2019
DOI: 10.3390/d11070102
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New Material of Paleocene-Eocene Pellornis (Aves: Gruiformes) Clarifies the Pattern and Timing of the Extant Gruiform Radiation

Abstract: Pellornis mikkelseni is an early gruiform from the latest Paleocene-earliest Eocene Fur Formation of Denmark. At approximately 54 million years old, it is among the earliest clear records of the Gruiformes. The holotype specimen, and only material thus far recognised, was originally considered to comprise a partial postcranial skeleton. However, additional mechanical preparation of the nodule containing the holotype revealed that the skeleton is nearly complete and includes a well-preserved skull. In addition … Show more

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Cited by 19 publications
(10 citation statements)
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“…The post-Eocene dates suggested for the Alcidae/Stercorariidae divergence (or even more inclusive clades) by recent studies therefore exemplify the "zombie lineage" problem described by Springer et al (2017), in which molecular divergence times turn out to be younger than the known fossil record allows. The same underestimation of divergence times was recently reported for the Gruiformes by Musser et al (2019), and may be relatively widespread as a result of efforts to correct for the implausibly old divergences yielded by earlier studies by means of overly stringent calibration choice. Conversely, the criteria employed here that allowed calibration 8 to be used could be criticized as too lax given the fragmentary nature of the material and the long temporal gap separating it from the next oldest pan-alcid occurrence.…”
Section: A New Timeline For Charadriiform Evolutionsupporting
confidence: 70%
“…The post-Eocene dates suggested for the Alcidae/Stercorariidae divergence (or even more inclusive clades) by recent studies therefore exemplify the "zombie lineage" problem described by Springer et al (2017), in which molecular divergence times turn out to be younger than the known fossil record allows. The same underestimation of divergence times was recently reported for the Gruiformes by Musser et al (2019), and may be relatively widespread as a result of efforts to correct for the implausibly old divergences yielded by earlier studies by means of overly stringent calibration choice. Conversely, the criteria employed here that allowed calibration 8 to be used could be criticized as too lax given the fragmentary nature of the material and the long temporal gap separating it from the next oldest pan-alcid occurrence.…”
Section: A New Timeline For Charadriiform Evolutionsupporting
confidence: 70%
“…Fossil Specimen: Pellornis mikkelseni MGUH 29278 Phylogenetic Justification: Pellornis has been recovered as a member of Messelornithidae, a clade that has been supported by synapomorphies as sister taxon to Rallidae+Heliornithidae [166] or Rallidae to the exclusion of Heliornithidae [167]. Recent work [168] supports the former position for Pellornis and Messelornithidae, and that is used here. Minimum Age Constraint: 53.9 Ma Maximum Age Constraint: 66.5 Ma Age Justification: The fossil is from the Fur Formation of Denmark.…”
Section: A6 Calibrated Node: Crown Gruiformes (Ralloidea-gruoidea Smentioning
confidence: 70%
“…The divergence times obtained using a Bayesian relaxed-clock model and a non-Bayesian model were mostly similar when Belgirallus was used as a crown Rallidae representative. As illustrated in our node dating analyses, the root and origin of Rallidae were estimated to be 33 (32)(33)(34)(35)(36) Mya using a Bayesian approach or 34 (32)(33)(34)(35)(36)(37)(38)(39)(40)(41)(42)(43)(44) Mya with a non-Bayesian method. However, the credibility intervals (uncertainty) for the origin of Rallidae estimated in RelTime were rather wide compared with the 95% highest posterior density (HPD) intervals in BEAST2.…”
Section: Discussionmentioning
confidence: 99%
“…We applied the method of Claramunt and Cracraft [23], in which prior calibration densities were modeled based on available fossil records. We placed an exponential prior on the crown ages of Gruiformes (offset: 52, mean: 8.5) and a lognormal prior on the age of the Rallidae (offset: 32.6, mean: 1.1, standard deviation: 1.8) based on densities inferred by Stervander et al [15], which were themselves based on thoroughly examined fossil data [43,44].…”
Section: Phylogenetic Analyses and Divergence Time Estimatesmentioning
confidence: 99%