Science of team science
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Science of Team Science (SciTS) is a field of methodology that focuses on understanding and improving cross-disciplinary collaboration in research. The field encompasses conceptual and methodological strategies for understanding how teams of scientific researchers can be organised to work more effectively.[1] SciTS initiatives involve understanding and managing factors that affect collaborative science and assessing its outcomes.[2][3][4]
History
Since the 1990s, interest and large-scale funding for team-based research initiatives have increased, driven by efforts to tackle complex problems through cross-disciplinary collaboration.[2][5][6][7] Some argue that this trend reflects the growing recognition that addressing multifaceted challenges, such as climate change and public health issues, benefit from partnerships among scientists and practitioners from diverse fields.[5][6][8] One SciTS literature review highlighted team science as essential to interprofessional collaborative research.[9] The report called for its integration into health professions education and clinical practice at the University of Minnesota's National Center for Interprofessional Practice and Education.
The interdisciplinary nature of SciTS initially emerged from concerns raised by funding agencies, which sought to assess the performance of team science, understand its added value, evaluate the return on investment in large research initiatives, and inform science policy.[2] The term "science of team science" was first introduced in October 2006 at a conference titled The Science of Team Science: Assessing the Value of Transdisciplinary Research, hosted by the National Cancer Institute in Bethesda, Maryland.[10] The SciTS field was further treated in a supplement to the American Journal of Preventive Medicine published in July 2008. The First Annual International Science of Team Science (SciTS) Conference was held on April 22–24, 2010, in Chicago, Illinois, organised by the Northwestern University Clinical and Translational Sciences (NUCATS) Institute.
In 2013, the National Academy of Sciences established a National Research Council Committee on the Science of Team Science to evaluate the current state of knowledge and practice in SciTS.[11] A committee report was published in 2015.[12]
In 2023, Patrick Forscher and colleagues published a review identifying the benefits of big team science, noting that innovations facilitate the collection of larger samples and support efforts toward reproducibility and generalisability.[13][14] However, concerns exist that team science could increasingly influence funding priorities, potentially shifting emphasis from applied science to more theoretical research areas, as well as leading to unsuccessful large-scale projects.[15] Forscher's recommendations included creating an advisory board and structured by-laws, formalising feedback mechanisms from contributors, engaging in mentoring, and separating idea generation from project implementation.[14]
In 2026, the discourse shifted towards the management of Big Team Science (BTS). Vaidis and colleagues[16] synthesised work from global collaborations such as the Psychological Science Accelerator,[17] ManyBabies,[18] ManyManys[19] and ManyPrimates.[20] Although BTS can challenge statistical power and cross-cultural generalizability, several bureaucratic challenges arise requiring non-traditional management to function as a high-fidelity organisational structure from informal collaborative agreements, forward and backward translation and the value of Universal Time (UTC) for global synchronisation and decision-making protocols to maintain ethical and epistemological integrity in teams that exceed hundreds of members and labs to address the key questions in science.
Methods
The definition of a successful team may vary depending on stakeholders.[2] SciTS uses both qualitative and quantitative methods to evaluate the antecedent conditions, collaborative processes, and outcomes associated with team science. It also considers the organizational, social, and political context that influences team science.[2]
A 2018 review of literature on SciTS published between 2006 and 2016 identified 109 articles. It reported that 75% of these articles used pre-existing data (e.g., archival data), 62% used bibliometrics, over 40% used surveys, and over 10% used interview and observational data.[21]
See also
- Integrative learning
- Interactional expertise
- Interdisciplinarity
- Multidisciplinary
- Multidimensional network
- Transdisciplinary
- Global brain
References
- ↑ "About INSciTS". https://www.inscits.org/about-us.
- ↑ 2.0 2.1 2.2 2.3 2.4 Stokols, Daniel; Hall, Kara L.; Taylor, Brandie K.; Moser, Richard P. (2008). "The Science of Team Science". American Journal of Preventive Medicine 35 (2): S77–S89. doi:10.1016/j.amepre.2008.05.002. ISSN 0749-3797. PMID 18619407. Bibcode: 2008AmJPM..35S..77S. https://webfiles.uci.edu/dstokols/Pubs/AJPM-Science%20of%20Team%20Science%20Intro.pdf?uniq=-ftp6c5. Retrieved 2013-11-28.
- ↑ Stokols, Daniel; Misra, Shalini; Moser, Richard P.; Hall, Kara L.; Taylor, Brandie K. (2008). "The Ecology of Team Science". American Journal of Preventive Medicine 35 (2): S96–S115. doi:10.1016/j.amepre.2008.05.003. ISSN 0749-3797. PMID 18619410. https://webfiles.uci.edu/dstokols/Pubs/AJPM-Ecology%20of%20Team%20Science.pdf?uniq=-ftp6bz. Retrieved 2013-11-28.
- ↑ "System". http://thescienceofteams.com/index.php/tsot/system.
- ↑ 5.0 5.1 Wuchty S; Jones BF; Uzzi B (2007). "The increasing dominance of teams in production of knowledge.". Science 316 (5827): 1036–9. doi:10.1126/science.1136099. PMID 17431139. Bibcode: 2007Sci...316.1036W.
- ↑ 6.0 6.1 Jones BF; Wuchty S; Uzzi B (2008). "Multi-university research teams: shifting impact, geography, and stratification in science.". Science 322 (5905): 1259–62. doi:10.1126/science.1158357. PMID 18845711. Bibcode: 2008Sci...322.1259J.
- ↑ Alessandroni, Nicolás; Altschul, Drew; Bazhydai, Marina; Byers-Heinlein, Krista; Elsherif, Mahmoud; Gjoneska, Biljana; Huber, Ludwig; Mazza, Valeria et al. (2024). "Comparative Cognition Needs Big Team Science: How Large-Scale Collaborations Will Unlock the Future of the Field". Comparative Cognition & Behavior Reviews 19: 67–72. doi:10.3819/CCBR.2024.190001. http://comparative-cognition-and-behavior-reviews.org/vol19_alessandroni_et_al/.
- ↑ Vlasceanu, Madalina; Doell, Kimberly C.; Bak-Coleman, Joseph B.; Todorova, Boryana; Berkebile-Weinberg, Michael M.; Grayson, Samantha J.; Patel, Yash; Goldwert, Danielle et al. (2024-02-09). "Addressing climate change with behavioral science: A global intervention tournament in 63 countries" (in en). Science Advances 10 (6). doi:10.1126/sciadv.adj5778. ISSN 2375-2548. PMID 38324680. Bibcode: 2024SciA...10J5778V.
- ↑ Little, Meg M.; St Hill, Catherine A.; Ware, Kenric B.; Swanoski, Michael T.; Chapman, Scott A.; Lutfiyya, M. Nawal; Cerra, Frank B. (2017). "Team science as interprofessional collaborative research practice: A systematic review of the science of team science literature". Journal of Investigative Medicine 65 (1): 15–22. doi:10.1136/jim-2016-000216. ISSN 1081-5589. PMID 27619555. PMC 5284346. https://experts.umn.edu/en/publications/team-science-as-interprofessional-collaborative-research-practice.
- ↑ "Science of Team Science". http://cancercontrol.cancer.gov/brp/scienceteam/index.html.
- ↑ "The Science of Team Science". 2013-01-11. http://sites.nationalacademies.org/DBASSE/BBCSS/CurrentProjects/DBASSE_080231.
- ↑ Committee on the Science of Team Science; Board On Behavioral, Cognitive; Division of Behavioral Social Sciences Education; National Research, Council; Cooke, N. J.; Hilton, M. L. (2015-07-15). Enhancing the Effectiveness of Team Science. Washington, D.C.: National Academies Press. doi:10.17226/19007. ISBN 978-0-309-31682-8. Bibcode: 2015nap..book19007N. https://zotero.org/groups/5435545/items/7KXJAQWN.
- ↑ Köhler, Tine; Cortina, Jose M. (February 2021). "Play It Again, Sam! An Analysis of Constructive Replication in the Organizational Sciences" (in en). Journal of Management 47 (2): 488–518. doi:10.1177/0149206319843985. ISSN 0149-2063. http://journals.sagepub.com/doi/10.1177/0149206319843985.
- ↑ 14.0 14.1 Forscher, Patrick S.; Wagenmakers, Eric-Jan; Coles, Nicholas A.; Silan, Miguel Alejandro; Dutra, Natália; Basnight-Brown, Dana; IJzerman, Hans (May 2023). "The Benefits, Barriers, and Risks of Big-Team Science" (in en). Perspectives on Psychological Science 18 (3): 607–623. doi:10.1177/17456916221082970. ISSN 1745-6916. PMID 36190899. http://journals.sagepub.com/doi/10.1177/17456916221082970.
- ↑ Kreamer, Liana M.; Cobb, Haley R.; Castille, Christopher; Cogswell, Joshua (2024-02-01). "Big team science initiatives: A catalyst for trustworthy advancements in IO psychology". Acta Psychologica 242. doi:10.1016/j.actpsy.2023.104101. ISSN 0001-6918. PMID 38064907.
- ↑ Vaidis, David C.; Miranda, Jacob F.; Buchanan, Erin M.; Yang, Yu Fang; Kowal, Marta; Schmidt, Kathleen; Topor, Marta; Misiak, Michal et al. (2026-04-29). "The Advantage of Big Team Science: Lessons Learned From Cognitive Science" (in en). Collabra: Psychology 12 (1). doi:10.1525/collabra.160129. ISSN 2474-7394. https://online.ucpress.edu/collabra/article/12/1/160129/218054/The-Advantage-of-Big-Team-Science-Lessons-Learned.
- ↑ Moshontz, Hannah; Campbell, Lorne; Ebersole, Charles R.; IJzerman, Hans; Urry, Heather L.; Forscher, Patrick S.; Grahe, Jon E.; McCarthy, Randy J. et al. (December 2018). "The Psychological Science Accelerator: Advancing Psychology Through a Distributed Collaborative Network" (in en). Advances in Methods and Practices in Psychological Science 1 (4): 501–515. doi:10.1177/2515245918797607. ISSN 2515-2459. PMID 31886452.
- ↑ Byers-Heinlein, Krista; Bergmann, Christina; Davies, Catherine; Frank, Michael C.; Hamlin, J. Kiley; Kline, Melissa; Kominsky, Jonathan F.; Kosie, Jessica E. et al. (November 2020). "Building a collaborative psychological science: Lessons learned from ManyBabies 1." (in en). Canadian Psychology / Psychologie Canadienne 61 (4): 349–363. doi:10.1037/cap0000216. ISSN 1878-7304. PMID 34219905.
- ↑ Alessandroni, Nicolás; Altschul, Drew; Baumgartner, Heidi A.; Bazhydai, Marina; Brosnan, Sarah F.; Byers-Heinlein, Krista; Call, Josep; Chittka, Lars et al. (February 2025). "Challenges and promises of big team comparative cognition" (in en). Nature Human Behaviour 9 (2): 240–242. doi:10.1038/s41562-024-02081-6. ISSN 2397-3374. PMID 39695249. https://www.nature.com/articles/s41562-024-02081-6.
- ↑ Primates, Many; Altschul, Drew M.; Beran, Michael J.; Bohn, Manuel; Call, Josep; DeTroy, Sarah; Duguid, Shona J.; Egelkamp, Crystal L. et al. (2019-10-24). "Establishing an infrastructure for collaboration in primate cognition research" (in en). PLOS ONE 14 (10). doi:10.1371/journal.pone.0223675. ISSN 1932-6203. PMID 31648222. Bibcode: 2019PLoSO..1423675A.
- ↑ Love, Hannah B.; Fosdick, Bailey K.; Cross, Jennifer E.; Suter, Meghan; Egan, Dinaida; Tofany, Elizabeth; Fisher, Ellen R. (2022-10-14). "Towards understanding the characteristics of successful and unsuccessful collaborations: a case-based team science study" (in en). Humanities and Social Sciences Communications 9 (1): 1–11. doi:10.1057/s41599-022-01388-x. ISSN 2662-9992.
Further reading
- Azoulay P, Joshua S, Zivin JW (2010). "Superstar Extinction". The Quarterly Journal of Economics. 125 (2): 549–589.
- Bennett LM, Gadlin H, Levine-Finley S (2010). "Collaboration and team science: a field guide" (PDF). Bethesda, Maryland: National Institutes of Health. Accessed May 28, 2010.
- Börner, Katy; Dall'Asta, Luca; Ke, Weimao; Vespignani, Alessandro (2005). "Studying the emerging global brain: Analyzing and visualizing the impact of co-authorship teams". Complexity 10 (4): 57–67. doi:10.1002/cplx.20078. ISSN 1076-2787. Bibcode: 2005Cmplx..10d..57B. http://cns.iu.edu/images/pub/2005-borner-studglob.pdf.
- Contractor, Noshir (2009). "The Emergence of Multidimensional Networks". Journal of Computer-Mediated Communication 14 (3): 743–747. doi:10.1111/j.1083-6101.2009.01465.x. ISSN 1083-6101.
- Cummings JN. "A socio-technical framework for identifying team science collaborations that could benefit from cyberinfrastructure". VOSS: National Science Foundation; 2009.
- Patel MM, Moseley TW, Nia ES, Perez F, Kapoor MM, Whitman GJ. "Team Science: A Practical Approach to Starting Collaborative Projects." J Breast Imaging. 2021 Jun 16;3(6):721-726. doi: 10.1093/jbi/wbab034. PMID 34805982; PMCID: PMC8599160.
- Stokols D, Taylor B, Hall K, Moser R (2006). "The science of team science: an overview of the field" (PDF). Bethesda, Maryland: National Cancer Institute. Accessed May 28, 2010.
- Rhoten D (2007). The dawn of networked science. The Chronicle Review. 54. Accessed May 28, 2010.
External links
- Annual International Science of Team Science Conference
- National Cancer Institute Science of Team Science website
