Commentaires
Placentaires - Le débat est vif sur le groupe frère des Boréoeuthériens. Les deux hypothèses principales sont soit les Afrothériens, soit un clade regroupant Xénarthres et Afrothériens (cette seconde hypothèse semblant de plus en plus privilégiée).
Afrothériens - Deux hypothèses s'affrontent sur le groupe frère des Proboscidiens : les Hyracoïdes ou les Siréniens.
Scandentiens - La position des Scandentiens est très instable : groupe frère du clade (Rongeurs, Lagomorphes) ou groupe frère du clade (Dermoptères, Primates).
Chiroptères - Les Chiroptères sont le plus souvent retrouvés comme groupe frère de tous les autres Laurasiathériens hors Eulipotyphles, mais il n'y a pas consensus.
Périssodactyles - La position des Périssodactyles n'est pas stable. Les deux hypothèses principales sont soit groupe frère du clade (Carnivores, Pholidotes), soit groupe frère des Cétartiodactyles.
Références (10 dernières années)
Àlvarez-Carretero S, Tamuri AU, Battini M, Nascimento FF, Carlisle E, Asher RJ, Yang Z, Donoghue PCJ & dos Reis M (2021) A species-level timeline of mammal evolution integrating phylogenomic data. Nature, 602: 263-267
Chen MY, Liang D & Zhang P (2017) Phylogenomic resolution of the phylogeny of Laurasiatherian mammals: exploring phylogenetic signals within coding and noncoding sequences. Genome Biology and Evolution, 9: 1998-2012
Esselstyn JA, Oliveros CH, Swanson MT & Faircloth BC (2017) Investigating difficult nodes in the placental mammal tree with expanded taxon sampling and thousands of ultraconserved elements. Genome Biology and Evolution, 9: 2308-2321
Feijoo M & Parada A (2017) Macrosystematics of eutherian mammals combining HTS data to expand taxon coverage. Molecular Phylogenetics and Evolution, 113: 76-83
Foley NM, Springer MS & Teeling EC (2016) Mammal madness: is the mammal tree of life not yet resolved? Philosophical Transactions of the Royal Society B, 371: 20150140
Irisarri I, Baurain D, Brinkmann H, Delsuc F, Sire JY, Kupfer A, Petersen J, Jarek M, Meyer A, Vences M & Philippe H (2017) Phylotranscriptomic consolidation of the jawed vertebrate timetree. Nature Ecology & Evolution, 1: 1370-1378
Jebb D, Huang Z, Pippel M, Hughes GM, Lavrichenko K, Devanna P, Winkler S, Jermiin LS, Skirmuntt EC, Katzourakis A et al. (2020) Six reference-quality genomes reveal evolution of bat adaptations. Nature, 583: 578-584
Liu L, Zhang J, Rheindt FE, Lei F, Qu Y, Wang Y, Zhang Y, Sullivan C, Nie W, Wang J et al. (2017) Genomic evidence reveals a radiation of placental mammals uninterrupted by the KPg boundary. Proceedings of the National Academy of Sciences of the United States of America, 114: E7282-E7290
Liu G, Pan Q, Du J, Zhu PF, Liu WQ, Li ZH, Wang L, Hu CY, Dai YC, Zhang XX et al. (2023) Improved mammalian family phylogeny using gap-rare multiple sequence alignment: A timetree of extant placentals and marsupials. Zoological Research, 44: 1064-1079
Liu G, Pan Q, Dai Y, Wang X, Li M, Zhu P & Zhou X (2024) Phylogenomics of Afrotherian mammals and improved resolution of extant Paenungulata. Molecular Phylogenetics and Evolution, 195: 108047
Lv X, Hu J, Hu Y, Li Y, Xu D, Ryder OA, Irwin DM & Yu L (2021) Diverse phylogenomic datasets uncover a concordant scenario of Laurasiatherian interordinal relationships. Molecular Phylogenetics and Evolution, doi: 10.1016/j.ympev.2020.107065
Murphy WJ, Foley NM, Bredemeyer KR, Gatesy J & Springer MS (2021) Phylogenomics and the genetic architecture of the placental mammal radiation. Annual Review of Animal Biosciences, 9: 5.1-5.25
Shen XX, Hittinger CT & Rokas A (2017) Contentious relationships in phylogenomic studies can be driven by a handful of genes. Nature Ecology & Evolution, 1: 126
Tarver JE, dos Reis M, Mirarab S, Moran RJ, Parker S, O'Reilly JE, King BL, O'Connell MJ, Asher RJ, Warnow T et al. (2016) The interrelationships of placental mammals and the limits of phylogenetic inference. Genome Biology and Evolution, 8: 330-344
Torres-Sánchez M, Creevey CJ, Kornobis E, Gower DJ, Wilkinson M & San Mauro D (2019) Multi-tissue transcriptomes of caecilian amphibians highlight incomplete knowledge of vertebrate gene families. Dna Research, 26: 13-20
Upham NS, Esselstyn JA & Jetz W (2019) Inferring the mammal tree: Species-level sets of phylogenies for questions in ecology, evolution, and conservation. PLoS Biology, 17: e3000494
Wu J, Yonezawa T & Kishino H (2017) Rates of molecular evolution suggest natural history of life history traits and a Post-K-Pg nocturnal bottleneck of placentals. Current Biology, 27: 3025-3033
Zhou X, Sun F, Xu S, Yang G & Li M (2015) The position of tree shrews in the mammalian tree: Comparing multi-genes analyses with phylogenomic results leaves monophyly of Euarchonta doubtful. Integrative Zoology, 10: 186-198