Quantitative evidence synthesis: a practical guide on meta-analysis, meta-regression, and publication bias tests for environmental sciences.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-04-24 DOI:10.1186/s13750-023-00301-6
Shinichi Nakagawa, Yefeng Yang, Erin L Macartney, Rebecca Spake, Malgorzata Lagisz
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Abstract

Meta-analysis is a quantitative way of synthesizing results from multiple studies to obtain reliable evidence of an intervention or phenomenon. Indeed, an increasing number of meta-analyses are conducted in environmental sciences, and resulting meta-analytic evidence is often used in environmental policies and decision-making. We conducted a survey of recent meta-analyses in environmental sciences and found poor standards of current meta-analytic practice and reporting. For example, only ~ 40% of the 73 reviewed meta-analyses reported heterogeneity (variation among effect sizes beyond sampling error), and publication bias was assessed in fewer than half. Furthermore, although almost all the meta-analyses had multiple effect sizes originating from the same studies, non-independence among effect sizes was considered in only half of the meta-analyses. To improve the implementation of meta-analysis in environmental sciences, we here outline practical guidance for conducting a meta-analysis in environmental sciences. We describe the key concepts of effect size and meta-analysis and detail procedures for fitting multilevel meta-analysis and meta-regression models and performing associated publication bias tests. We demonstrate a clear need for environmental scientists to embrace multilevel meta-analytic models, which explicitly model dependence among effect sizes, rather than the commonly used random-effects models. Further, we discuss how reporting and visual presentations of meta-analytic results can be much improved by following reporting guidelines such as PRISMA-EcoEvo (Preferred Reporting Items for Systematic Reviews and Meta-Analyses for Ecology and Evolutionary Biology). This paper, along with the accompanying online tutorial, serves as a practical guide on conducting a complete set of meta-analytic procedures (i.e., meta-analysis, heterogeneity quantification, meta-regression, publication bias tests and sensitivity analysis) and also as a gateway to more advanced, yet appropriate, methods.

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定量证据综合:环境科学荟萃分析、元回归和发表偏倚测试的实用指南
荟萃分析是一种综合多项研究结果的定量方法,目的是获得干预措施或现象的可靠证据。事实上,环境科学领域开展的荟萃分析越来越多,由此产生的荟萃分析证据经常被用于环境政策和决策。我们对近期环境科学领域的荟萃分析进行了调查,发现目前的荟萃分析实践和报告水平较低。例如,在 73 项受审查的荟萃分析中,只有约 40% 报告了异质性(抽样误差之外的效应大小变化),只有不到一半的荟萃分析对发表偏差进行了评估。此外,尽管几乎所有的荟萃分析都有来自同一研究的多个效应大小,但只有一半的荟萃分析考虑了效应大小之间的非独立性。为了改进荟萃分析在环境科学中的应用,我们在此概述了在环境科学中进行荟萃分析的实用指南。我们描述了效应大小和荟萃分析的关键概念,并详细介绍了拟合多层次荟萃分析和荟萃回归模型以及进行相关发表偏倚检验的程序。我们表明,环境科学家显然需要采用多层次元分析模型,这种模型明确地模拟了效应大小之间的依赖关系,而不是常用的随机效应模型。此外,我们还讨论了如何通过遵循 PRISMA-EcoEvo(生态学和进化生物学系统综述和元分析的首选报告项目)等报告指南来大大改进元分析结果的报告和可视化展示。本文以及随附的在线教程可作为进行一整套元分析程序(即元分析、异质性量化、元回归、发表偏倚检验和敏感性分析)的实用指南,也可作为通往更先进但适当方法的途径。
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CiteScore
7.20
自引率
4.30%
发文量
567
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