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Replication, Communication, and the Population Dynamics of Scientific Discovery

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  • Richard McElreath
  • Paul E Smaldino

Abstract

Many published research results are false (Ioannidis, 2005), and controversy continues over the roles of replication and publication policy in improving the reliability of research. Addressing these problems is frustrated by the lack of a formal framework that jointly represents hypothesis formation, replication, publication bias, and variation in research quality. We develop a mathematical model of scientific discovery that combines all of these elements. This model provides both a dynamic model of research as well as a formal framework for reasoning about the normative structure of science. We show that replication may serve as a ratchet that gradually separates true hypotheses from false, but the same factors that make initial findings unreliable also make replications unreliable. The most important factors in improving the reliability of research are the rate of false positives and the base rate of true hypotheses, and we offer suggestions for addressing each. Our results also bring clarity to verbal debates about the communication of research. Surprisingly, publication bias is not always an obstacle, but instead may have positive impacts—suppression of negative novel findings is often beneficial. We also find that communication of negative replications may aid true discovery even when attempts to replicate have diminished power. The model speaks constructively to ongoing debates about the design and conduct of science, focusing analysis and discussion on precise, internally consistent models, as well as highlighting the importance of population dynamics.

Suggested Citation

  • Richard McElreath & Paul E Smaldino, 2015. "Replication, Communication, and the Population Dynamics of Scientific Discovery," PLOS ONE, Public Library of Science, vol. 10(8), pages 1-16, August.
    • Handle: RePEc:plo:pone00:0136088
    DOI: 10.1371/journal.pone.0136088
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    References listed on IDEAS

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    1. John P A Ioannidis, 2005. "Why Most Published Research Findings Are False," PLOS Medicine, Public Library of Science, vol. 2(8), pages 1-1, August.
    2. C. Glenn Begley & Lee M. Ellis, 2012. "Raise standards for preclinical cancer research," Nature, Nature, vol. 483(7391), pages 531-533, March.
    3. Mina Bissell, 2013. "Reproducibility: The risks of the replication drive," Nature, Nature, vol. 503(7476), pages 333-334, November.
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    Cited by:

    1. Alexander Frankel & Maximilian Kasy, 2022. "Which Findings Should Be Published?," American Economic Journal: Microeconomics, American Economic Association, vol. 14(1), pages 1-38, February.
    2. Van Dooren, Wouter & Noordegraaf, Mirko, 2020. "Staging Science: Authoritativeness and Fragility of Models and Measurement in the COVID-19 Crisis," SocArXiv nfm5j, Center for Open Science.
    3. Leonid Tiokhin & Minhua Yan & Thomas J. H. Morgan, 2021. "Competition for priority harms the reliability of science, but reforms can help," Nature Human Behaviour, Nature, vol. 5(7), pages 857-867, July.
    4. Merton S. Krause, 2019. "Replication and preregistration," Quality & Quantity: International Journal of Methodology, Springer, vol. 53(5), pages 2647-2652, September.
    5. Riko Kelter, 2022. "A New Bayesian Two-Sample t Test and Solution to the Behrens–Fisher Problem Based on Gaussian Mixture Modelling with Known Allocations," Statistics in Biosciences, Springer;International Chinese Statistical Association, vol. 14(3), pages 380-412, December.
    6. Riko Kelter, 2021. "Analysis of type I and II error rates of Bayesian and frequentist parametric and nonparametric two-sample hypothesis tests under preliminary assessment of normality," Computational Statistics, Springer, vol. 36(2), pages 1263-1288, June.
    7. Mauricio González-Forero & Timm Faulwasser & Laurent Lehmann, 2017. "A model for brain life history evolution," PLOS Computational Biology, Public Library of Science, vol. 13(3), pages 1-28, March.
    8. Kelter, Riko, 2022. "Power analysis and type I and type II error rates of Bayesian nonparametric two-sample tests for location-shifts based on the Bayes factor under Cauchy priors," Computational Statistics & Data Analysis, Elsevier, vol. 165(C).

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