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Title: Comparing traditional and Bayesian approaches to ecological meta‐analysis

Journal Article · · Methods in Ecology and Evolution (Online)
ORCiD logo [1]; ORCiD logo [2]; ORCiD logo [1]; ORCiD logo [3]; ORCiD logo [4]; ORCiD logo [1];
  1. Odum School of Ecology University of Georgia Athens GA USA
  2. School of Informatics, Computing, and Cyber Systems Northern Arizona University Flagstaff AZ USA, Center for Ecosystem Science and Society and Department of Biological Sciences Northern Arizona University Flagstaff AZ USA
  3. Quantitative Fisheries Center Department of Fisheries and Wildlife Michigan State University East Lansing MI USA
  4. Center for Ecosystem Science and Society and Department of Biological Sciences Northern Arizona University Flagstaff AZ USA
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Abstract Despite the wide application of meta‐analysis in ecology, some of the traditional methods used for meta‐analysis may not perform well given the type of data characteristic of ecological meta‐analyses. We reviewed published meta‐analyses on the ecological impacts of global climate change, evaluating the number of replicates used in the primary studies ( n i ) and the number of studies or records ( k ) that were aggregated to calculate a mean effect size. We used the results of the review in a simulation experiment to assess the performance of conventional frequentist and Bayesian meta‐analysis methods for estimating a mean effect size and its uncertainty interval. Our literature review showed that n i and k were highly variable, distributions were right‐skewed and were generally small (median n i  = 5, median k  = 44). Our simulations show that the choice of method for calculating uncertainty intervals was critical for obtaining appropriate coverage (close to the nominal value of 0.95). When k was low (<40), 95% coverage was achieved by a confidence interval (CI) based on the t distribution that uses an adjusted standard error (the Hartung–Knapp–Sidik–Jonkman, HKSJ), or by a Bayesian credible interval, whereas bootstrap or z distribution CIs had lower coverage. Despite the importance of the method to calculate the uncertainty interval, 39% of the meta‐analyses reviewed did not report the method used, and of the 61% that did, 94% used a potentially problematic method, which may be a consequence of software defaults. In general, for a simple random‐effects meta‐analysis, the performance of the best frequentist and Bayesian methods was similar for the same combinations of factors ( k and mean replication), though the Bayesian approach had higher than nominal (>95%) coverage for the mean effect when k was very low ( k  < 15). Our literature review suggests that many meta‐analyses that used z distribution or bootstrapping CIs may have overestimated the statistical significance of their results when the number of studies was low; more appropriate methods need to be adopted in ecological meta‐analyses.

Sponsoring Organization:
USDOE
OSTI ID:
1643175
Journal Information:
Methods in Ecology and Evolution (Online), Journal Name: Methods in Ecology and Evolution (Online) Vol. 11 Journal Issue: 10; ISSN 2041-210X
Publisher:
Wiley-BlackwellCopyright Statement
Country of Publication:
United Kingdom
Language:
English

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