校准螯肢动物时钟：对杰亚普拉卡什和霍伊的古生物学回应。

Calibrating the chelicerate clock: a paleontological reply to Jeyaprakash and Hoy.

作者信息

Dunlop Jason A, Selden Paul A

机构信息

Museum für Naturkunde, Leibniz Institute for Research on Evolution and Biodiversity, Humboldt University Berlin, Invalidenstrasse 43, 10115, Berlin, Germany.

出版信息

Exp Appl Acarol. 2009 Jul;48(3):183-97. doi: 10.1007/s10493-009-9247-1. Epub 2009 Feb 7.

DOI:10.1007/s10493-009-9247-1

PMID:19199056

Abstract

Divergence times inferred for major lineages of Chelicerata (scorpions, spiders, mites, pycnogonids and xiphosurans) in a recent paper on mitochondrial phylogeny by Jeyaprakash and Hoy are compared to the known stratigraphical occurrences of these groups. Erroneous statements concerning fossil date estimates in the original study are corrected. We emphasize that the fossil record of chelicerates is more complete than is sometimes assumed, and that paleontology plays a key role in dating cladogenesis by setting minimum divergence times, which can and do falsify molecular clock estimates where the inferred divergence is substantially younger than the known fossil record. The oldest representatives of each chelicerate order are documented here, together with similar data for the major mite lineages down to family level. Through these, we hope to provide a robust framework and reference points for future molecular systematic studies of this nature.

摘要

在Jeyaprakash和Hoy最近一篇关于线粒体系统发育的论文中，推断出的螯肢动物（蝎子、蜘蛛、螨虫、海蜘蛛和剑尾目动物）主要谱系的分化时间，与这些类群已知的地层出现情况进行了比较。对原始研究中有关化石年代估计的错误陈述进行了纠正。我们强调，螯肢动物的化石记录比有时所认为的更为完整，古生物学在确定分支发生时间方面起着关键作用，它通过设定最小分化时间来实现这一点，而这能够且确实会证伪分子钟估计，因为推断出的分化时间比已知化石记录要年轻得多。这里记录了每个螯肢动物目最古老的代表，以及直至科级水平的主要螨虫谱系的类似数据。通过这些，我们希望为未来此类分子系统研究提供一个可靠的框架和参考点。

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校准螯肢动物时钟：对杰亚普拉卡什和霍伊的古生物学回应。

Calibrating the chelicerate clock: a paleontological reply to Jeyaprakash and Hoy.

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