self-archiving of 
the postprint. Publishers are also unlikely to change their 
stance on embargo length.
Policymakers should take these things into account when 
wording a policy.   Above all, the balance of interests of the 
different parties should be considered. The public interest 
is that scientific results are placed in the public arena 
immediately they are publishable. A policy position that 
compromises this by deferring to publisher interests157 is a 
weak one.
In most cases of policy development at the moment, the 
policy depends on publisher permission because rights 
are transferred to the publisher as a matter of routine. Best 
practice is for sufficient rights to be retained, as a matter of 
routine, so that the provision of Open Access is not at all 
dependent on publisher permissions. Publishers may opt 
not to publish work under those conditions, and that is 
part of the balance of rights and choices.
8.2.8 Compliance
Compliance levels do vary, even for mandatory policies. 
The wording of the policy is one factor in this, but the way 
the policy is implemented is certainly another, strong, 
one. A good advocacy programme to back up a policy is 
usually necessary to reach acceptable compliance levels.
156 http://osc.hul.harvard.edu/policies 
157 For example, the UK’s Economic & Social Research Council’s policy states 
that it requires its grant-holders to make their work Open Access ‘where this 
is permitted by publishers’ licensing or copyright arrangements’. 
Institutions can monitor compliance with their policies 
more easily than funders can, though it may still not be 
a simple task. There is no indexing service that covers 
100% of the literature, so checking the repository content 
against what is recorded by literature indexing services 
gives only an approximation of how complete the 
repository’s content is.  
Some universities have a CRIS (Current Research 
Information System) that records grant awards, research 
groups, equipment purchased, collaborations, and so 
forth. Many CRIS also record the bibliographic details of 
items published. Where this is the case, the institution has 
a method for tracking whether all items published are also 
deposited in the repository. It has to be said, however, that 
the vast majority of universities do not have such a system, 
and so monitoring compliance with an Open Access 
policy is a challenge.
Funders find it even more of a challenge as it is very 
difficult for them to know precisely what has been 
published from research they have funded. Often, 
publications follow after the end of the project-funding 
period so that a record of them does not appear in the 
final project report to the funder. Tracking the publications 
that result from their funding has been largely through 
labour-intensive, manual searching of the literature and 
matching it against accumulation of Open Access content.
Where funders have tried to increase compliance there 
has been some success. Both the Wellcome Trust and the 
NIH, for example, have sent out letters to grant-holders 
reminding them of their obligations under the policy. 
Wellcome’s letter asks grant-holders why they have not 
complied with the policy158. These funders also wrote to 
the grant-holders’ institutions, thereby reminding them of 
their responsibilities and interests in this process.
There are moves now by large funders to develop systems 
for better monitoring of the outcomes of their funding 
programmes. The NIH now requires its grant-holders to 
use the PubMed Central (PMC) manuscript submission 
reference when they cite articles in project reports or new 
grant applications159. This ensures that the grant-holder 
does, indeed, submit the manuscript to PMC so that a 
submission number is obtained.  
Repository software developers are also beginning to work 
with funders to understand their needs and to build into 
the software the right metadata fields that can capture 
158 See the Wellcome Trust Open Access compliance audit 2009: http://
www.wellcome.ac.uk/About-us/Publications/Grantholders-newsletter/
WTX052748.htm 
159 http://publicaccess.nih.gov/citation_methods.htm 
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information on grants and awards. This is an area that is in 
the early days of development, but is likely to grow and 
become more widespread. Being able to account for the 
outcomes of public spending and to demonstrate return 
on research investment are issues that are growing in 
importance across the world, and universities and funders 
will increasingly see the value of an Open Access literature 
in helping them assess these things.
8.2.9 Sanctions
Compliance with a policy is usually encouraged by a 
mixture of carrot160 and stick approaches: policymakers 
may consider exerting sanctions when advocacy and 
rewards fail. 
Research funders have a number of options. They could 
refuse further funding, or suspend current funding, if a 
grant-holder fails to comply. So far, none have taken this 
step, but there have been strong hints in the past from 
the NIH that it may become stricter with its grantees, 
‘suspending funds’ being one option161. 
Research institution managers have a different set of 
sanctions, including linking self-archiving to promotion 
and tenure applications162. 
8.2.10 Advocacy
Policies, however well worded, need advocacy support to 
really take effect. In all the best-performing institutions in 
terms of percentage of their outputs that can be found 
in the repository, there is a strong, sustained advocacy 
programme. Precise details vary from institution to 
institution but ranges from publicising repository usage 
and impact statistics to awarding prizes. Emphasis is 
placed on how opening up the institution’s outputs 
enhances its reputation and that of the individual 
160 An example of a reward system for depositing is that operated at  the 
University of Minho, Portugal, where cash payments are made to 
departments for every item deposited, thus incentivising departments to 
incentivise their researchers: https://mx2.arl.org/Lists/SPARC-OAForum/
Message/2807.html 
161 NIH Deputy Director for Extramural Research, Norka Ruiz Bravo: ‘Other 
possible ways of forcing scofflaws to comply range from having a 
program director call with a reminder, to the most extreme – suspending 
funds’. Quoted in an article in Science, 18 January 2008, 266 DOI:10.1126/
science.319.5861.266 [this article is toll-access].
162 This has worked well in practice at the University of Liège in Belgium, where 
the rector’s policy makes clear that when applications are made to him for 
promotion or tenure he will use the repository to see the publication record 
of the applicant.
scientists: linking behaviour and benefits is always strongly 
promoted163.
8.2.11 Waivers
Some policies provide a waiver facility. If authors cannot or 
will not comply for some reason, they are invited formally 
to request a waiver and provide the reason why they 
need this. Usually this option operates alongside a rights-
retention policy, and accommodates those instances 
where the author wishes to publish in a particular journal 
and the publisher will require full copyright to be assigned 
to the journal.
8.2.12 ‘Gold’ Open Access
Finally, some policies make a specific statement about 
‘gold’ Open Access where there is a willingness on the part 
of the policy-holder to pay APCs or permit the use of grant 
funding to pay for them.
8.3 A typology of policies
The policy issues covered in the sections above can be 
summarised in a typology of policies. Of course, it is 
possible for policies to vary on all these parameters so the 
total number of permutations is very large. In practice, 
however, a number of main variants have arisen and these 
are shown in Table 1.
163 For a range of effective advocacy activities that have been proven in use, 
see Enabling Open Scholarship’s briefing paper for librarians: http://www.
openscholarship.org/jcms/c_7152/making-the-case-for-open-access-
guide-for-librarians 
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M
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de
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rig
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pe
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ed Notes Example
Type 1: Immediate deposit, no waiver
Yes Yes Yes, on opening 
of the full-text: 
metadata open 
from deposit
Optional No This type of policy applies where the policymaker does 
not already, and does not wish to, acquire the rights to 
the work covered by the policy. The policy leaves the 
rights where they already reside – that is, either with the 
author or with the publisher. In the latter case, publisher 
permissions must be respected, entailing provision in 
the policy for an embargo period. The policy requires the 
metadata to be visible from the time of deposit so that 
would-be users can discover the existence of the article 
and request a copy from the author
University of Liege  
http://www.eprints.org/
openaccess/policysignup/fullinfo.
php?inst=Universit%C3%A9%20de%20
Li%C3%A8ge 
Type 2: Rights-retention
(a) Authors assign sufficient rights to policymaker
Yes Usually Usually. Embargo 
handled as in 
Type 1 
Yes Yes This type of policy applies where the policymaker does 
not already have the rights to the work produced but is 
prepared to acquire from the creators of the work sufficient 
rights to make the work Open Access. The creators are 
usually granted the option of a waiver where the policy 
prevents publication in the journal of choice
Harvard University 
Faculty of Arts & Sciences 
http://osc.hul.harvard.edu/hfaspolicy 
(b) Policy maker already holds sufficient rights
Yes Usually Usually. Embargo 
handled as in 
Type 1
Yes Yes This type of policy applies where the policymaker already 
has the rights to the work produced or is prepared to make 
that the case
Queensland University of Technology 
http://www.mopp.qut.edu.au/F/F_01_03.
jsp#F_01_03.02.mdoc
Type 3: Deposit within a certain period
Yes No Yes, but specified 
by the policy
Optional No This type of policy accommodates, to a degree, publisher 
requirements for an embargo, but it specifies the 
maximum length of the embargo period. In practice this 
is usually 6 months if the policy applies only to the natural 
sciences, and 12 months if it has a broader disciplinary 
coverage
Wellcome Trust 
http://www.wellcome.ac.uk/About-us/
Policy/Policy-and-position-statements/
WTD002766.htm
Type 4: Deposit if/ when publisher permits
Yes No Yes, whatever 
the publisher 
requires
No Yes This type of policy accommodates all publisher 
requirements, including embargoes of any length
University of Southampton 
http://www.soton.ac.uk/library/research/
eprints/policies/oapolicy.html 
Type 5: Voluntary
No Immaterial Athabasca University 
http://www2.athabascau.ca/secretariat/
policy/research/openaccess.htm
Table 1: Typology of Open Access policies: main variants in use
Note 1: any of these policies may require libre Open Access, though so far almost all have only required gratis Open Access. 
Note 2: Any of these policies may include mention of ‘gold’ Open Access and what the policymaker wishes authors to do in that regard (for 
example, the policy may merely encourage authors to publish in Open Access journals or the policymaker may wish to describe a specific fund 
made available for this purpose).
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Summary points on policy best practice
 ▶ Policy type: policies may request and encourage provision of Open Access, or they may require it. Evidence shows that only the latter, mandatory, 
type accumulate high levels of material. Evidence also shows that researchers are happy to be mandated on this issue
 ▶ Open Access routes covered: policies can require ‘green’ Open Access by self-archiving but to preserve authors’ freedom to publish where they 
choose policies should only encourage ‘gold’ Open Access through publication in Open Access journals
 ▶ Deposit locus: deposit may be required either in institutional or central repositories. Institutional policies naturally specify the former: funder 
policies may also do this, or may in some cases specify a particular central repository
 ▶ Content types covered: all policies cover journal articles: policies should also encourage Open Access for books: funder polices are increasingly 
covering research data outputs
 ▶ Embargoes: Policies should specify the maximum embargo length permitted and in science this should be 6 months at most: policies should 
require deposit at the time of publication with the full-text of the item remaining in the repository, but closed, until the end of the embargo period
 ▶ Permissions:  Open Access depends on the permission of the copyright holder, making it vulnerable to publisher interests. To ensure that Open 
Access can be achieved without problem, sufficient rights to enable that should be retained by the author or employer and publishers assigned 
a Licence To Publish. Where copyright is handed to the publisher, Open Access will always depend upon publisher permission and policies must 
acknowledge this by accommodating a ‘loophole’ for publishers to exploit
 ▶ Compliance with policies: compliance levels vary according to the strength of the policy and the ongoing support that a policy is given: 
compliance can be improved by effective advocacy and, where necessary, sanctions 
 ▶ Advocacy to support a policy: there are proven advocacy practices in support of an Open Access policy: policymakers should ensure these are 
known, understood, and appropriate ones implemented
 ▶ Sanctions to support a policy: both institutions and funders have sanctions that can be used in support of an Open Access policy: policymakers 
should ensure that these are identified, understood and appropriate ones implemented where other efforts fail to produce the desired outcome
 ▶ Waivers: where a policy is mandatory authors may not always be able to comply. A waiver clause is necessary in such policies to accommodate this
 ▶ ‘Gold’ Open Access: where a funder or institution has a specific commitment with respect to paying ‘gold’ article-processing fees, this should be 
stated in the policy
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SECTION 9. Summary Policy 
Guidelines 
9.1 The context 
The case for Open Access policy is built around the 
opportunity presented by the World Wide Web to 
optimise the dissemination of scientific information to 
all constituencies that could benefit from it.  A global, 
interoperable, open, re-usable, permanently available 
database of scientific knowledge is achievable with the 
right strategies and policies.
There is a worldwide effort to promote Open Access 
– much of it coordinated through collaborative efforts 
between established actors in the field – and focused on 
particular practical, strategic and political goals. Critical 
way-markers have already been reached and passed. There 
are formal definitions in place to describe and explain the 
concept of Open Access itself, the distinctions between 
gratis and libre Open Access and the two routes to 
making research findings openly accessible – ‘green’ and 
‘gold’ Open Access. There are also agreed definitions of 
allied concepts such as Open Data (which is increasingly 
becoming included alongside the research literature as 
a primary target for openness in science), Open Science, 
Open Educational Resources and Open Innovation. 
Some success has been achieved, with Open Access 
content accumulating in repositories and Open Access 
journals, but as this Open Access corpus has not yet 
reached 30% of the whole literature there is considerable 
work to be done to raise this level. Continuing work is 
needed in three areas – infrastructure development, 
advocacy and policy-making.
Guidelines are set out below for research funders and for 
institutional policy-makers. The sets are very similar, but 
there are some differences where policy varies for each 
case.
9.2 Guidelines for governments and 
other research funders
Research funders play a crucial role in policymaking with 
respect to Open Access. Where funders are disbursing 
public money they will wish to ensure that the results 
of their funding are disseminated as widely as possible 
and used by all who can benefit. Open Access increases 
the visibility, usage and impact of research, and enables 
it to reach all constituencies that can benefit, including 
the education, professional, practitioner and business 
communities, as well as the interested public. The return 
on public investment in science is thereby maximised.  
Research funders are therefore encouraged to develop 
and implement an Open Access policy. In preparing for 
this, funders may wish to consider the following issues:
9.2.1 Form of policy 
Policies that encourage or request scientists to make their 
work Open Access gather relatively little content for the 
Open Access corpus. Mandatory policies, on the other 
hand, are effective, given the right support. The policy 
should therefore require that scientists comply, stating the 
reason for the policy and the benefits that scientists and 
the public will derive. 
9.2.2 Scope of the policy: target 
content
The accepted definitions of Open Access make plain that 
the target content for Open Access is the journal literature 
(journal articles, peer-reviewed conference proceedings 
and theses). They also address the desirability of including 
research monographs but acknowledge that these are 
a special case because of the issue of royalty payments: 
books are not ‘give-away’ literature as journal articles 
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are.  Policies should follow this model, specifying that 
the journal literature is the main policy target but that 
access to the monograph literature is equally important 
and is encouraged, though it cannot be the subject of 
mandatory policy.
Research data can be the subject of a mandatory policy, 
but is best covered by a separate policy document. Many 
funders now have Open Data policies in place, but a 
data policy must cover more complex issues than an 
Open Access policy and the two are better not conflated. 
That said, an Open Access policy can also mention 
and encourage scientists to make their data shareable 
alongside their articles wherever possible.
9.2.3 Scope of the policy: gratis or 
libre Open Access
The reasons for libre Open Access are important for the 
future of research, and as such deserve acknowledgement 
in policy wording. The provision of material that satisfies 
the libre definition is to be encouraged though not 
required. Guidance on the use of Creative Commons (or 
similar) licensing procedures should be provided, with 
an explanation of the most appropriate licence for most 
academic purposes (CC-BY, or ‘attribution’ licence). 
9.2.4 How to comply with the policy
Policies should explain the two routes to Open Access 
– ‘green’, through repositories, and ‘gold’, through Open 
Access journals. The policy can and should require ‘green’ 
but only encourage ‘gold’, since to do otherwise would 
remove the scientist’s choice of journals in which to 
publish. It should point to the Directory of Open Access 
Journals as a source of information about the range of 
these journals, and encourage authors to consider one of 
them when they next publish an article.  
9.2.5 Locus of deposit
Policies should specify where articles are to be deposited 
in the case of ‘green’ Open Access. If the funder has its 
own repository that may be target location. Otherwise, 
there may be a central subject repository that accepts 
direct deposits (in the high-energy physics and biomedical 
disciplines this is the case): funders sometimes wish to 
leave the locus for deposit in this case to the author. 
It is best for the growth of Open Access, however, if 
deposit is specified as the local repository in the author’s 
institution. In this way, the funder works with institutions, 
many of which are implementing their own local policy 
that naturally stipulates local deposit, and encourages 
institutions to establish repositories for this purpose. 
Technologies exist that enable an author to deposit locally 
and have their article duplicated in other repositories, a 
solution that streamlines the situation where an author 
finds under obligations from both his/her institution and 
his/her funder.
9.2.6 Time of deposit
The policy should require the deposit of an article 
immediately it is ready for publication. If an embargo 
period is to be accommodated the author is required 
to ensure that the article will be openly available at the 
end of that period. In most cases, repository software can 
automate this process once the author has indicated, as 
part of the deposit process, how long the embargo period 
is to be.
9.2.7 Article-processing charges 
(APCs)
Funders should take a position on the payment of 
article-processing fees for ‘gold’ journals. It should clearly 
state whether it is permitted to use grant funds for this 
purpose and if the funder is prepared to make additional 
funds available for Open Access publishing the amounts 
available and how to access these funds should be 
explained. There should also be a statement on whether 
it is permissible to use these funds to pay APCs for ‘hybrid’ 
journals (because most hybrid journals are published 
under ‘double dipping’ conditions, many funders do not 
permit this). 
9.2.8 Copyright
Funder policies should explain that copyright is a bundle 
of rights and that it is possible to retain sufficient of 
these to be able to disseminate the work as required. It 
should also explain that the majority of journals allow 
self-archiving (the ‘green’ route via repositories), though 
many insist on an embargo period before the article is 
made openly available. If the funder does not wish to 
accommodate an embargo, this should be made clear, 
though most funder policies currently do allow short 
embargo periods (6 months). In this case, it will be usually 
necessary for the funder to require that some rights are 
retained by itself or the author so that Open Access can 
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be effected immediately at publication. The policy should 
be clear on which option the funder is taking in this 
circumstance:
 ◾ The funder, as a condition of funding, requires the 
author to retain sufficient rights to make the work 
Open Access
 ◾ The funder, as a condition of funding, requires the 
author to assign sufficient rights to the funder to make 
the work Open Access
It should point authors to the SHERPA RoMEO service that 
lists publisher permissions so that they can check what the 
position is for the journal in which they wish to publish. 
The policy may alternatively provide, or point authors 
to, a suitable Licence To Publish which the author might 
optionally offer the publisher. Finally, the policy should 
make clear to publishers what options they have under 
the policy. 
Best practice for self-archiving is to assign a Creative 
Commons licence to each work, thus clarifying for both 
human and machine user the conditions under which the 
material may be used.
9.2.9 Embargo period
Funders may decide to accommodate a short embargo 
period after publication before an article can be made 
Open Access. The policy should clearly state the length 
of the permitted embargo. It should also make clear that 
where the publisher’s policy requires a longer embargo, 
authors should publish elsewhere.
9.2.10 Compliance and sanctions
Since the policy will be mandatory, compliance should 
be expected. Evidence suggests, however, that additional 
support in terms of advocacy and ‘reminders’, either 
periodic and general or specific to particular recalcitrant 
grant-holders, will be necessary. Funders should be 
prepared to put these systems in place to support the 
policy. Funders should also state clearly that they will be 
monitoring compliance, and what sanctions might be 
brought to bear on non-compliers.
9.3 Guidelines for Institutional 
policy-makers
The case for Open Access at institutional level is founded 
both on the moral argument and self-interest. Open 
Access increases the visibility, usage and impact of 
research, and enables it to reach all constituencies that can 
benefit, including the education, professional, practitioner 
and business communities, as well as the interested 
public. Both the institution and the individual scientists in 
it benefit from this visibility and impact. Public universities 
are increasingly being required to demonstrate their value 
to the public that supports them, and Open Access is part 
of that value.
Institutions are therefore encouraged to develop and 
implement an Open Access policy. In preparing for this, 
institutional managers may wish to consider the following 
issues:
9.3.1 Form of policy 
Policies that encourage or request scientists to make their 
work Open Access gather relatively little content for the 
Open Access corpus. Mandatory policies, on the other 
hand, are effective, given the right support. The policy 
should therefore require that scientists comply, stating the 
reason for the policy and the benefits that scientists and 
the public will derive. 
9.3.2 Scope of the policy: target 
content
The accepted definitions of Open Access make plain 
that the target content for Open Access is the peer-
reviewed literature that is given away for free by authors 
(journal articles, peer-reviewed conference papers and 
theses). They also address the desirability of including 
research monographs but acknowledge that these are 
a special case because of the issue of royalty payments: 
books are not ‘give-away’ literature as journal articles 
are.  Policies should follow this model, specifying that 
the journal literature is the main policy target but that 
access to the monograph literature is equally important 
and is encouraged, though it cannot be the subject of 
mandatory policy.
Research data can be the subject of a mandatory policy, 
but is best covered by a separate policy document. A few 
universities currently have Open Data policies in place, 
but a data policy must cover more complex issues than an 
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Open Access policy and the two are better not conflated. 
That said, an Open Access policy can also mention 
and encourage scientists to make their data shareable 
alongside their articles wherever possible.
9.3.3 Scope of the policy: gratis or 
libre Open Access
The reasons for libre Open Access are important for the 
future of research, and as such deserve acknowledgement 
in policy wording. The provision of material that satisfies 
the libre definition is to be encouraged though not 
required. Guidance on the use of Creative Commons (or 
similar) licensing procedures should be provided, with 
an explanation of the most appropriate licence for most 
academic purposes (CC-BY, or ‘attribution’ licence). 
9.3.4 How to comply with the policy
Policies should explain the two routes to Open Access 
– ‘green’, through repositories, and ‘gold’, through Open 
Access journals. The policy can and should require ‘green’ 
but only encourage ‘gold’, since to do otherwise would 
remove the scientist’s choice of journals in which to 
publish. It should point to the Directory of Open Access 
Journals as a source of information about the range of 
these journals, and encourage authors to consider one of 
them when they next publish an article.  
9.3.5 Locus of deposit
Policies should specify that articles are to be deposited 
in the institutional repository. Technologies exist that 
enable an author to deposit locally and have their article 
duplicated in other repositories if necessary or desirbale, 
a solution that streamlines the situation where an author 
finds under obligations from both his/her institution and 
his/her funder.
9.3.6 Time of deposit
The policy should require the deposit of an article 
immediately it is ready for publication. If an embargo 
period is to be accommodated the author is required 
to ensure that the article will be openly available at the 
end of that period. In most cases, repository software can 
automate this process once the author has indicated, as 
part of the deposit process, how long the embargo period 
is to be.
9.3.7 Article-processing charges 
(APCs)
Institutional managers should take a position on the 
payment of article-processing fees for ‘gold’ journals. It 
should clearly state whether the institution has a fund for 
this purpose and, if so, the amounts available and how 
to access these funds. There should also be a statement 
on whether it is permissible to use these funds to pay 
APCs for ‘hybrid’ journals (because most hybrid journals 
are published under ‘double dipping’ conditions, many 
institutions do not permit this). 
9.3.8 Copyright
Institutional policies should explain that copyright is a 
bundle of rights and that it is possible to retain sufficient 
of these to be able to disseminate the work as required. 
It should also explain that the majority of journals allow 
self-archiving (the ‘green’ route via repositories), though 
many insist on an embargo period before the article is 
made openly available. If the institution does not wish to 
accommodate an embargo, this should be made clear. 
In this case, it will be usually necessary for the institution 
to require that some rights are retained by itself or the 
author so that Open Access can be effected immediately 
at publication. The policy should be clear on which option 
the funder is taking in this circumstance:
 ◾ The institution, as a condition of employment, requires 
the author to retain sufficient rights to make the work 
Open Access
 ◾ The institution, as a condition of employment, requires 
the author to assign sufficient rights to the institution 
to make the work Open Access
It should point authors to the SHERPA RoMEO service that 
lists publisher permissions so that they can check what the 
position is for the journal in which they wish to publish. 
The policy may alternatively provide, or point authors to, a 
suitable Licence To Publish that the author might optionally 
offer the publisher. Finally, the policy should make clear to 
publishers what options they have under the policy. 
Best practice for self-archiving is to assign a Creative 
Commons licence to each work, thus clarifying for both 
human and machine user the conditions under which the 
material may be used.
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9.3.9 Embargo period
Institutions may decide to accommodate a short embargo 
period after publication before an article can be made 
Open Access. The policy should clearly state the length 
of the permitted embargo. It should also make clear that 
where the publisher’s policy requires a longer embargo, 
authors should publish elsewhere.
9.3.10 Compliance and sanctions
Since the policy will be mandatory, compliance should 
be expected. Evidence suggests, however, that additional 
support in terms of advocacy and other measures will be 
necessary. University managers may not wish to make 
specific threats of sanctions, nor feel they are in a position 
to do so. What they can consider is linking the repository 
to research assessment and monitoring, thereby 
encouraging authors to deposit so that their work is taken 
into account in consideration of their chances of tenure or 
promotion.
58
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info%3Adoi%2F10.1371%2Fjournal.pcbi.1000597  
Ruusalepp, R. 2008. Infrastructure planning and data 
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ac.uk/sites/default/files/documents/publications/
reports/Data-Sharing-Report.pdf 
Sale, A.H.J. 2006. Comparison of IR content policies in 
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Suber, P. 2010. Open Access overview. http://www.
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Swan, A. 2007. Open Access and the progress of science. 
En espanol (Spanish version).  American Scientist 95 (3), 
May-June 2007, pp197-199. http://eprints.ecs.soton.
ac.uk/15958/
Swan, A. 2007. Open Access and the progress of science. 
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Swan, A. 2010. The open access citation advantage: 
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Weenink, K., Waaijers, L. and van Godtsenhoven, K. 
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OAwhitepaper.pdf 
60
GLOSSARY OF KEY TERMS 
AND ABBREVIATIONS
‘BBB’ definition of Open Access: The amalgam of the 
three most important formal attempts to define Open 
Access, at meetings in Budapest (see BOAI), Bethesda and 
Berlin.
Big Deal: A subscription to a package of multiple journals 
from one publisher. Usually purchased by libraries for a 
multi-year period. 
BOAI: Budapest Open Access Initiative. This is the first 
formal definition of Open Access, developed at an Open 
Society Institute (now Open Society Foundations)-funded 
meeting in Budapest, Hungary in December 2001 and 
published on 14 February 2002.
Creative Commons: A non-profit organisation that 
develops, supports, and stewards legal and technical 
infrastructure to enable sharing of digital outputs, 
including by the development of a suite of licensing 
products.
Data mining; Computational process whereby text or 
datasets are crawled by software that recognises entities, 
relationships and actions and can put these together in 
new ways to create new knowledge.
Double-dipping: The practice where a publisher offers 
‘gold’ open Access in an otherwise subscription-based 
journal, without a commitment to reduce subscription 
charges in line with the new revenue stream. The author 
pays an article-processing fee and the publisher makes 
that article Open Access: the rest of the issue is only 
available to subscribers. Some publishers do reduce their 
subscription rates as revenue from APCs increases but 
most do not, and therefore ‘double-dip’ into research 
community funds.
Eprint: An electronic version of a journal article or book 
chapter.
‘Gold’ Open Access: Open Access achieved by 
publishing articles in Open Access journals.
‘Green’ Open Access: Open Access achieved by 
depositing items (journal articles, peer-reviewed 
conference papers and theses) in an open Access 
repository, a process known as ‘self-archiving’.
Harvesting: The collecting of objects or information 
from one or more remote sites into another site. Used, 
for example, in relation to the collection of articles from 
institutional repositories into a central database.
‘Hybrid’ Open Access: Open Access on a single-article 
basis in an otherwise subscription-based journal. Authors 
can pay to make their own article Open Access while 
the rest of the journal remains toll-access. Offered by 
publishers that wish to maintain their subscription-based 
business but still offer an Open Access option, and may be 
seen as a transition mechanism towards full Open Access 
at some time in the future.
Metadata: The information that describes an object. In 
scholarly communication terms the object could be an 
article, book, dataset, etc. The metadata (or bibliographic 
data) describe the authorship, provenance, publication 
location, date of publication, object type and so forth. 
OAI-PMH: Open Archives Initiative Protocol for Metadata 
Harvesting. A technical standard for metadata for Open 
Access repositories and Open Access journals. Adherence 
to this standard ensures interoperability.
Open Access journal: A journal that makes its contents 
freely available online immediately at the time of 
publication and on a permanent basis.
Open Data: In the scholarly communication context, 
Open Data are datasets produced by research that are 
made openly available. Some conditions on their use 
may apply depending on the need for privacy or similar 
restrictions.
Postprint: A journal article (or book chapter or book) that 
has been peer-reviewed and revised appropriately as a 
61
result of peer review, but is still in the format created by 
the author (i.e. not the publisher’s formatted form).
Preprint: A journal article (or book chapter or book) that 
has not yet been peer-reviewed.
Repository: A database of digital research outputs. May 
be institutionally-based or be a service to a particular 
disciplinary, geographical or other type of community.
Self-archiving: The process of depositing a digital 
research article or other digital research output into an 
Open Access repository.
Text mining:  Computational process whereby texts are 
crawled by software that recognises entities, relationships 
and actions and can put these together in new ways to 
create new knowledge.
62
APPENDIX 1. Example policies
A1.1 Funder policies
Some examples of funder policies follow here.
A1.1.1 The Wellcome Trust164
[This is an example of a Type 3 policy]
Open access policy
Position statement in support of open and 
unrestricted access to published research
The mission of the Wellcome Trust is to support the brightest 
minds in biomedical research and the medical humanities. 
The main output of this research is new ideas and knowledge, 
which the Trust expects its researchers to publish in high-
quality, peer-reviewed journals. 
The Wellcome Trust believes that maximising the distribution 
of these papers - by providing free, online access - is the most 
effective way of ensuring that the research we fund can be 
accessed, read and built upon. In turn, this will foster a richer 
research culture. 
The Wellcome Trust therefore supports unrestricted access to 
the published output of research as a fundamental part of 
its charitable mission and a public benefit to be encouraged 
wherever possible. 
Specifically, the Wellcome Trust: 
 ◾ expects authors of research papers to maximise the 
opportunities to make their results available for free 
 ◾ requires electronic copies of any research papers that have 
been accepted for publication in a peer-reviewed journal, 
and are supported in whole or in part by Wellcome Trust 
funding, to be made available through PubMed Central 
(PMC) and UK PubMed Central (UKPMC) as soon as 
possible and in any event within six months of the journal 
publisher’s official date of final publication 
164 http://www.wellcome.ac.uk/About-us/Policy/Policy-and-position-
statements/WTD002766.htm  
 ◾ will provide grantholders with additional funding, through 
their institutions, to cover open access charges, where 
appropriate, in order to meet the Trust’s requirements
 ◾ encourages - and where it pays an open access fee, 
requires - authors and publishers to license research 
papers such that they may be freely copied and re-used 
(for example for text and data-mining purposes), provided 
that such uses are fully attributed
 ◾ affirms the principle that it is the intrinsic merit of the 
work, and not the title of the journal in which an author’s 
work is published, that should be considered in making 
funding decisions. 
Specific details of how authors are required to comply with 
this policy can be found in the authors’ FAQs. Information for 
publishers can be found in the publishers’ guide. This policy 
will be kept under review.
A1.1.2 The National Institutes of Health 
(USA)165
[This is an example of a Type 3 policy]
The Director of the National Institutes of Health shall require 
that all investigators funded by the NIH submit or have 
submitted for them to the National Library of Medicine’s 
PubMed Central an electronic version of their final, peer-
reviewed manuscripts upon acceptance for publication, to 
be made publicly available no later than 12 months after 
the official date of publication: Provided, That the NIH shall 
implement the public access policy in a manner consistent 
with copyright law.
Specifics
1. The NIH Public Access Policy applies to all peer-
reviewed articles that arise, in whole or in part, from 
direct costs funded by NIH, or from NIH staff, that are 
accepted for publication on or after April 7, 2008.  
2. Institutions and investigators are responsible for 
ensuring that any publishing or copyright agreements 
165 http://grants.nih.gov/grants/guide/notice-files/NOT-OD-08-033.html 
63
concerning submitted articles fully comply with this 
Policy.
3. PubMed Central (PMC) is the NIH digital archive of 
full-text, peer-reviewed journal articles.  Its content 
is publicly accessible and integrated with other 
databases (see: http://www.pubmedcentral.nih.gov/).
4. The final, peer-reviewed manuscript includes all 
graphics and supplemental materials that are 
associated with the article.  
5. Beginning May 25, 2008, anyone submitting an 
application, proposal or progress report to the NIH 
must include the PMC or NIH Manuscript Submission 
reference number when citing applicable articles 
that arise from their NIH funded research. This policy 
includes applications submitted to the NIH for the May 
25, 2008 due date and subsequent due dates. 
Compliance
Compliance with this Policy is a statutory requirement and 
a term and condition of the grant award and cooperative 
agreement, in accordance with the NIH Grants Policy 
Statement. For contracts, NIH includes this requirement in 
all R&D solicitations and awards under Section H, Special 
Contract Requirements, in accordance with the Uniform 
Contract Format.
A1.1.3 The Irish Research Council for 
Science, Engineering & Technology 
(IRCSET)166
[This is an example of a Type 1 policy] 
THE IRISH RESEARCH COUNCIL FOR SCIENCE, 
ENGINEERING & TECHNOLOGY 
STATEMENT OF POLICY RELATING TO: THE OPEN 
ACCESS REPOSITORY OF PUBLISHED RESEARCH 
PAPERS 
The Irish Research Council for Science, Engineering & 
Technology (IRCSET) has established and will promote 
the following policy relating to the placement of research 
publications in Open Access Repositories.
Where a research publication arises in whole or in part 
from IRCSET funded research (i.e. where one or other of the 
researchers concerned receives IRCSET funds in support of 
their endeavours), the following policy will be adhered to with 
effect from 1st May 2008.
166 http://www.ircset.ie/Default.aspx?tabid=102 
THE FOLLOWING IS APPLICABLE TO IRCSET FUNDED 
RESEARCHERS
The IRCSET policy is adopted on the following key 
principles: 
The intellectual effectiveness and progress of the widespread 
research community may be continually enhanced where 
the community has access and recourse to as wide a range of 
shared knowledge and findings as possible. This is particularly 
the case in the realm of publicly funded research where there 
is a need to ensure the advancement of scientific research 
and innovation in the interests of society and the economy, 
without unnecessary duplication of research effort.
1. This publication policy confirms the freedom of 
researchers to publish first wherever they feel is the most 
appropriate.
2. The effect of the policy is intended to increase the visibility 
of, and improve access to, the research funded by IRCSET 
and the State, where such research is intended to be 
published by the researcher(s) concerned.
3. The policy is based on recognised best practice. It is in 
keeping with the recommendations of the European 
Research Advisory Board (EURAB) Policy in relation 
to scientific publication. It is also in keeping with the 
combined OECD Ministers’ Declaration entrusting the 
OECD to work towards commonly agreed Principles 
and Guidelines on Access to Research Data from Public 
Funding.
Conditions to which IRCSET funded Award Recipients 
should adhere:
1 All researchers must lodge their publications resulting in 
whole or in part from IRCSET-funded research in an open 
access repository as soon as is practical, but within six 
calendar months at the latest.
2. The repository should ideally be a local institutional 
repository to which the appropriate rights must be 
granted to replicate to other repositories.
3. Authors should deposit post-prints (or publisher’s version 
if permitted) plus metadata of articles accepted for 
publication in peer-reviewed journals and international 
conference proceedings;
4. Deposit should be made upon acceptance by the journal/
conference. Repositories should release the metadata 
immediately, with access restrictions to full text article to 
be applied as required. Open access should be available as 
soon as practicable after the author-requested embargo, 
or six month, whichever comes first;
64
5. Suitable repositories should make provision for long-
term preservation of, and free public access to, published 
research findings.
6. IRCSET may augment or amend the above requirements 
wherever necessary to ensure best practice in Open Access.
How does Open Access work?
An Open Access Repository is a storage and retrieval system 
where published research findings and papers would be 
stored and made available for full, open and free access by the 
research community and the general public.
A number of Irish universities currently provide open access 
repositories of their own and a consortium of Irish universities 
is engaged in the development of a national open access 
repository system, i.e., connecting the repositories of each 
participating institution for fuller public accessibility.
In an Open Access Repository system, the usual copyright and 
fair practice considerations are not waived and publication 
on Open Access does not preclude prior publication in a 
recognised research journal or commercial publication.
Making scholarly publications available on “Open Access” 
allows them to be freely accessed by anyone in the world 
using an internet connection. The potential readership of 
Open Access material is far greater than that for publications 
where the full-text is restricted to subscribers only. Open Access 
repositories are also designed to expose the details of their 
contents to specialised web search engines.
A1.2 Institutional policies
A1.2.1 The University of Liège (Belgium)167
[This is an example of a Type 1 policy]
[By the rector, Professor Bernard Rentier]
The policy is mandatory: the Immediate-Deposit/Optional-
Access (ID/OA) mandate168 
1. All publications must be deposited. 
2. Wherever publisher agreement conditions are fulfilled, 
the author will authorize setting access to the deposit 
as open access 
3. By default, access to a deposit will be closed access, 
except where open access has been authorised.  
167 http://orbi.ulg.ac.be/files/extrait_moniteur_CA.pdf 
168 http://openaccess.eprints.org/index.php?/archives/71-guid.html 
In case of doubt, access will remain closed to avoid any 
conflict with publisher agreement conditions 
4. For closed access deposits, the institutional repository 
http://orbi.ulg.ac.be/ will have an EMAIL EPRINT 
REQUEST BUTTON which allows the author to fulfill 
individual eprint requests169. 
November 26, 2008 (message from Rector to faculty): 
The increase in international visibility of the ULg 
[Universitée Liège] and its researchers, mainly through 
their publications, as well as the support for the worldwide 
development of an open and free access to scientific 
works (Open Access) are two essential objectives at the 
heart of my action, as you probably know. 
At my request, the Institutional Repository “ORBi” (Open 
Repository & Bibliography) has been set up at the ULg by 
the Libraries Network to meet these objectives. 
[i] The experimental encoding phase based on 
volunteerism being now successfully completed, we 
can step forward and enter the “production phase” 
this Wednesday November 26th, 2008. I take this 
opportunity to thank all the professors and researchers 
who have already filed in ORBi hundreds of their 
references, 70% of them with the full text. Thanks to 
their patience, ORBi’s fine tuning could be achieved. 
From today onward, it is incumbent upon each ULg 
member to feed ORBi with his/her own references. In this 
respect, the Administrative Board of the University has 
decided to make it mandatory for all ULg members: 
– to deposit the bibliographic references of ALL their 
publications since 2002; 
– to deposit the full text of ALL their articles published in 
periodicals since 2002. 
Access to these full texts will only be granted with the 
author’s consent and according to the rules applicable to 
author’s rights and copyrights. The University is indeed 
very keen on respecting the rights of all stakeholders.
[ii] For future publications, deposit in ORBi will be 
mandatory as soon as the article is accepted by the 
editor. 
[iii] I wish to remind you that, as announced a year 
ago in March 2007, starting October 1st, 2009, only 
those references introduced in ORBi will be taken 
into consideration as the official list of publications 
accompanying any curriculum vitae for all evaluation 
169 http://openaccess.eprints.org/index.php?/archives/274-guid.html 
65
procedures ‘in house’ (designations, promotions, grant 
applications, etc.). 
Information seminars have been planned during the 
next months to allow every one of you to make the tool 
your own thing. Help is also accessible online, such as the 
simplified user’s guide (also available as a leaflet) and the 
Depositor’s Guide. 
The development of ORBi offers multiple advantages not 
only to the Institution, but also to the researchers and their 
teams, such as:
– a considerable speeding up of the dissemination and 
visibility of the scientific works (as soon as publication 
approval is granted; 
– a considerable increase in visibility for the published 
works through referencing in the main search engines 
(Google Scholar, OAI meta-engines, etc.); 
– centralised and perennial conservation of publications 
allowing multiple exploitation possibilities (integration 
in personal web pages, in institutional web pages, 
export of reference lists towards other applications and 
to funding organisations such as the Belgian National 
Fund for Scientific Research); - etc.
I hope that, despite the time you are going to devote 
to this somewhat tedious task, you will soon realise the 
benefits of this institutional policy.
A1.2.2 University of Pretoria (South 
Africa)170
[This is an example of a Type 1 policy] 
To assist the University of Pretoria in providing open access 
to scholarly articles resulting from research done at the 
University, supported by public funding, staff and students 
are required to:
– submit peer-reviewed postprints + the metadata of 
their articles to UPSpace, the University’s institutional 
repository, AND -- give the University permission 
to make the content freely available and to take 
necessary steps to preserve files in perpetuity. 
Postprints are to be submitted immediately upon 
acceptance for publication. 
The University of Pretoria requires its researchers to 
comply with the policies of research funders such as the 
Wellcome Trust with regard to open access archiving. 
Postprints of these articles are not excluded from the UP 
170 http://roarmap.eprints.org/137/ 
mandate and should first be submitted as described in (1). 
Information on funders’ policies is available at http://www.
sherpa.ac.uk/juliet/. 
Access to the full text of articles will be subject to 
publisher permissions. Access will not be provided if 
permission is in doubt or not available. In such cases, 
an abstract will be made available for external internet 
searches to achieve maximum research visibility. Access 
to the full text will be suppressed for a period if such an 
embargo is prescribed by the publisher or funder. 
The Open Scholarship Office will take responsibility for 
Adhering to archiving policies of publishers and research 
funders, and managing the system’s embargo facility to 
delay public visibility to meet their requirements. 
The University of Pretoria strongly recommends 
that transfer of copyright be avoided. Researchers are 
encouraged to negotiate copyright terms with publishers 
when the publisher does not allow archiving, reuse and 
sharing. This can be done by adding the official UP author 
addendum to a publishing contract. 
The University of Pretoria encourages its authors to 
publish their research articles in open access journals that 
are accredited.
A1.2.3 Harvard University (USA)171
[This is an example of a Type 2a policy]
[by Professor Stuart Shieber, Office of Scholarly 
Communication]
The following is a model open-access policy in the 
Harvard style — with a freely waivable rights-retaining 
license and a deposit requirement. This language is based 
on and informed by the policies voted by several Harvard 
faculties, as well as MIT, Stanford University School of 
Education, Duke University, and others. I have added some 
annotations explaining why the wording is chosen as it is. 
Further information explaining the motivation for and 
implementation of the Harvard open-access policies is 
available at the web site of Harvard’s Office for Scholarly 
Communication (http://osc.hul.harvard.edu/). Inquiries 
about the policy and this model language can be made to 
osc@hulmail.harvard.edu. 
This document will be updated over time as further 
refinements are made to the policy. This is revision 1.7 of 
April 17, 2010, 00:57:25. 
171 Written by Stuart Shieber. Original document at http://osc.hul.harvard.edu/
sites/default/files/model-policy-annotated_0.pdf 
66
1 The Faculty of <university name> is committed to 
disseminating the fruits of its
2  research and scholarship as widely as possible. In 
keeping with that commitment, 
3  the Faculty adopts the following policy: Each Faculty 
member grants to <university 
4  name > permission to make available his or her 
scholarly articles and to exercise
5  the copyright in those articles. More specifically, each 
Faculty member grants to 
6  <university name> a nonexclusive, irrevocable, 
worldwide license to exercise any 
7  and all rights under copyright relating to each of his or 
her scholarly articles, in any 
8  medium, provided that the articles are not sold for a 
profit, and to authorize others 
9  to do the same. The policy applies to all scholarly 
articles authored or co-authored 
10  while the person is a member of the Faculty except for 
any articles completed 
11  before the adoption of this policy and any articles for 
which the Faculty member 
12  entered into an incompatible licensing or assignment 
agreement before the adop- 
13  tion of this policy. The Provost or Provost’s designate 
will waive application of the 
14 license for a particular article or delay access for a 
specified period of time upon 
15 express direction by a Faculty member. 
16 Each Faculty member will provide an electronic copy 
of the author ’s final 
17  version of each article no later than the date of its 
publication at no charge to the 
18 appropriate representative of the Provost’s Office in an 
appropriate format (such 
19 as PDF) specified by the Provost’s Office. 
20 The Provost’s Office may make the article available to 
the public in an open- 
21 access repository. The Office of the Provost will be 
responsible for interpreting this 
22 policy, resolving disputes concerning its interpretation 
and application, and rec- 
23 ommending changes to the Faculty from time to time. 
The policy will be reviewed 
24 after three years and a report presented to the Faculty. 
EXPLANATORY NOTES
line 1, disseminating the fruits of its research and 
scholarship as widely as possible: The intention of the 
policy is to promote the broadest possible access to the 
university’s research. The preamble emphasizes that the 
issue is access, not finances.
line 3, grants: The wording here is crucial. The policy 
causes the grant of the license directly. An alternative 
wording, such as “each faculty member shall grant”, places 
a requirement on faculty members, but does not actually 
cause the grant itself. 
line 4, scholarly articles: The scope of the policy is 
scholarly articles. What constitutes a scholarly article is 
purposefully left vague. Clearly falling within the scope 
of the term are (using terms from the Budapest Open 
Access Initiative) articles that describe the fruits of scholars’ 
research and that they give to the world for the sake of 
inquiry and knowledge without expectation of payment. 
Such articles are typically presented in peer-reviewed 
scholarly journals and conference proceedings. Clearly 
falling outside of the scope are a wide variety of other 
scholarly writings such as books and commissioned 
articles, as well as popular writings, fiction and poetry, 
and pedagogical materials (lecture notes, lecture videos, 
case studies). Often, faculty express concern that the term 
is not (and cannot be) precisely defined. The concern is 
typically about whether one or another particular case falls 
within the scope of the term or not. However, the exact 
delineation of every case is neither possible nor necessary. 
In particular, if the concern is that a particular article 
inappropriately falls within the purview of the policy, a 
waiver can always be obtained. 
line 5, grants: Again, not “shall grant”. 
line 6, exercise any and all rights under copyright: The 
license is quite broad, for two reasons. First, the breadth 
allows flexibility in using the articles. Since new uses of 
scholarly articles are always being invented — text mining 
uses being a prime example — retaining a broad set of 
rights maximizes the flexibility in using the materials. 
Second, a broad set of rights allows the university to grant 
back to an author these rights providing an alternative 
method for acquiring them rather than requesting them 
67
from a publisher. Even though the university is being 
allowed to exercise a broad set of rights, it is not required 
to exercise them. Universities are free to set up policies 
about which rights it will use and how, for instance, in 
making blanket agreements with publishers. For example, 
a university may agree to certain restrictions on its 
behavior in return for a publisher ’s acknowledgement of 
the prior license and agreement not to require addenda or 
waivers. Harvard has provided a model agreement of this 
type as well: http://osc.hul.harvard.edu/docs/model- pub- 
agreement- 090430.pdf . 
line 8, not sold for a profit: This term may be preferable 
to the vaguer term “noncommercial”. The intention is to 
allow uses that involve recouping of direct costs, such 
as use in coursepacks for which photocopying costs are 
recovered. Given that open access availability allows 
seamless distribution using a medium with essentially 
zero marginal cost, even this level of commercial activity 
may not be needed. Indeed, Harvard has stipulated in 
agreements with publishers that it will refrain even from 
cost-recouping sales: “When Harvard displays or distributes 
the Article, Harvard will not charge for it and will not sell 
advertising on the same page without permission of 
Publisher. Even charges that merely recoup reproduction 
or other costs, and involve no profit, will be forbidden.” 
Allowing cost recovery does provide an additional set of 
rights that can be negotiated in this way. Alternatively, the 
policy can eschew all sales if deemed preferable, in which 
case, the phrase “for a profit” can be dropped. 
line 8, authorize others: The transferability provision 
allows the university to authorize others to make use of 
the articles. For instance, researchers can be authorized to 
use the articles for data mining. Importantly, the original 
authors themselves can be authorized to make use of their 
articles, for instance, to legally distribute their articles from 
their own web sites (as they often do illicitly now), to use 
them for their classes, to develop derivative works, and the 
like. 
line 9, do the same: This ordering of phraseology, 
introduced in the MIT policy, makes clear that 
thetransferability provision applies both to the retained 
rights and the noncommercial limitation. 
line 10, articles completed before the adoption: 
Application of the license retroactively is problematic, 
and in any case suspect. This clause makes clear that the 
license applies only prospectively. 
line 13, Provost: The model language is envisioned 
as a university policy, where the university academic 
arrangements are overseen by a Provost. For a school-wide 
policy within a university, with oversight by a Dean, some 
occurrences of “Provost” may be replaced by “Dean” where 
appropriate, as was done in the Harvard policies. 
line 13, will waive: Not “may waive”. The waiver is at the 
sole discretion of the author. This broad waiver policy is 
important for the palatibility of the policy. It is perhaps the 
most important aspect of this approach to open-access 
policies. The ability to waive the license means that the 
policy is not a mandate for rights retention, but merely a 
change in the default rights retention from opt-in to opt-
out. Many of the concerns that faculty have about such 
policies are assuaged by this broad waiver. These include 
concerns about academic freedom, unintended effects on 
junior faculty, principled libertarian objections, freedom 
to accommodate publisher policies, and the like. Some 
may think that the policy would be “stronger ” without 
the broad waiver provision, for instance, if waivers were 
vetted on some basis or other. In fact, regardless of what 
restrictions are made on waivers (including eliminating 
them entirely) there is always a de facto possibility of 
a waiver by virtue of individual faculty member action 
demanding an exception to the policy. It is far better to 
build a safety valve into the policy, and offer the solution 
in advance, than to offer the same solution only under the 
pressure of a morale-draining confrontation in which one 
or more piqued faculty members demand an exception to 
a putatively exceptionless policy. 
line 14, license: The waiver applies to the license, not 
the policy as a whole. The distinction is not crucial in a 
pragmatic sense, as it is generally the license that leads to 
waiver requests, not the deposit aspect of the policy, and 
in any case, an author has a de facto waiver possibility for 
the deposit aspect by merely refraining from making a 
manuscript available. Nonetheless, if it is possible to use 
this more limited formulation, it is preferable in reinforcing 
the idea that all articles should be deposited, whether or 
not a waiver is granted and whether or not they can be 
distributed. 
line 14, delay access: Duke University pioneered the 
incorporation of an author-directed embargo period for 
particular articles as a way of adhering to publisher wishes 
without requiring a full waiver. This allows the full range of 
rights to be taken advantage of after the embargo period 
ends, rather than having to fall back on what the publisher 
may happen to allow. Since this is still an opt-out option, it 
does not materially weaken the policy. An explicit mention 
of embargoes in this way may appeal to faculty members 
as an acknowledgement of the prevalence of embargoes 
in journals they are familiar with. 
68
line 15, express: An author must direct that a waiver 
be granted in a concrete way, but the term “express” is 
preferred to “written” in allowing, e.g., use of a web form for 
directing a waiver. 
line 15, direction: This term replaced an earlier term 
“request” so as to make clear that the request cannot be 
denied. 
line 16, author ’s final version: The author ’s final version—
the version after the article has gone through peer review 
and the revisions responsive thereto and any further 
copyediting in which the author has participated—is the 
appropriate version to request for distribution. Authors 
may legitimately not want to provide versions earlier than 
the final version, and insofar as there are additional rights 
in the publisher ’s definitive version beyond the author ’s 
final version, that version would not fall within the license 
that the author grants.
line 17, no later than the date of its publication: 
The distribution of articles pursuant to this policy is 
not intended to preempt journal publication but to 
supplement it. This also makes the policy consistent with 
the small set of journals that still follow the Ingelfinger 
rule. An alternative is to require submission at the 
time of acceptance for publication, with a statement 
that distribution can be postponed until the date of 
publication. 
line 23, reviewed: Specifying a review makes clear that 
there will be a clear opportunity for adjusting the policy in 
light of any problems that may arise.
A1.2.4 Strathmore University (Kenya)172
[This is an example of a Type 2a policy]
Strathmore University is committed to disseminating the 
fruits of its research and scholarship as widely as possible. 
In keeping with that commitment, the University adopts 
the following policy: Each University member grants to 
the Vice Chancellor and Academic council of Strathmore 
University permission to make available his or her scholarly 
articles and to exercise the copyright in those articles. 
More specifically, each Faculty member grants to the Vice 
Chancellor and Academic council of Strathmore University 
a nonexclusive, irrevocable, worldwide license to exercise 
any and all rights under copyright relating to each of his 
or her scholarly articles, in any medium, and to authorize 
others to do the same, provided that the articles are not 
sold for a profit. 
172 http://roarmap.eprints.org/344/ 
The policy will apply to all scholarly articles authored 
or co-authored while the person is a member of the 
University except for any articles completed before the 
adoption of this policy and any articles for which the 
Faculty member entered into an incompatible licensing or 
assignment agreement before the adoption of this policy. 
The Vice Chancellor or the Vice Chancellor’s designate 
will waive application of the policy to a particular article 
upon written request by a Faculty member explaining 
the need. Each Faculty member will provide an electronic 
copy of the final version of the article at no charge to 
the appropriate representative of the Vice Chancellor’s 
Office in an appropriate format (such as PDF) specified 
by the Vice Chancellor’s Office no later than the date of 
its publication. The Vice Chancellor’s Office may make the 
article available to the public in an open-access repository. 
The Office of the Director of research will be responsible 
for interpreting this policy, resolving disputes concerning 
its interpretation and application, and recommending 
changes to the University from time to time. The policy 
will be reviewed after three years and a report presented 
to the Academic Council.
A1.2.5 Queensland University of 
Technology (Australia)173
[This is an example of a Type 2b policy]
Material which represents the total publicly available 
research and scholarly output of the University is to be 
located in the QUT ePrints institutional repository, subject 
to the exclusions noted below. In this way it contributes 
to a growing international corpus of refereed and other 
research literature available on open access, a process 
occurring in universities worldwide.
The following materials must be included in QUT ePrints
 ◾ refereed research articles and conference papers 
(author’s accepted manuscript) at the post-peer review 
stage
 ◾ digital theses submitted by research higher degree 
candidates via the Research Students Centre (see 
F/1.10 Library treatment of theses).
The following materials may be included in QUT ePrints
 ◾ refereed research articles and conference papers 
(authors’ submitted manuscript) with corrigenda 
added following peer review if necessary
 ◾ books and book chapters
173 http://www.mopp.qut.edu.au/F/F_01_03.jsp#F_01_03.02.mdoc 
69
 ◾ un-refereed research literature, conference 
contributions, chapters in proceedings (the accepted 
draft)
 ◾ creative works with a research component
 ◾ descriptions of research data and datasets.
Materials to be commercialised, or which contain 
confidential material, or where the promulgation would 
infringe a legal commitment by the University and/or 
the author, will not be included in QUT ePrints. Materials 
will be organised in QUT ePrints according to the same 
categories used for the reporting of research to DIISR (see 
Office of Research website ).
QUT’s preference is to make materials available at the time 
of publication. Requests for embargos of more than twelve 
months must be referred to the Deputy Vice-Chancellor 
(Technology, Information and Learning Support). 
A1.2.6 University of Southampton  
(United Kingdom)174
[This is an example of a Type 4 policy]
1. Position statement
1. The University of Southampton requires that all 
of its staff deposit bibliographic information for 
all research outputs in the Eprints Soton research 
repository, so there is a comprehensive institutional 
record of research activity.
2. The University requires that post-prints of journal 
and conference articles are deposited, and made 
open access where this is permitted by the 
publisher, to maximise the visibility and impact of 
research.
2. Policy
2.1 Deposit of research outputs
Staff are required to deposit the bibliographic metadata 
of all forms of published output in the Eprints Soton 
research repository.
Staff are required to deposit the final, refereed, corrected, 
accepted drafts (post-prints) of all peer-reviewed journal 
articles and peer-reviewed conference articles.
Staff are encouraged to deposit, subject to any publishers’ 
restrictions, the following forms of research output:
174 http://www.soton.ac.uk/library/research/eprints/policies/oapolicy.html 
1. “pre-print” pre-refereed drafts of articles where this will 
not limit future publication opportunities
2. post publication updates and corrections
3. research data-sets on which the articles are based
4. conference and workshop papers
5. books, book chapters, monographs, reports and 
working papers
6. image, video and audio representations of creative 
works
2.2 Open access to research and external compliance
It is a requirement to make the post-prints of journal and 
conference articles open access where this is permitted 
by the publisher. In all cases repository staff will work with 
authors and depositors to ensure that the requirements of 
publishers, funding councils and commercial sponsors are 
met. If an embargo period is needed the output can be 
stored in the repository and set for public release on the 
appropriate date.
2.3 Use of research outputs for research 
assessment
The deposited records and outputs may be used for:
 ◾ internal review of research performance and to assist in 
appraisals and promotions within the University
 ◾ modelling profiles and submitting information 
for external review e.g. the Research Excellence 
Framework
Any additional contextual information stored will be 
subject to appropriate levels of restricted access.
A1.2.7 Hong Kong Polytechnic University 
(China)175
[This is an example of a Type 4 policy]
Starting from September 2010, PolyU adopts the following 
Policy in Support of Open Access to Published Research: 
PolyU academic and researchers are required to deposit 
electronic copies of their peer-reviewed journal articles 
and conference proceedings (author’s final accepted 
manuscript) in the PolyU Institutional Repository for open 
access, as of the date of paper publication. Full text of 
other research outputs should also be deposited where 
appropriate.
175 http://www.polyu.edu.hk/ro/newRO415.html 
70
PolyU authors will provide to the University Library copies 
of their work and the University Library will determine 
publisher agreements permit deposit in institutional 
repositories for public access. PolyU IR staff will check 
publishers’ copyright agreements to ensure that the 
deposits are permitted.
71
APPENDIX 2. Model policies for 
institutions, funders and governments
T his section provides model policy wordings that can be adapted and used by institutions, funders and national 
governments. There are two variants, following 
the typology in section 8. The first is Type 1 
(immediate deposit with no waiver) and the 
other is Type 2 (rights-retention with a waiver).
A2.1 Type 1: immediate deposit, no waiver 
(“Liège-style” policy)
This type of policy applies where the policy-maker 
does not already, and does not wish to, acquire the 
rights to the work covered by the policy. The policy 
leaves the rights where they already reside – that is, 
either with the author or with the publisher. In the 
latter case, publisher permissions must be respected, 
entailing provision in the policy for an embargo 
period. The policy requires the metadata to be visible 
from the time of deposit so that would-be users can 
discover the existence of the article and request a copy 
from the author.
[Institution/funder/government] expects the authors of 
papers reporting publicly-funded research to maximise 
the accessibility, usage and applications of their findings. 
To this end: 
[Institution/funder/government] 
(1) requires electronic copies of any research papers that 
have been accepted for publication in a peer-reviewed 
journal, and are supported in whole or in part by public 
funding, to be deposited into the [institutional/central] 
digital repository immediately upon acceptance for 
publication. 
(2) requires that the metadata (title, authors, institutional 
affiliation, name of journal that has accepted the 
paper) be exposed from the time of deposition of the 
research paper
(3) requires that the full-text be exposed no later than 6 
months after publication of the research paper
(4) encourages authors to retain ownership of the 
copyright of published papers where possible
FAQs 
What are the benefits to researchers of Open Access? 
As authors, researchers benefit because their research 
papers are given a much wider dissemination and can 
be read without restriction by anyone with Internet 
access. This increases the impact of their research. Indeed, 
evidence is accumulating to show that Open Access 
articles are cited 25-250% more than non-open access 
articles from the same journal and year. As readers, 
researchers benefit because they will increasingly be able 
to access and use the full text of all the research published 
in their area, not just the research available to them via the 
subscriptions their institution can afford. 
What are the benefits to [institution/funder/nation]?
First, [name’s] research will be more accessible to global 
researchers, hence better known and more widely used 
and cited. The prestige of high-profile [name] researchers 
will increase; even lesser-known researchers will gain 
more exposure and impact. Second, all [name] research 
will be open to all [name] entrepreneurs and the general 
public with Internet access. This will be beneficial both 
commercially and culturally. Third, access, usage and 
citation data on this research will increasingly become 
available and analysable to help shape researchers’, 
institutions’ and nations’ strategies and policies.
What should be deposited when I have a paper 
ready for publication? 
The final manuscript of the author’s research paper 
should be deposited. This is the author’s own final 
draft, as accepted for journal publication, including all 
modifications resulting from the peer-review process. 
In addition, depositing pre-peer-review preprint drafts 
72
is welcome, if the author desires early priority and peer 
feedback, but this is of course not a requirement. In some 
cases publishers may permit their own published version, 
either in SGML/XML or PDF, to be deposited as well; this 
too is welcome, but not a requirement.
When should papers be deposited? 
An electronic version of the author’s final manuscript 
resulting from research supported, in whole or in part, 
by public [or funder name] funding must be deposited 
immediately upon acceptance for publication. 
Will authors still be able to publish in a journal of 
their choice? 
Authors will of course still decide in which journal they 
choose to publish their research papers. They will merely 
have to ensure that a copy of the final, peer-reviewed 
paper is deposited in their institutional repository 
immediately upon acceptance for publication. 
Does the policy apply to all articles?
The policy applies to all scholarly articles authored or co-
authored while the person is a [member of the Faculty/
grant-holder] except for any articles completed before 
the adoption of this policy and any articles for which the 
Faculty member entered into an incompatible licensing or 
assignment agreement before the adoption of this policy.
A2.2 Type 2: rights-retention policies
A2.2.1 Type 2(a): Voluntary provision of 
rights to the institution / funder/
government by the author, with 
waiver (‘Harvard-style’ policy)
This type of policy applies where the policymaker does 
not already have the rights to the work produced but 
is prepared to acquire from the creators of the work 
sufficient rights to make the work Open Access.
[Institution/funder/government] expects the authors of 
papers reporting publicly-funded research to maximise 
the accessibility, usage and applications of their findings. 
To this end:
Each author grants to [institution/funder/other entity] 
permission to make available his or her scholarly articles 
and to exercise the copyright in those articles. More 
specifically, each author grants to [institution/funder/
government] a nonexclusive, irrevocable, worldwide 
licence to exercise any and all rights under copyright 
relating to each of his or her scholarly articles, in any 
medium, [provided that the articles are not sold for a profit,] 
and to authorise others to do the same. The [institution/
funder/government] may make the article available to the 
public in an Open Access repository. 
The [institution/funder/other entity] or [institution/funder/
other entity] ’s designate will waive application of the 
licence for a particular article or delay access for a specified 
period of time upon express direction by an author. Each 
author will provide an electronic copy of the author ’s 
final version of each article no later than the date of its 
publication at no charge to the appropriate representative 
of the [institution/funder/other entity] in an appropriate 
format specified by the [institution/funder/other entity]. 
FAQs 
What are the benefits to researchers of Open Access? 
As authors, researchers benefit because their research 
papers are given a much wider dissemination and can 
be read without restriction by anyone with Internet 
access. This increases the impact of their research. 
Indeed, evidence is accumulating to show that Open 
Access articles are cited 25-250% more than non-open 
access articles from the same journal and year. As readers, 
researchers benefit because they will increasingly be able 
to access and use the full text of all the research published 
in their area, not just the research available to them via the 
subscriptions their institution can afford. 
What are the benefits to [institution/funder/nation]?
First, [name’s] research will be more accessible to global 
researchers, hence better known and more widely used 
and cited. The prestige of high-profile [name] researchers 
will increase; even lesser-known researchers will gain 
more exposure and impact. Second, all [name] research 
will be open to all [name] entrepreneurs and the general 
public with Internet access. This will be beneficial both 
commercially and culturally. Third, access, usage and 
citation data on this research will increasingly become 
available and analysable to help shape researchers’, 
institutions’ and nations’ strategies and policies.
What should be provided when I have a paper ready 
for publication? 
The final manuscript of the author’s research paper 
should be provided. This is the author’s own final 
draft, as accepted for journal publication, including all 
modifications resulting from the peer-review process. 
In addition, depositing pre-peer-review preprint drafts 
is welcome, if the author desires early priority and peer 
feedback, but this is of course not a requirement. In some 
73
cases publishers may permit their own published version, 
either in SGML/XML or PDF, to be provided as well; this too 
is welcome, but not a requirement.
When should papers be provided? 
An electronic version of the author’s final manuscript 
resulting from research supported, in whole or in part, 
by public [or funder name] funding must be deposited 
immediately upon acceptance for publication. 
Will authors still be able to publish in a journal of 
their choice? 
Authors will of course still decide in which journal they 
choose to publish their research papers. They will merely 
have to ensure that a copy of the final, peer-reviewed 
paper is deposited in their institutional repository 
immediately upon acceptance for publication. 
Does the policy apply to all articles?
The policy applies to all scholarly articles authored or co-
authored while the person is a [member of the Faculty/
grant-holder] except for any articles completed before 
the adoption of this policy and any articles for which the 
Faculty member entered into an incompatible licensing or 
assignment agreement before the adoption of this policy. 
Why do we need non-exclusive rights to your article?
The rights to your article rest with you until you assign 
any or all of them to another party. Under the terms of the 
policy you vest in this institution those rights necessary 
to make the article available on your behalf through the 
repository. Until you vest those rights in the institution, the 
institution cannot act in this way. The institution requires 
only sufficient right to make your work publicly-available: 
the rest of the rights remain with you to do with them 
what you wish, including signing over to a publisher 
the right to publish the work and sell it on your behalf. 
Under this agreement, you are assigning to the institution 
permission to disseminate your work for you, before you 
sign over any rights to third parties.
A2.2.2 Type 2(b): Retention of rights by 
the institution/funder/government 
(‘QUT-style’ policy)
This type of policy applies where the policymaker 
already has the rights to the work produced or is 
prepared to make that the case.
[Institution/funder/government] expects the authors of 
papers reporting publicly-funded research to maximise 
the accessibility, usage and applications of their findings. 
[institution/funder/government] is the owner of copyright 
where the work is created by [staff members/grant-holders] 
in the course of their [employment/research]. 
[institution/funder/government] assigns the right to 
publish scholarly works to the creator(s) of that work. 
The assignment is subject to a perpetual, irrevocable, 
worldwide, royalty-free, non-exclusive licence in favour 
of [institution/funder/government] to allow to use that 
work for teaching and research [and commercialisation] 
purposes and to reproduce and communicate that work 
online for non-commercial purposes via [institution/funder/
government]’s open access digital repository.
The version of the scholarly work that [institution/funder/
government] can make available via the digital repository 
may be the published version (if the publisher agrees) or 
the final post-peer review manuscript version. [institution/
funder/government] will agree to third party publisher-
requested embargoes of 6 months or less (from date 
of publication by the third party publisher) on the 
publication of the manuscript via the digital repository.
Any subsequent publication agreement or assignment 
of the right to publish the scholarly work entered into by 
the creator will be subject to the terms of the pre-existing 
non-exclusive licence referred to here. 
If required, [institution/funder/government] will sign 
documents to more fully record the author’s ownership 
of the right of publication of the copyright in a scholarly 
work and [institution/funder/other entity]’s non-exclusive 
licence to that work. 
FAQs 
What are the benefits to researchers of Open Access? 
As authors, researchers benefit because their research 
papers are given a much wider dissemination and can 
be read without restriction by anyone with Internet 
access. This increases the impact of their research. Indeed, 
evidence is accumulating to show that Open Access 
articles are cited 25-250% more than non-open access 
articles from the same journal and year. As readers, 
researchers benefit because they will increasingly be able 
to access and use the full text of all the research published 
in their area, not just the research available to them via the 
subscriptions their institution can afford. 
What are the benefits to [institution/funder/nation]?
First, [name’s] research will be more accessible to global 
researchers, hence better known and more widely used 
and cited. The prestige of high-profile [name] researchers 
will increase; even lesser-known researchers will gain 
74
more exposure and impact. Second, all [name] research 
will be open to all [name] entrepreneurs and the general 
public with Internet access. This will be beneficial both 
commercially and culturally. Third, access, usage and 
citation data on this research will increasingly become 
available and analysable to help shape researchers’, 
institutions’ and nations’ strategies and policies.
What should be provided when I have a paper ready 
for publication? 
The final manuscript of the author’s research paper 
should be provided. This is the author’s own final 
draft, as accepted for journal publication, including all 
modifications resulting from the peer-review process. 
In addition, depositing pre-peer-review preprint drafts 
is welcome, if the author desires early priority and peer 
feedback, but this is of course not a requirement. In some 
cases publishers may permit their own published version, 
either in SGML/XML or PDF, to be provided as well; this too 
is welcome, but not a requirement.
When should papers be provided? 
An electronic version of the author’s final manuscript 
resulting from research supported, in whole or in part, 
by public [or funder name] funding must be deposited 
immediately upon acceptance for publication. 
Will authors still be able to publish in a journal of 
their choice? 
Authors will of course still decide in which journal they 
choose to publish their research papers. They will merely 
have to ensure that a copy of the final, peer-reviewed 
paper is deposited in their institutional repository 
immediately upon acceptance for publication. 
Does the policy apply to all articles?
The policy applies to all scholarly articles authored or co-
authored while the person is a [member of the Faculty/
grant-holder] except for any articles completed before 
the adoption of this policy and any articles for which the 
Faculty member entered into an incompatible licensing or 
assignment agreement before the adoption of this policy. 
Why do we need non-exclusive rights to your article?
The rights to your article rest with you until you assign 
any or all of them to another party. Under the terms of the 
policy you vest in this institution those rights necessary 
to make the article available on your behalf through the 
repository. Until you vest those rights in the institution, the 
institution cannot act in this way. The institution requires 
only sufficient right to make your work publicly-available: 
the rest of the rights remain with you to do with them 
what you wish, including signing over to a publisher 
the right to publish the work and sell it on your behalf. 
Under this agreement, you are assigning to the institution 
permission to disseminate your work for you, before you 
sign over any rights to third parties.
75
POLICY GUIDELINES FOR THE 
DEVELOPMENT AND PROMOTION OF 
OPEN ACCESS
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questions.
1. Please rate (by tick ) the following statements using the five-point scale below and comment on your 
rating to justify.
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Statements SA A U D SD
In general, the publication is useful.
    
Comments:
The contents of the publication are organized in a helpful sequence.
    
Comments:
The concepts and ideas discussed are relevant and practical.
    
Comments:
The policy guidelines given are appropriate.
    
Comments:
The publication is written in a readable language and style.
    
Comments:
The publication met my expectations.
    
Comments:
I can apply the strategies discussed in this publication.
    
Comments:
The publication helped me to think about Open Access to scientific information 
and research.
    
Comments:
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76
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“Through Open Access, researchers and students from around the world gain 
increased access to knowledge, publications receive greater visibility and 
readership, and the potential impact of research is heightened. Increased access 
to, and sharing of knowledge leads to opportunities for equitable economic 
and social development, intercultural dialogue, and has the potential to spark 
innovation. The UNESCO Open Access strategy approved by the Executive Board 
in its 187th session and further adopted by the 36th General Conference identified 
up-stream policy advice to Member States in the field of Open Access as the core 
priority area amongst others.”
Jānis Kārkliņš,  
Assistant Director-General   
for Communication and Information,  
UNESCO
9 789230 010522
Communication and 
Information Sector
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