PT  - JOURNAL ARTICLE
AU  - Gustavo S. de Miranda
AU  - Siddharth S. Kulkarni
AU  - Jéssica Tagliatela
AU  - Caitlin M. Baker
AU  - Alessandro P.L. Giupponi
AU  - Facundo M. Labarque
AU  - Efrat Gavish-Regev
AU  - Michael G. Rix
AU  - Leonardo S. Carvalho
AU  - Lívia Maria Fusari
AU  - Hannah M. Wood
AU  - Prashant P. Sharma
TI  - The rediscovery of a relict unlocks the first global phylogeny of whip spiders (Amblypygi)
AID  - 10.1101/2022.04.26.489547
DP  - 2022 Jan 01
TA  - bioRxiv
PG  - 2022.04.26.489547
4099  - http://biorxiv.org/content/early/2022/04/27/2022.04.26.489547.short
4100  - http://biorxiv.org/content/early/2022/04/27/2022.04.26.489547.full
AB  - Asymmetrical rates of cladogenesis and extinction abound in the Tree of Life, resulting in numerous minute clades that are dwarfed by larger sister groups. Such taxa are commonly regarded as phylogenetic relicts or “living fossils” when they exhibit an ancient first appearance in the fossil record and prolonged external morphological stasis, particularly in comparison to their more diversified sister groups. Due to their special status, various phylogenetic relicts tend to be well-studied and prioritized for conservation. A notable exception to this trend is found within Amblypygi (“whip spiders”), a visually striking order of functionally hexapodous arachnids that are notable for their antenniform first walking leg pair (the eponymous “whips”). Paleoamblypygi, the putative sister group to the remaining Amblypygi, is known from Late Carboniferous and Eocene deposits, but is survived by a single living species, Paracharon caecus Hansen, 1921, that was last collected in 1899. Due to the absence of genomic sequence-grade tissue for this vital taxon, there is no global molecular phylogeny for Amblypygi to date, nor a fossil-calibrated estimation of divergences within the group. Here, we report several individuals of a previously unknown species of Paleoamblypygi from a cave site in Colombia. Capitalizing upon this discovery, we generated the first molecular phylogeny of Amblypygi, integrating ultraconserved element sequencing with legacy Sanger datasets and including described extant genera. To quantify the impact of sampling Paleoamblypygi on divergence time estimation, we performed in silico experiments with pruning of Paracharon. We demonstrate that the omission of relicts has a significant impact on the accuracy of node dating approaches that outweighs the impact of excluding ingroup fossils. Our results underscore the imperative for biodiversity discovery efforts in elucidating the phylogenetic relationships of “dark taxa”, and especially phylogenetic relicts in tropical and subtropical habitats.Competing Interest StatementThe authors have declared no competing interest.