Open Science Knowledge Production: Addressing Epistemological Challenges and Ethical Implications

Author : Bjørn Hofmann

Open Science (OS) is envisioned to have a wide range of benefits including being more transparent, shared, accessible, and collaboratively developed than traditional science. Despite great enthusiasm, there are also several challenges with OS.

In order to ensure that OS obtains its benefits, these challenges need to be addressed. Accordingly, the objective of this study is to provide an overview of one type of challenge, i.e., epistemological challenges with OS knowledge production, and their ethical implications.

Based on a literature review, it (a) reveals factors undermining the envisioned benefits of OS, (b) identifies negative effects on knowledge production, and (c) exposes epistemological challenges with the various phases of the OS process.

The main epistemic challenges are related to governance, framing, looping effects, proper data procurement, validation, replication, bias, and polarization. The ethical implications are injustice, reduced benefit (efficiency), increased harm (as a consequence of poor-quality science), deception and manipulation (reduced autonomy), and lack of trustworthiness.

Accordingly, to obtain the envisioned benefits of OS, we need to address these epistemological challenges and their ethical implications.

URL : Open Science Knowledge Production: Addressing Epistemological Challenges and Ethical Implications

DOI : https://doi.org/10.3390/publications10030024

Research Integrity Among PhD Students at the Faculty of Medicine: A Comparison of Three Scandinavian Universities

Authors : Bjørn Hofmann, Lone Bredahl Jensen, Mette Brandt Eriksen, Gert Helgesson, Niklas Juth, Søren Holm

This study investigates research integrity among PhD students in health sciences at three universities in Scandinavia (Stockholm, Oslo, Odense). A questionnaire with questions on knowledge, attitudes, experiences, and behavior was distributed to PhD students and obtained a response rate of 77.7%.

About 10% of the respondents agreed that research misconduct strictly defined (such as fabrication, falsification, and plagiarism, FFP) is common in their area of research, while slightly more agreed that other forms of misconduct is common.

A nonnegligible segment of the respondents was willing to fabricate, falsify, or omit contradicting data if they believe that they are right in their overall conclusions. Up to one third reported to have added one or more authors unmerited.

Results showed a negative correlation between “good attitudes” and self-reported misconduct and a positive correlation between how frequent respondents thought that misconduct occurs and whether they reported misconduct themselves.

This reveals that existing educational and research systems partly fail to foster research integrity.

URL : Research Integrity Among PhD Students at the Faculty of Medicine: A Comparison of Three Scandinavian Universities

DOI : https://doi.org/10.1177/1556264620929230

Research integrity: environment, experience, or ethos?

Authors : Bjørn Hofmann, Søren Holm

Background

Research integrity has gained attention in the general public as well as in the
research community. We wanted to investigate knowledge, attitudes, and practices amongst researchers that have recently finished their PhD and compare this to their responses during their PhD fellowship. In particular, we wanted to investigate whether their attitudes are related to their experiences of their immediate research environment.

Material and method

Researchers (n = 86) awarded the PhD degree at the Faculty of Medicine at the University of Oslo in 2016 were invited to answer a questionnaire about knowledge, attitudes, and actions related to scientific dishonesty. Seventy-two responded (83.7%). The results were compared with results among first-year doctoral students who responded to the same questionnaire during 2010–2017.

Results

Overall, 13% of PhDs reported that they knew of people in their immediate research environment who had committed serious forms of scientific dishonesty. A small percentage of PhDs (1.4%) indicated that they themselves had committed such acts. About 3% of the candidates had experienced pressure to commit serious forms of dishonesty and nearly a third of respondents had experienced unethical pressure with respect to authorship during the course of their fellowship.

Thirteen percent reported that they had experienced unethical pressure in relation to other forms of dishonesty and 11% had experienced the consequences of some form of scientific dishonesty. Eighteen percent of the respondents believed that one or more actions, which in the literature were perceived as scientific misconduct, were not wrong. We find a connection between attitudes and the perceived research integrity of their research environment.

The results also show a difference between PhD students and graduated PhDs in terms of scientific dishonesty. In some areas, the PhDs’ norms are stricter, such as for the use of statistical analysis methods, while there is little change in others, such as in misconduct in order to expedite publications.

Conclusion

Many PhDs knew about serious forms of scientific misconduct from the research environment in which they are trained, and some also report misconduct themselves.

Some experienced pressure to serious forms of misconduct and a large proportion of the respondents had experienced unethical pressure with respect to authorship during their fellowship. Attitudes change during the PhD studies, but ambiguously. Scientific misconduct seems to be an environmental issue as much as a matter of personal integrity.

URL : Research integrity: environment, experience, or ethos?

DOI : https://doi.org/10.1177%2F1747016119880844