In the digital age, access to information has become easier than ever, yet barriers to accessing scientific knowledge persist. Traditional publishing models often restrict access to research articles behind paywalls, limiting the dissemination of scientific progress to the scientific community. However, the emergence of open access publishing has revolutionized the way research is shared, democratizing access to scientific knowledge and accelerating discovery.
The Pillars of Open Science
Open access has jumped into the everyday academic jargon, disrupting the way scientists share their results, models, and data. Just in case someone lags behind this trend, open science refers to the practice of making scholarly research freely available online, with minimal restrictions on access and reuse. This means that articles are now available to anyone with an internet connection, fostering greater transparency and inclusivity in the scientific community. This type of research also makes data openly accessible, which enables replication of findings and reanalysis and enhances the study's reliability and credibility. Other aspects that become freely shared are source software, such as codes and algorithms. Finally, intending to foster collaboration among peers, a platform enables researchers to share their findings through preprint archives before formal peer review.
The Benefits of Open Science
- Science for all! : One of the primary benefits of open access is its ability to reach a wider audience. By removing financial barriers to access, open access publications ensure that the general public can all benefit from the latest scientific discoveries. No matter where you are globally located, the democratization of knowledge not only promotes collaboration and interdisciplinary research but also allows everyone to participate more fully in the scientific discourse.
- Speeding up advances: By removing barriers to access and promoting collaboration, open science accelerates the pace of scientific discovery, leading to faster progress and innovation. Beyond, open access journals often have shorter publication times, allowing researchers to share their findings more quickly.
- Impact, impact, impact. Open access also promotes greater visibility and impact for individual researchers. Studies have shown that open-access articles are cited more frequently than those published behind paywalls (Eysenbach, 2006, Gargouri et al., 2010; Teplitskiy et al., 2017). This increased visibility can enhance researchers' reputations, facilitate collaboration, and attract funding for future projects.
- Can the copy be better than the original? Open access supports reproducibility and transparency in scientific research. By making data and methods freely available, researchers can verify and build upon previous studies, strengthening the reliability of scientific findings. Open access also promotes greater accountability in research practices, as findings are subject to scrutiny and replication by the broader scientific community.
The other side of the story: Open Science in practice
Despite its many benefits, open access still faces challenges and obstacles. One of the primary concerns is the financial sustainability of open access publishing models. While some open-access journals charge article processing fees to cover publication costs, others rely on institutional subsidies or volunteer labour to remain operational. In this realm, universities face the challenging task of promoting open science while also managing the financial incentives to monetize research findings. This delicate equilibrium is complex to maintain, often resulting in tensions that challenge the fundamental principles of science as a public good.
Additionally, the quality and credibility of open access journals have been called into question, as some predatory publishers exploit the open access model for financial gain without maintaining rigorous peer review standards. As we have seen, peer-review processes tend to be shorter, which may be detrimental to the quality of the reviews, and consequently, the quality of the results published. To address this issue, initiatives such as the Directory of Open Access Journals (DOAJ) and the Committee on Publication Ethics (COPE) have been established to promote best practices and transparency in open access publishing.
Also, the sheer volume of openly accessible research outputs, including preprints, datasets, and software tools, can be overwhelming for researchers to navigate. In this era, finding relevant and reliable information amidst abundant available resources poses a significant challenge.
Open Science: for or against?
One could think that open science is the way to democratize scientific signs of progress and advance toward a more inclusive academic community. Beyond that, the rest of society could directly benefit from the researchers’ work and gain from the scientific insights. However, do these ideal promises apply in real life?
Implementing this new sharing scientific method raises many new questions that delve into a long-lasting debate about the ethics of disseminating scientific advances. For example, what are the ethical implications of open science, particularly in terms of data privacy and confidentiality? Should researchers be required to share their raw data and methodologies openly, even if it poses potential risks to their intellectual property rights?
Some concerns are undoubtedly related to intellectual property rights and the fine lines between data protection and responsible use. Sharing data openly could sound like an option when there are robust security measures and compliance with data protection regulations.
Another debate regards today’s evaluation method: Is the current academic reward system compatible with the principles of open science, or does it perpetuate a culture of competition and secrecy? In this new era, should researchers be held accountable for the quality and reproducibility of their open science contributions?
The current academic reward system often prioritizes publication in high-impact journals and patent securing, which may not align with the values of open science. Thus, researchers may hesitate to embrace open science practices if they perceive them as detrimental to their career advancement or recognition.
In conclusion, open access represents a paradigm shift in how research is disseminated and accessed, offering unprecedented opportunities to democratize knowledge, accelerating scientific progress, and enhancing the visibility and impact of individual researchers. However, challenges remain, and discussion is open as science.
What about you? How do you envision the future with Open Science? We'd love to delve into this discussion with our family business research peers while enjoying Carcavelos at IFERA 2024. With the event approaching, stay tuned and don’t miss next month’s post, which will surely awaken your curiosity about the region of Lisbon.
*Note that this article aims to foster debate within the academic community about searching for common solutions and exploiting open science's advantages. We are aware of the topic's complexity, and unfortunately, due to space restrictions, we couldn’t grasp all its nuances in this piece.
References
Eysenbach, G. (2006). Citation Advantage of Open Access Articles. PLoS Biol, 4(5): e157. https://doi.org/10.1371/journal.pbio.0040157
Gargouri Y, Hajjem C, Larivière V, Gingras Y, Carr L, Brody T, et al. (2010). Self-Selected or Mandated, Open Access Increases Citation Impact for Higher Quality Research. PLoS ONE, 5(10): e13636. https://doi.org/10.1371/journal.pone.0013636
Teplitskiy, M., Lu, G. and Duede, E. (2017). Amplifying the impact of open access: Wikipedia and the diffusion of science. Journal of the Association for Information Science and Technology, 68: 2116-2127. https://doi.org/10.1002/asi.23687