Node ages, relationships, and phylogenomic incongruence in an ancient gymnosperm lineage – Phylogeny of <i>Ephedra</i> revisited

Rydin, Catarina; Blokzijl, Ruben; Thureborn, Olle; Wikström, Niklas

doi:10.1002/tax.12493

Cited by 10 publications

(20 citation statements)

References 140 publications

(242 reference statements)

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“…Namely, the Ephedra crown was dated to 30 Ma (Ickert‐Bond et al, 2009) or 32–8 Ma for extant taxa (Huang & Price, 2003), and thus the geological and hydrological events described took place at a time when modern Ephedra species prevailed in this region. However, according to more recent molecular inference (Rydin et al, 2021), the crown age was estimated as 100 Myr.…”

Section: Discussionmentioning

confidence: 99%

Integrative taxonomy tests possible hybridisation between Central Asian cerambycids (Coleoptera)

et al. 2022

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Hybridisation can lead to the formation of new evolutionary lineages and some described insect species may in fact be first‐generation hybrids of their parental species. Anoplistes forticornis and A. galusoi are two closely related cerambycid taxa endemic to Central Asia that exhibit a peculiar geographical distribution. Although the common diagnostic elytral pattern makes these beetles superficially easily distinguishable, there are marked resemblances in their morphology. By applying an integrative taxonomy approach, we verify the taxonomic status of A. forticornis and A. galusoi and test the possibility of hybridisation. The results of our comprehensive morphological examination and molecular analyses targeting mitochondrial (COI, 16S rRNA) and nuclear (arginine kinase, CAD, 28S rRNA) genes support the specific status of these taxa. In mtDNA, the putative hybrid specimen is more closely related to A. forticornis, which indicates that a female of this species bred with a male of A. galusoi. The supposed ecotypic variability (manifested in elytral pattern) is apparently not related to the topography or spatial structure of habitat. The phylogenetic hypothesis supports a peripatric scenario in which populations of the common ancestor had been separated for a significant period of time, first by the mountain ranges of Dzungarian Alatau (~11–10 Ma) and ultimately by the Ili River. The diverged taxa came into recent secondary contact following these isolation events. The methodology presented herein can be widely applied to identify first‐generation hybridisation in Coleoptera.

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Section: Discussionmentioning

confidence: 99%

Integrative taxonomy tests possible hybridisation between Central Asian cerambycids (Coleoptera)

et al. 2022

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“…Previous studies have also documented that the branching process prior can substantially impact the age estimation for lineages that have undergone massive extinction [e.g. in cycads ( Condamine et al , 2015 ), Xanthorrhoea ( Crisp et al , 2014 ) and Ephedra ( Rydin et al , 2021 )], suggesting the tree prior effects are strongly dependent on data characteristics and the underlying phylogeny ( Ritchie et al , 2017 ). The Yule prior would, in general, be expected to yield an older age for the crown age compared to the birth–death prior because the Yule prior assumes a constant birth rate and zero extinction, resulting in nodes being more evenly spread over the tree ( Rydin et al , 2021 ).…”

Section: Discussionmentioning

confidence: 99%

“…in cycads ( Condamine et al , 2015 ), Xanthorrhoea ( Crisp et al , 2014 ) and Ephedra ( Rydin et al , 2021 )], suggesting the tree prior effects are strongly dependent on data characteristics and the underlying phylogeny ( Ritchie et al , 2017 ). The Yule prior would, in general, be expected to yield an older age for the crown age compared to the birth–death prior because the Yule prior assumes a constant birth rate and zero extinction, resulting in nodes being more evenly spread over the tree ( Rydin et al , 2021 ). Hence, the birth–death prior estimates more nodes toward the present compared to the past ( Gernhard, 2008 ), leading to a ‘pull to the present’ effect.…”

Section: Discussionmentioning

confidence: 99%

“…Given the above concerns, we recommend careful selection of both priors and fossils (or examined biogeographical events, if available) for internal calibration before inferring timescales of lineages that have undergone massive extinctions. Indeed, these cases indicate lineage age estimation will probably yield substantial gaps by using different priors or fossil combinations in BEAST ( Rydin et al , 2021 ).…”

Section: Discussionmentioning

confidence: 99%

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Not that young: combining plastid phylogenomic, plate tectonic and fossil evidence indicates a Palaeogene diversification of Cycadaceae

Liu

Lindström²,

Marler

et al. 2021

Annals of Botany

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Background and Aims Previous molecular dating studies revealed historical mass extinctions and recent radiations of extant cycads, but debates still exist between paleobotanists and evolutionary biologists in revealing the origin and evolution of Cycadaceae. Methods Using whole plastomic data, we revisited the phylogeny of this family and found the Palawan endemic Cycas clade was strongly related to all lineages from Southeast Eurasia, coinciding with a plate drift event occurring in the Early Oligocene. By integrating fossil and biogeographical calibrations as well as molecular data from protein-coding genes, we established different calibration schemes and tested competing evolutionary timelines of Cycadaceae. Key Results We found recent dispersal cannot explain the distribution of Palawan Cycas, yet the scenario including the tectonic calibration yielded the mean crown age of extant Cycadaceae as ca. 69–43 million years ago by different tree priors, consistent with multiple Paleogene fossils assigned to this family. Biogeographic analyses incorporating fossil distribution revealed East Asia as the ancestral area of Cycadaceae. Conclusions Our findings challenged the previously proposed Middle-Late Miocene diversification of cycads and Indochina origin for Cycadaceae and highlighted the importance of combining phylogenetic clades, tectonic events, and fossils for rebuilding the evolutionary history of lineages that have undergone massive extinctions.

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“…However, the timescale for the evolution of Gnetales is higly uncertain. The oldest divergence, that of Gnetales and their closest relatives (Pinaceae or cupressophytes depending on the study), has been variously inferred to be dated between the Carboniferous and the Triassic (Hou et al, 2015;Ran et al, 2018), while the Gnetales crown age has been inferred to be between Late Triassic and the Early Cretaceous (Hou et al, 2015;Ran et al, 2018;Rydin et al, 2021). The divergence between Gnetum and Welwitschia is inferred to have occurred in the Early Cretaceous.…”

Section: Molecular Datamentioning

confidence: 99%

Cutting the long branches: Consilience as a path to unearth the evolutionary history of Gnetales

Coiro

Roberts²,

Hofmann³

et al. 2022

Front. Ecol. Evol.

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The Gnetales are one of the most fascinating groups within seed plants. Although the advent of molecular phylogenetics has generated some confidence in their phylogenetic placement of Gnetales within seed plants, their macroevolutionary history still presents many unknowns. Here, we review the reasons for such unknowns, and we focus the discussion on the presence of “long branches” both in their molecular and morphological history. The increased rate of molecular evolution and genome instability as well as the numerous unique traits (both reproductive and vegetative) in the Gnetales have been obstacles to a better understanding of their evolution. Moreover, the fossil record of the Gnetales, though relatively rich, has not yet been properly reviewed and investigated using a phylogenetic framework. Despite these apparent blocks to progress we identify new avenues to enable us to move forward. We suggest that a consilience approach, involving different disciplines such as developmental genetics, paleobotany, molecular phylogenetics, and traditional anatomy and morphology might help to “break” these long branches, leading to a deeper understanding of this mysterious group of plants.

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Node ages, relationships, and phylogenomic incongruence in an ancient gymnosperm lineage – Phylogeny of Ephedra revisited

Cited by 10 publications

References 140 publications

Integrative taxonomy tests possible hybridisation between Central Asian cerambycids (Coleoptera)

Integrative taxonomy tests possible hybridisation between Central Asian cerambycids (Coleoptera)

Not that young: combining plastid phylogenomic, plate tectonic and fossil evidence indicates a Palaeogene diversification of Cycadaceae

Cutting the long branches: Consilience as a path to unearth the evolutionary history of Gnetales

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