天际线生死化石模型对违反全证据定年中的取样假设具有稳健性。

IF 6.1 1区 生物学 Q1 EVOLUTIONARY BIOLOGY Systematic Biology Pub Date : 2023-12-30 DOI:10.1093/sysbio/syad054
Chi Zhang, Fredrik Ronquist, Tanja Stadler
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引用次数: 0

摘要

根据化石出生-死亡(FBD)模式进行的几项全证据年代测定研究得出了非常古老的年龄估计,但化石记录却不支持这种估计。这种现象被称为 "深根吸引(DRA)"。对于涉及蚂蚁、蜜蜂和黄蜂(膜翅目)以及胎盘哺乳动物(Eutheria)早期演化的分化时间估计的两个特定数据集,研究表明,如果考虑到这些树中的现存物种已被采样以最大限度地提高多样性这一事实,即所谓的多样化采样,就可以大大降低 DRA 效应。遗憾的是,目前适应多样化取样的方法只考虑了一种极端情况,即有可能确定一个截止时间,使在此时间之前发生的所有分裂都能在取样树中得到体现,而较年轻的分裂则无一体现。在现实中,取样偏差很少达到这种极端情况,因此可能难以正确建模。类似的建模挑战也适用于化石记录的取样。这就提出了一个问题:是否有可能找到对取样偏差更稳健的年代测定方法?在这里,我们展示了天际线 FBD(SFBD)过程,在这个过程中,多样化率和化石取样率可以随时间以片断方式变化,它提供的年龄估计值对取样过程建模的不足更为稳健,对 DRA 的影响也不那么敏感。在我们所考虑的 SFBD 模型中,不同时间间隔内的采样率要么被认为是独立且同分布的,要么被假定为自相关的奥恩斯坦-乌伦贝克(OU)过程。通过模拟和重新分析膜翅目和杜鹃目数据,我们发现 SFBD 模型的两种变体都能在随机和多样化取样假设下统一年龄估计值。SFBD 模型可以通过将取样假设的偏差吸收到随时间变化的多样化过程的推断动态中来解决 DRA 问题。虽然这意味着必须考虑到取样偏差,谨慎解释推断的多样化动态,但我们得出的结论是,SFBD 模型是目前解决全证据年代测定中 DRA 问题的最可靠方法。
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Skyline Fossilized Birth-Death Model is Robust to Violations of Sampling Assumptions in Total-Evidence Dating.

Several total-evidence dating studies under the fossilized birth-death (FBD) model have produced very old age estimates, which are not supported by the fossil record. This phenomenon has been termed "deep root attraction (DRA)." For two specific data sets, involving divergence time estimation for the early radiations of ants, bees, and wasps (Hymenoptera) and of placental mammals (Eutheria), it has been shown that the DRA effect can be greatly reduced by accommodating the fact that extant species in these trees have been sampled to maximize diversity, so-called diversified sampling. Unfortunately, current methods to accommodate diversified sampling only consider the extreme case where it is possible to identify a cut-off time such that all splits occurring before this time are represented in the sampled tree but none of the younger splits. In reality, the sampling bias is rarely this extreme and may be difficult to model properly. Similar modeling challenges apply to the sampling of the fossil record. This raises the question of whether it is possible to find dating methods that are more robust to sampling biases. Here, we show that the skyline FBD (SFBD) process, where the diversification and fossil-sampling rates can vary over time in a piecewise fashion, provides age estimates that are more robust to inadequacies in the modeling of the sampling process and less sensitive to DRA effects. In the SFBD model we consider, rates in different time intervals are either considered to be independent and identically distributed or assumed to be autocorrelated following an Ornstein-Uhlenbeck (OU) process. Through simulations and reanalyses of Hymenoptera and Eutheria data, we show that both variants of the SFBD model unify age estimates under random and diversified sampling assumptions. The SFBD model can resolve DRA by absorbing the deviations from the sampling assumptions into the inferred dynamics of the diversification process over time. Although this means that the inferred diversification dynamics must be interpreted with caution, taking sampling biases into account, we conclude that the SFBD model represents the most robust approach currently available for addressing DRA in total-evidence dating.

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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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