Do morphometric data improve phylogenetic reconstruction? A systematic review and assessment.

IF 2.3 Q2 ECOLOGY BMC ecology and evolution Pub Date : 2024-10-18 DOI:10.1186/s12862-024-02313-3
Emma J Holvast, Mélina A Celik, Matthew J Phillips, Laura A B Wilson
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Abstract

Background: Isolating phylogenetic signal from morphological data is crucial for accurately merging fossils into the tree of life and for calibrating molecular dating. However, subjective character definition is a major limitation which can introduce biases that mislead phylogenetic inferences and divergence time estimation. The use of quantitative data, e.g., geometric morphometric (GMM; shape) data can allow for more objective integration of morphological data into phylogenetic inference. This systematic review describes the current state of the field in using continuous morphometric data (e.g., GMM data) for phylogenetic reconstruction and assesses the efficacy of these data compared to discrete characters using the PRISMA-EcoEvo v1.0. reporting guideline, and offers some pathways for approaching this task with GMM data. A comprehensive search string yielded 11,123 phylogenetic studies published in English up to Oct 2023 in the Web of Science database. Title and abstract screening removed 10,975 articles, and full-text screening was performed for 132 articles. Of these, a total of twelve articles met final inclusion criteria and were used for downstream analyses.

Results: Phylogenetic performance was compared between approaches that employed continuous morphometric and discrete morphological data. Overall, the reconstructed phylogenies did not show increased resolution or accuracy (i.e., benchmarked against molecular phylogenies) as continuous data alone or combined with discrete morphological datasets.

Conclusions: An exhaustive search of the literature for existing empirical continuous data resulted in a total of twelve articles for final inclusion following title/abstract, and full-text screening. Our study was performed under a rigorous framework for systematic reviews, which showed that the lack of available comparisons between discrete and continuous data hinders our understanding of the performance of continuous data. Our study demonstrates the problem surrounding the efficacy of continuous data as remaining relatively intractable despite an exhaustive search, due in part to the difficulty in obtaining relevant comparisons from the literature. Thus, we implore researchers to address this issue with studies that collect discrete and continuous data sets with directly comparable properties (i.e., describing shape, or size).

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形态计量数据能改善系统发育重建吗?系统回顾与评估。
背景:从形态学数据中分离出系统发育信号对于将化石准确地并入生命树和校准分子年代至关重要。然而,主观的特征定义是一个主要的限制因素,可能会带来误导系统发育推断和分化时间估计的偏差。使用定量数据,如几何形态计量(GMM;shape)数据,可以更客观地将形态学数据整合到系统发生推断中。本系统综述介绍了使用连续形态计量数据(如 GMM 数据)进行系统发育重建的领域现状,并使用 PRISMA-EcoEvo v1.0 报告指南评估了这些数据与离散特征相比的功效,同时为使用 GMM 数据完成这项任务提供了一些途径。通过综合搜索字符串,我们在科学网数据库中找到了截至 2023 年 10 月用英文发表的 11 123 篇系统发育研究。标题和摘要筛选删除了 10975 篇文章,并对 132 篇文章进行了全文筛选。其中,共有 12 篇文章符合最终纳入标准,并被用于下游分析:比较了采用连续形态计量数据和离散形态数据的方法的系统发生性能。总体而言,作为单独的连续数据或与离散形态数据集相结合,重建的系统发生并未显示出更高的分辨率或准确性(即以分子系统发生为基准):通过对现有经验性连续数据进行详尽的文献检索,经过标题/摘要和全文筛选,共有 12 篇文章被最终纳入。我们的研究是在严格的系统综述框架下进行的,结果表明,离散数据和连续数据之间缺乏可用的比较,这阻碍了我们对连续数据性能的了解。我们的研究表明,尽管进行了详尽的搜索,但围绕连续数据疗效的问题仍然相对棘手,部分原因是很难从文献中获得相关的比较。因此,我们恳请研究人员通过收集具有直接可比属性(即描述形状或大小)的离散数据集和连续数据集的研究来解决这一问题。
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