A Total-Evidence Approach to Dating with Fossils, Applied to the Early Radiation of the Hymenoptera

Ronquist, Fredrik; Klopfstein, Seraina; Vilhelmsen, Lars; Schulmeister, Susanne; Murray, Debra; Rasnitsyn, Alexandr P.

doi:10.1093/sysbio/sys058

Cited by 756 publications

(961 citation statements)

References 74 publications

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“…Similarly high variance under the IGR model was retrieved in analyses of a hymenopteran insect dataset [29]. Plots of rate against time revealed no clear evidence of elevated rates being concentrated in branches near the KPg boundary ( figure 2a,b); indeed, under both the IGR and TK models, rates are highest on branches closer to the root ( figure 2a,b), which accordingly are compressed in time-a similar result was found by Ronquist et al [28] in their analysis of hymenopterans. Perhaps unsurprisingly, molecular rates in these analyses (all under the IGR model; see above) show much less heterogeneity; median rates across different branches spanned a range of approximately 51Â both when only the age of the root was constrained and when the ages of selected internal divergences within Placentalia were also constrained (figure 2a,b; electronic supplementary material, §7).…”

Section: Resultssupporting

confidence: 78%

“…Other studies that have used TE dating have also found that many nodes were estimated to be considerably older than indicated by the fossil record (e.g. [28,31]). Such deep inferred divergences should be treated with caution, given the evidence presented here that the IGR and TK clock models can give implausibly ancient node age estimates when using temporal information provided by fossils.…”

Section: Discussionmentioning

confidence: 99%

“…These methods simultaneously consider both character and temporal information in terminal taxa to co-estimate phylogeny, divergence dates and evolutionary rates. To date, such 'morphological clock' models have been used mainly in the context of total evidence (TE) analyses that combine morphological and molecular data [27][28][29][30][31]. However, they can also be applied to purely morphological datasets [32,33].…”

Section: Introductionmentioning

confidence: 99%

“…Here, we apply two very different relaxed clock modelsthe independent gamma rates (IGR) model [28,37] and the Thorne -Kishino (TK) model [38]-to a large morphological character matrix (102 taxa, 421 discrete characters) that includes at least one representative of every extant placental order plus a diverse range of other Mesozoic and Coenozoic eutherians. All analyses used MRBAYES v. 3.2 [39].…”

Section: Introductionmentioning

confidence: 99%

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Ancient dates or accelerated rates? Morphological clocks and the antiquity of placental mammals

2014

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Analyses of a comprehensive morphological character matrix of mammals using 'relaxed' clock models (which simultaneously estimate topology, divergence dates and evolutionary rates), either alone or in combination with an 8.5 kb nuclear sequence dataset, retrieve implausibly ancient, Late JurassicEarly Cretaceous estimates for the initial diversification of Placentalia (crown-group Eutheria). These dates are much older than all recent molecular and palaeontological estimates. They are recovered using two very different clock models, and regardless of whether the tree topology is freely estimated or constrained using scaffolds to match the current consensus placental phylogeny. This raises the possibility that divergence dates have been overestimated in previous analyses that have applied such clock models to morphological and total evidence datasets. Enforcing additional age constraints on selected internal divergences results in only a slight reduction of the age of Placentalia. Constraining Placentalia to less than 93.8 Ma, congruent with recent molecular estimates, does not require major changes in morphological or molecular evolutionary rates. Even constraining Placentalia to less than 66 Ma to match the 'explosive' palaeontological model results in only a 10-to 20-fold increase in maximum evolutionary rate for morphology, and fivefold for molecules. The large discrepancies between clock-and fossil-based estimates for divergence dates might therefore be attributable to relatively small changes in evolutionary rates through time, although other explanations (such as overly simplistic models of morphological evolution) need to be investigated. Conversely, dates inferred using relaxed clock models (especially with discrete morphological data and MRBAYES) should be treated cautiously, as relatively minor deviations in rate patterns can generate large effects on estimated divergence dates.

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Section: Resultssupporting

confidence: 78%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Ancient dates or accelerated rates? Morphological clocks and the antiquity of placental mammals

2014

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“…Indeed, there has been an increasing number of studies employing probabilistic approaches to estimate phylogenies with morphologic data, especially in paleontology (e.g., Wagner, 1998Wagner, , 1999Snively et al, 2004;Pollitt et al, 2005;Clarke and Middleton, 2008;Pyron, 2011;Ronquist et al, 2012;Slater, 2013Slater, , 2015Wright and Stigall, 2013;Lee et al, 2014;Close et al, 2015;Bapst et al, 2016;Gorscak and O'Connor, 2016).…”

Section: Introductionmentioning

confidence: 99%

Bayesian estimation of fossil phylogenies and the evolution of early to middle Paleozoic crinoids (Echinodermata)

Wright¹

2017

J. Paleontol.

137

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Abstract.-Knowledge of phylogenetic relationships among species is fundamental to understanding basic patterns in evolution and underpins nearly all research programs in biology and paleontology. However, most methods of phylogenetic inference typically used by paleontologists do not accommodate the idiosyncrasies of fossil data and therefore do not take full advantage of the information provided by the fossil record. The advent of Bayesian 'tip-dating' approaches to phylogeny estimation is especially promising for paleosystematists because time-stamped comparative data can be combined with probabilistic models tailored to accommodate the study of fossil taxa. Under a Bayesian framework, the recently developed fossilized birth-death (FBD) process provides a more realistic tree prior model for paleontological data that accounts for macroevolutionary dynamics, preservation, and sampling when inferring phylogenetic trees containing fossils. In addition, the FBD tree prior allows for the possibility of sampling ancestral morphotaxa. Although paleontologists are increasingly embracing probabilistic phylogenetic methods, these recent developments have not previously been applied to the deep-time invertebrate fossil record. Here, I examine phylogenetic relationships among Ordovician through Devonian crinoids using a Bayesian tip-dating approach. Results support several clades recognized in previous analyses sampling only Ordovician taxa, but also reveal instances where phylogenetic affinities are more complex and extensive revisions are necessary, particularly among the Cladida. The name Porocrinoidea is proposed for a well-supported clade of Ordovician 'cyathocrine' cladids and hybocrinids. The Eucladida is proposed as a clade name for the sister group of the Flexibilia herein comprised of cladids variously considered 'cyathocrines,' 'dendrocrines,' and/or 'poteriocrines' by other authors.

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Cetaceans, Past and Present

Marx¹,

Lambert²,

Uhen³

2016

Cetacean Paleobiology

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A Total-Evidence Approach to Dating with Fossils, Applied to the Early Radiation of the Hymenoptera

Cited by 756 publications

References 74 publications

Ancient dates or accelerated rates? Morphological clocks and the antiquity of placental mammals

Ancient dates or accelerated rates? Morphological clocks and the antiquity of placental mammals

Bayesian estimation of fossil phylogenies and the evolution of early to middle Paleozoic crinoids (Echinodermata)

Cetaceans, Past and Present

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