系统发育生物多样性指标应考虑进化遗产的积累和损耗。

IF 6.1 1区 生物学 Q1 EVOLUTIONARY BIOLOGY
James Rosindell, Kerry Manson, Rikki Gumbs, William D Pearse, Mike Steel
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引用次数: 0

摘要

系统发育指标是研究生态学、进化和保护的重要工具。尤其是系统发育多样性(PD),它是衡量生物多样性最重要的指标之一,其理论基础是生物特征沿着系统发育树的边缘累积,然后求和。我们认为,系统发育多样性和许多其他系统发育生物多样性指标都未能捕捉到一个重要的过程,我们称之为 "损耗"(attrition)。损耗是指因灭绝以外的原因而逐渐丧失的特征。我们在此介绍 "EvoHeritage",它是对 PD 的一种概括,建立在特征的积累和损耗的共同过程之上。我们认为,虽然PD测量的是进化史,但EvoHeritage需要捕捉进化史中更相关的子集,其中只包括那些在损耗中幸存下来的成分。我们的研究表明,EvoHeritage 并不等同于有标度边缘的树上的 PD;相反,积累和损耗以一种更复杂的非单系方式相互作用,而这种方式无法仅通过边缘长度来捕捉。这使我们推测,经典树的一维边长可能不够灵活,无法捕捉进化过程的细微差别。我们推导出了一种 "EvoHeritage "度量方法,并证明它能根据损耗强度,优雅地再现处于连续体两端的物种丰富度和PD。我们展示了 EvoHeritage 在生态学中作为群落生产力预测指标的实用性,与物种丰富度和 PD 相比。我们还展示了 EvoHeritage 如何量化活化石并解决相关争议。我们建议,现有的基于PD的指标和其他系统发育生物多样性指标的计算方法,可以而且应该从EvoHeritage的积累和损耗的角度来重新构建。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phylogenetic Biodiversity Metrics Should Account for Both Accumulation and Attrition of Evolutionary Heritage.

Phylogenetic metrics are essential tools used in the study of ecology, evolution and conservation. Phylogenetic diversity (PD) in particular is one of the most prominent measures of biodiversity and is based on the idea that biological features accumulate along the edges of phylogenetic trees that are summed. We argue that PD and many other phylogenetic biodiversity metrics fail to capture an essential process that we term attrition. Attrition is the gradual loss of features through causes other than extinction. Here we introduce "EvoHeritage", a generalization of PD that is founded on the joint processes of accumulation and attrition of features. We argue that while PD measures evolutionary history, EvoHeritage is required to capture a more pertinent subset of evolutionary history including only components that have survived attrition. We show that EvoHeritage is not the same as PD on a tree with scaled edges; instead, accumulation and attrition interact in a more complex non-monophyletic way that cannot be captured by edge lengths alone. This leads us to speculate that the one-dimensional edge lengths of classic trees may be insufficiently flexible to capture the nuances of evolutionary processes. We derive a measure of EvoHeritage and show that it elegantly reproduces species richness and PD at opposite ends of a continuum based on the intensity of attrition. We demonstrate the utility of EvoHeritage in ecology as a predictor of community productivity compared with species richness and PD. We also show how EvoHeritage can quantify living fossils and resolve their associated controversy. We suggest how the existing calculus of PD-based metrics and other phylogenetic biodiversity metrics can and should be recast in terms of EvoHeritage accumulation and attrition.

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来源期刊
Systematic Biology
Systematic Biology 生物-进化生物学
CiteScore
13.00
自引率
7.70%
发文量
70
审稿时长
6-12 weeks
期刊介绍: Systematic Biology is the bimonthly journal of the Society of Systematic Biologists. Papers for the journal are original contributions to the theory, principles, and methods of systematics as well as phylogeny, evolution, morphology, biogeography, paleontology, genetics, and the classification of all living things. A Points of View section offers a forum for discussion, while book reviews and announcements of general interest are also featured.
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