Scientific scholarly communication : the changing landscape
Author(s)
Bibliographic Information
Scientific scholarly communication : the changing landscape
(Fascinating life sciences)
Springer, c2017
Available at 2 libraries
  Aomori
  Iwate
  Miyagi
  Akita
  Yamagata
  Fukushima
  Ibaraki
  Tochigi
  Gunma
  Saitama
  Chiba
  Tokyo
  Kanagawa
  Niigata
  Toyama
  Ishikawa
  Fukui
  Yamanashi
  Nagano
  Gifu
  Shizuoka
  Aichi
  Mie
  Shiga
  Kyoto
  Osaka
  Hyogo
  Nara
  Wakayama
  Tottori
  Shimane
  Okayama
  Hiroshima
  Yamaguchi
  Tokushima
  Kagawa
  Ehime
  Kochi
  Fukuoka
  Saga
  Nagasaki
  Kumamoto
  Oita
  Miyazaki
  Kagoshima
  Okinawa
  Korea
  China
  Thailand
  United Kingdom
  Germany
  Switzerland
  France
  Belgium
  Netherlands
  Sweden
  Norway
  United States of America
Note
Includes bibliographical references and index
Description and Table of Contents
Description
This book critically examines the historical developments and current trends in the scientific scholarly communication system, issues and challenges in scientific scholarly publishing and scientific data sharing, implications and debates associated with the influence of intellectual property rights on scientific information sharing, and new trends related to peer reviewing and measuring the impact of scientific publications. Based on thorough examination of published literature, the book illustrates the involvement of many stakeholders-scientists, science educators, university administrators, government entities, research funders, and other interested parties-in this complex and dynamic system. The discussion highlights the roles these stakeholders have to play, individually and collaboratively, to help transform the future of the scientific scholarly communication system.
Table of Contents
1 Scientific Scholarly Communication: Moving Forward Through Open Discussions1.1 Introduction1.2 Open and Unrestricted Access to Scientific Information 1.2.1 Concerns with Openly Sharing Sensitive Scientific Information 1.3 Sharing Scientific Data1.3.1 Privacy and Genetic Data Sharing1.4 Intellectual Property Rights and Scientific Scholarly Communication1.4.1 Impact of IPR on Sharing Data1.5 Measuring the Impact of Scientific Research1.6 Concluding Remarks1.7 References
2 Access to Scientific Knowledge: A Historical Perspective2.1 Introduction2.2 Scientific Scholarly Information Sharing: 1600 -19002.3 Scholarly Communication Developments in the 20th and the 21st Centuries2.4 Journal Subscription Debates2.5 Concluding Remarks2.6 References
3 On the Road to Unrestricted Access to Scientific Information: The Open Access Movement3.1 Introduction3.2 Open Access to Scholarly Publications: Legislative and Other Supporting Initiatives3.3 Initiatives by Scholars, Research Funders, and Other 'Movers'3.4 Measuring the Impact of OA Journals3.5 OA Influence in the Developing World3.6 OA Publishing Models 3.6.1 Green OA Model3.6.2 Gold OA Model3.6.3 Other OA Models3.7 Maintaining the Quality and Integrity of OA Journals3.8 Concluding Remarks3.9 References
4 Sharing Scientific Data: Moving Towards "Open Data?"4.1 Introduction4.2 Policy Initiatives Supporting Data Sharing4.3 Involvement of Funding Organizations and Journal Publishers4.4 Data Sharing Habits of Scientists4.5 Data Sharing in Different Scientific Disciplines4.5.1 Sharing Ecological Data4.5.2 Sharing Genomic Data4.6 Data Publication and Data Citation4.7 Moving Towards "Open Data"4.8 Concluding Remarks4.9 References
5 Free Flow of Scientific Information vs. Intellectual Property Rights5.1 Introduction5.2 University-Industry Collaborations or Commercialization of Academic Research?5.2.1 Patenting and Licensing Academic Scientific Discoveries - Government Legislations5.2.2 IPR and Academic Research - The Debate5.2.3 Negative Effects of Patenting Scientific Research5.2.4 Patent Documents as Source of Scientific Information5.2.5 Delay in Disclosure of Research Findings5.3 IPR in Life Sciences5.3.1 IPR and Biomedical Research5.3.2 IPR and Biotechnological Advances in Agriculture5.4 Concluding Remarks5.5 References
6 Preserving the Quality of Scientific Research: Peer Review of Research Articles6.1 Introduction6.2 History of Peer Review6.3 Criticism of the Peer Review6.4 Bias in Peer Review6.4.1 Prestige or Association Bias6.4.2 Gender Bias6.4.3 Confirmation Bias6.4.4 Conservatism6.4.5 Bias against Interdisciplinary Research6.4.6 Publication Bias6.5 Peer Review and Conflict of Interest6.6 Different Models of Peer Review6.6.1 Closed Peer Review: Single- vs. Double-Blind6.6.2 Open Peer Review6.6.3 "Non-Selective" Review6.6.4 Immediate Publication With No Formal Review6.7 Manipulation of the Peer Review Process6.8 Should the Current System of Peer Review Be Continued?6.9 The Peer Review System is Under Stress6.10 Burden on Peer Reviewers6.11 Ways to Improve the Peer Review System6.11.1 Training Peer Reviewers6.11.2 Ethical Standards for Authors, Reviewers and Editors6.12 Concluding Remarks6.13 References
7 Measuring the Impact of Scientific Research7.1 Introduction7.2 Citation Data as a Tool to Measure the Impact of Scientific Scholarly Articles7.3 Impact Factor to Measure Quality of Journals7.3.1 Strengths of Impact Factor in Measuring Journal Quality7.3.2 Limitations of Impact Factor in Measuring Journal Quality7.3.3 Ability to Manipulate Journal Impact Factor7.3.4 Issues with Discipline-Specific Journal Impact Factor Variations7.4 Need for Other Indicators to Measure the Journal Quality7.4.1 Eigenfactor Score7.4.2 SCImago Journal Rank7.4.3 Comparison of Eigenfactor Score, SCImago Journal Rank, and Journal Impact Factor7.5 Measuring the Impact of Individual Scientists or Groups of Scientists7.5.1 Hirsch Index (h-Index) and its Variants7.6 Concluding Remarks7.7 Reference
8 Assessing the Societal Impact of Scientific Research
8.1 Introduction8.2 Challenges in Defining Societal Benefits8.3 Research Assessment Strategies of Government Agencies in Different Countries 8.4 Societal Impact Assessment Indicators8.4.1 Alternative Metrics to Measure Societal Impact8.4.2 Strengths and Limitations of Altmetrics as Scientific Research Assessment Tools8.4.3 Altmetrics as Discovery Tools8.4.4 Improving Standards and Credibility of Altmetrics8.4.5 Association between Altmetrics and Traditional Citation Metrics8.4.7 Science Blogging, Microblogging, and Citation Counts8.5 Conclusion Remarks8.6 References
9 Final Thoughts: Scientific Scholarly Communication - The March Forward
Index
by "Nielsen BookData"