Phylogenetic relationships of †luisiella feruglioi (Bordas) and the recognition of a new clade of freshwater teleosts from the Jurassic of Gondwana Phylogenetics and phylogeography

Sferco, E.; López-Arbarello, A.; Báez, A.M.

doi:10.1186/s12862-015-0551-6

Navegar

Documento Últimos Documentos Autor FCEN - Año Autor FCEN - Revista Año - Revista Revista - Año SubjectPcEn Colores Type

Colección

Artículo

Sferco, E.; López-Arbarello, A.; Báez, A.M. "Phylogenetic relationships of †luisiella feruglioi (Bordas) and the recognition of a new clade of freshwater teleosts from the Jurassic of Gondwana Phylogenetics and phylogeography" (2015) BMC Evolutionary Biology. 15(1)

https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_14712148_v15_n1_p_Sferco

Estamos trabajando para incorporar este artículo al repositorio

Consulte el artículo en la página del editor

Consulte la política de Acceso Abierto del editor

Abstract:

Background: Teleosts constitute more than 99 % of living actinopterygian fishes and fossil teleosts have been studied for about two centuries. However, a general consensus on the definition of Teleostei and the relationships among the major teleostean clades has not been achieved. Our current ideas on the origin and early diversification of teleosts are mainly based on well-known Mesozoic marine taxa, whereas the taxonomy and phylogenetic relationships of many Jurassic continental teleosts are still poorly understood despite their importance to shed light on the early evolutionary history of this group. Here, we explore the phylogenetic relationships of the Late Jurassic (Oxfordian - Tithonian) freshwater †Luisiella feruglioi from Patagonia, in a comprehensive parsimony analysis after a thorough revision of characters from previous phylogenetic studies on Mesozoic teleosts. Results: We retrieved †Luisiella feruglioi as the sister taxon of the Late Jurassic †Cavenderichthys talbragarensis, both taxa in turn forming a monophyletic group with the Early Cretaceous †Leptolepis koonwarri. This new so far exclusively Gondwanan freshwater teleost clade, named †Luisiellidae fam. nov. herein, is placed outside crown Teleostei, as a member of the stem-group immediately above the level of †Leptolepis coryphaenoides. In addition, we did not retrieve the Late Jurassic †Varasichthyidae as a member of †Crossognathiformes. The position of †Crossognathiformes within Teleocephala is confirmed whereas †Varasichthyidae is placed on the stem. Conclusions: The general morphology of luisiellids is that of basal, stem Teleocephala; however, most of their synapomorphies have evolved independently in teleocephalans. Similarly, the resemblance between varasichthyids and crossognathiforms might be due to parallel evolution. In accordance to most teleostean phylogenies, our analysis shows that a major morphological change occurred along the stem line and are currently recorded at the level of †Leptolepis coryphaenoides. A stem-based total clade Teleostei has been accepted for this work. © 2015 Sferco et al.

Registro:

Documento:	Artículo
Título:	Phylogenetic relationships of †luisiella feruglioi (Bordas) and the recognition of a new clade of freshwater teleosts from the Jurassic of Gondwana Phylogenetics and phylogeography
Autor:	Sferco, E.; López-Arbarello, A.; Báez, A.M.
Filiación:	Laboratorio de Paleontología Evolutiva de Vertebrados, Departamento de Geologí, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Ciudad Universitaria, Pabellón II, Buenos Aires, 1428, Argentina CICTERRA-CONICET-UNC, Av. Velez Sarsfield 1611, Córdoba, X0516GCA, Argentina SNSB, Bayerische Staatssammlung für Paläontologie und Geologie and GeoBio-Center, Ludwig Maximilian University, Richard-Wagner-Strasse 10, Munich, D-80333, Germany
Palabras clave:	Freshwater teleosts; Gondwana; Jurassic teleosts; Teleost phylogeny; Teleostei; fossil record; freshwater environment; Gondwana; Jurassic; morphology; phylogenetics; phylogeny; phylogeography; taxonomy; teleost; Coryphaenoides; Crossognathiformes; Pisces; Teleostei; fresh water; animal; classification; evolution; fish; fossil; genetics; phylogeny; Animals; Biological Evolution; Fishes; Fossils; Fresh Water; Phylogeny
Año:	2015
Volumen:	15
Número:	1
DOI:	http://dx.doi.org/10.1186/s12862-015-0551-6
Título revista:	BMC Evolutionary Biology
Título revista abreviado:	BMC Evol. Biol.
ISSN:	14712148
Registro:	https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_14712148_v15_n1_p_Sferco

Referencias:

Eschmeyer, W.N., Fong, J.D., (2015) Species by Family/Subfamily, , http://www.calacademy.org/scientists/projects/catalog-of-fishes, Accessed 18 June 2014. [Recalculated with each new version; based on current literature, this provides all available species names, valid species, and species described in the last 10 years by family/subfamily.]
Arratia, G., Phylogenetic relationships of Teleostei: Past and present (2000) Estud Oceanol., 19, pp. 19-51
Diogo, R., Doadrio, I., Vandewalle, P., Teleostean phylogeny based on osteological and myological characters (2008) Int J Morphol., 26, pp. 463-522
Near, T.J., Eytan, R.I., Dornberg, A., Kuhn, K.L., Moore, J.A., Davis, M.P., Wainwright, P.C., Smith, W.L., Resolution of ray-finned fish phylogeny and timing of diversification (2012) PNAS, 109, pp. 13698-13703. , 3427055 1:CAS:528:DC%2BC38XhsValu7fN 22869754
Sallan, L.C., Major issues in the origins of ray-finned fish (Actinopterygii) biodiversity (2014) Biol Rev., 89, pp. 950-971. , 24612207
Arratia, G., Remarkable teleostean fishes from the Late Jurassic Southern Germany and their phylogenetic relationships (2000) Mitt Mus Natkd Berl, Geowiss Reihe., 3, pp. 137-179
Arratia, G., Morphology, taxonomy, and phylogeny of Triassic pholidophorid fishes (Actinopterygii, Teleostei) (2013) J Vert Pal., 33, pp. 1-138
Arratia, G., Mesozoic halecostomes and the early radiation of teleosts (2004) Mesozoic Fishes 3 - Systematics, Paleoenvironments and Biodiversity, pp. 279-315. , G. Arratia A. Tintori (eds) Verlag Dr. Friedrich Pfeil München
Patterson, C., The contribution of paleontology to teleostean phylogeny (1977) Major Patterns in Vertebrate Evolution, pp. 579-643. , M.K. Hecht P.C. Goody B.M. Hecht (eds) Plenum Press New York
Patterson, C., Rosen, D.E., Review of the ichthyodectiform and other Mesozoic fishes and the theory and practice of classifying fossils (1977) Bull Am Mus Nat Hist., 158, pp. 81-172
Arratia, G., The caudal skeleton of Jurassic teleosts: A phylogenetic analysis (1991) Early Vertebrates and Related Problems in Evolutionary Biology, pp. 249-340. , M.M. Chang Y.H. Liu G.R. Zhang (eds) Science Press Beijing
Arratia, G., Phylogenetic and paleogeographic relationships of the varasichthyid group (Teleostei) from the Late Jurassic of Central and South America (1994) Rev Geol Chile., 21, pp. 119-165
Arratia, G., Reassessment of the phylogenetic interrelationships of certain Jurassic teleosts and their implications on teleostean phylogeny (1996) Mesozoic Fishes - Systematics and Paleoecology, pp. 219-242. , G. Arratia G. Viohl (eds) Verlag Dr Friedrich Pfeil München
Arratia, G., Basal teleosts and teleostean phylogeny (1997) Palaeo Ichthyologica., 7, pp. 5-168
Arratia, G., The monophyly of Teleostei and stem-group teleosts. Consensus and disagreements (1999) Mesozoic Fishes 2 - Systematics and Fossil Record, pp. 265-334. , G. Arratia H. Schultze (eds) Verlag Dr Friedrich Pfeil München
Arratia, G., New teleostean fishes from the Jurassic of southern Germany and the systematics problems concerning the "pholidophoriforms" (2000) Paläontol Z., 74, pp. 113-143
Arratia, G., The varasichthyid and other crossognathiform fishes, and the break-up of Pangaea (2008) Fishes and the Break-up of Pangaea: Special Publication 295, pp. 71-92. , L. Cavin A. Longbottom M. Richter (eds) Geological Society London
Arratia, G., Tischlinger, H., The first record of Late Jurassic crossognathiform fishes from Europe and their phylogenetic importance for teleostean phylogeny (2010) Foss Rec., 13, pp. 317-341
Taverne, L., Étude ostéologique de Leptolepis caheni, téléostéen fossile du Jurassique supérieur (Kimméridgien) de Kisangani (ex-Stanleyville, Zaïre) précédemment décrit dans le genre Paraclupavus (1975) Rev Zool Afr., 89, pp. 821-853
Taverne, L., Position systématique et relations phylogénétiques de Paraclupavus ("Leptolepis") caheni, téléostéen marin du Jurassique moyen de Kisangani (Calcaires de Songa, Étage de Stanleyville), République Démocratique du Congo (2001) Mus Roy Afr Centr, Tervuren (Belg), Dépt Géol Min Rapp Ann 1999-2000, 2001, pp. 55-76
Schaeffer, B., A Jurassic fish from Antarctica (1972) Am Mus Novit., 2495, pp. 1-17
Taverne, L., Ostéologie et relations phylogénétiques de Catervariolus (Teleostei, "pholidophoriformes") du Jurassique moyen de Kisangani en République Démocratique du Congo (2011) Bull Inst Roy Sci Nat Belgique, Sci de la Terre., 81, pp. 175-212
Wilson, M.V.H., Bruner, J.C., Mesozoic fish assemblages of North America (2004) Mesozoic Fishes 3 - Systematics, Paleoenvironments and Biodiversity, pp. 575-595. , G. Arratia A. Tintori (eds) Verlag Dr. Friedrich Pfeil München
Kirkland, J.I., Morrison fishes (1998) Mod Geol, 22, pp. 503-533
López-Arbarello, A., Rauhut, O.W.M., Moser, K., Peces jurásicos de Gondwana (2008) RAGA, 63 (4), pp. 557-585
Chang, M.M., Miao, D., An overview of Mesozoic Fishes in Asia (2004) Mesozoic Fishes 3 - Systematics, Paleoenvironments and Biodiversity, pp. 535-563. , G. Arratia A. Tintori (eds) Verlag Dr. Friedrich Pfeil München
Donoghue, M.I., Doyle, J.A., Gauthier, J., Kluge, A.G., Rowe, T., The importance of fossils in phylogeny reconstruction (1989) Annu. Rev. Ecol. Syst., 20, pp. 431-460
Gauthier, J., Kluge, A.G., Rowe, T., Amniote phylogeny and the importance of fossils (1988) Cladistics., 4, pp. 105-209
Bergsten, J., A review of long-branch attraction (2005) Cladistics., 21, pp. 163-193
Wagner, P.J., Ruta, M., Coates, M.I., Evolutionary patterns in early tetrapods. II. Differing constraints on available character space among clades (2006) Proc. R. Soc. B., 273, pp. 2113-2118. , 1635522 16901829
Bordas, A.F., Peces del Cretácico del Río Chubut (Patagonia) (1942) Physis., 19, pp. 313-318
Sferco, E., López-Arbarello, A., Báez, A.M., Anatomical description and taxonomy of †luisiella feruglioi (Bordas) new combination, a freshwater teleost (Actinopterygii, Teleostei) from the Upper Jurassic of Patagonia (2015) J Vert Pal, , doi. 10.1080/02724634.2014.924958
De Pinna, M.C.C., Teleostean monophyly (1996) Interrelationships of Fishes, pp. 147-162. , M.L.J. Stiassny L.D. Parenti G.D. Johnson (eds) Academic San Diego
Wiley, E.O., Johnson, G.D., A teleost classification based on monophyletic groups (2010) Origin and Phylogenetic Interrelationships of Teleosts, pp. 123-182. , J.S. Nelson H. Schultze M.V.H. Wilson (eds) Verlag Dr. Friedrich Pfeil München
De Queiroz, K., Replacement of an essentialistic perspective on taxonomic definitions as exemplified by the definition of "mammalia" (1994) Syst Biol, 43 (4), pp. 497-510
Müller, J., (1846) Über Den Bau und Die Grenzen der Ganoiden und Über das Natürliche System der Fische, pp. 117-216. , Bericht über die zur Bekanntmachung geeigneten Verh K Preuss Akad Wiss Berlin
Regan, C.T., The skeleton of Lepidosteus, with remarks on the origin and evolution of the lower neopterygian fishes (1923) Proc Zool Soc Lond., 1923, pp. 445-461
Berg, L.S., Classification of fishes both Recent and fossil (1940) Trudy Zoolog Inst, Leningrad., 5, pp. 87-517
Arambourg, C., Bertin, L., Superordre des Holostéens et des Halecostomi (Holostei et Halecostomi) (1958) Traité de Zoologie: Anatomie, Systématique, Biologie, 13, pp. 2173-2203. , P. Grassé (eds) Masson et Cie Paris
Gosline, W.A., Teleostean phylogeny (1965) Copeia, pp. 186-194
Lehman, J.P., Actinopterygii (1966) Traité de Paléontologie Vol. 4, pp. 1-242. , J. Piveteau (eds) Masson Paris
Patterson, C., Interrelationships of holosteans (1973) Interrelationships of Fishes. Zool J Linn Soc Suppl 1, pp. 233-305. , Greenwood PH, Miles RS, Patterson C, editors London: Academic Press
Gardiner, B.G., Maisey, J.G., Littlewood, D.T.J., Interrelationships of Basal Neopterigians (1996) Interrelationships of Fishes, pp. 117-146. , M.L.J. Stiassny L.D. Parenti G.D. Johnson (eds) Academic San Diego
De Queiroz, K., Gauthier, J., Phylogeny as a central principle in taxonomy: Phylogenetic definitions of taxon names (1990) Syst Zool., 39, pp. 307-322
De Queiroz, K., Nodes, Branches, and Phylogenetic Definitions (2013) Syst Biol, 62 (4), pp. 625-632. , 23619174
Kriwet, J., (2001) A Comprehensive Study of Pycnodont Fishes (Neopterygii, Pycnodontiformes), , Berlin: Humboldt Universität [PhD Thesis]
Liston, J., Newbrey, M.G., Challands, T.J., Adams, C.E., Growth, age and size of the Jurassic pachycormid Leedsichthys problematicus (Osteichthyes: Actinopterygii) (2013) Mesozoic Fishes 5 - Global Diversity and Evolution, pp. 145-175. , G. Arratia H. Schultze M.V.H. Wilson (eds) Verlag Dr Friedrich Pfeil München
Diogo, R., Kelly, R.G., Christiaen, L., Levine, M., Ziermann, J.M., Molnar, J.L., Noden, D.M., Tzahor, E., A new heart for a new head in vertebrate cardiopharyngeal evolution (2015) Nature, 520 (7548), pp. 466-473. , 1:CAS:528:DC%2BC2MXotFarurc%3D 25903628
Arratia, G., The sister-group of Teleostei: Consensus and disagreements (2001) J Vert Pal, 21 (4), pp. 767-773
(2000) International Code of Zoological Nomenclature, , International Commission on Zoological Nomenclature 4 The International Trust for Zoological Nomenclature London
Grande, L., Recent and fossil clupeomorph fishes with materials for revision of the subgroups of clupeoids (1985) Bull Am Mus Nat Hist., 181, pp. 231-372
Maisey, J.G., (1991) Santana Fossils: An Illustrated Atlas, , TFH Publications Inc Neptune
Li, G.Q., Wilson, M.V.H., Phylogeny of Osteoglossomorpha (1996) Interrelationships of Fishes, pp. 163-174. , M.L.J. Stiassny L.D. Parenti G.D. Johnson (eds) Academic San Diego
Li, G.Q., Wilson, M.V.H., Early divergence of Hiodontiformes sensu stricto in East Asia and phylogeny of some Late Mesozoic teleosts from China (1999) Mesozoic Fishes 2 - Systematics and Fossil Record, pp. 369-384. , G. Arratia H. Schultze (eds) Verlag Dr Friedrich Pfeil München
Brito, P., Révision des Aspidorhynchidae (Pisces, Actinopterygii) du Mésozoïque: Ostéologie, relations phylogénétiques, données environnementales et biogéographiques (1997) Geodiversitas., 19, pp. 681-682
Grande, L., Bemis, W.E., A comprehensive phylogenetic study of amiid fishes (Amiidae) based on comparative skeletal anatomy: An empirical search for interconected patterns of natural history (1998) J Vert Pal, 18, pp. 1-690
Grande, T., Poyato-Ariza, F.J., Phylogenetic relationships of fossil and recent gonorynchiform fishes (Teleostei: Ostariophysi) (1999) Zool J Linn Soc., 125, pp. 197-238
Filleul, A., Analyse critique des synapomorphies des Elopomorphes et analyse phylogénétique du groupe (2000) Cybium, 24 (3), pp. 75-83
Sanford, C.P.J., (2000) Salmonoid Fish Osteology and Phylogeny (Teleostei: Salmonoidei), , ARG Gantner Ruggell/Liechtenstein
Cavin, L., Osteology and phylogenetic relationships of the teleost Goulmimichthys arambourgi Cavin 1995, from the Upper Cretaceous of Goulmima, Morocco (2001) Eclogae Geol Helv., 94, pp. 509-535
Hilton, E.J., Comparative osteology and phylogenetic systematics of fossil and living bony-tongue fishes (Actinopterygii, Teleostei, Osteoglossomorpha) (2003) Zool J Linn Soc., 137, pp. 1-100
Alvarado-Ortega, J., Description and relationships of a new Ichthyodectiform fish from the Tlayúa Formation (Early Cretaceous: Albian), Puebla, Mexico (2004) J Vert Pal., 24, pp. 502-813
Hurley, I.A., Mueller, R.L., Dunn, K.A., Schmidt, K.J., Friedman, M., Ho, R.K., Prince, V.E., Coates, M.I., A new time-scale for ray-finned fish evolution (2007) Proceedings B., 274, pp. 489-498. , 1:CAS:528:DC%2BD2sXjtF2itr4%3D
Mirande, M., Phylogeny of the family Characidae (Teleostei: Characiformes): from characters to taxonomy (2010) Neotrop Ichthyol., 8, pp. 385-568
Jenner, R.A., Boolean logic and character state identity: Pitfalls of character coding in metazoan cladistics (2002) Contrib Zool, 71, pp. 67-91
Maddison, W.P., Maddison, D.R., (2011) Mesquite: A Modular System for Evolutionary Analysis, , http://mesquiteproject.org, Version 2.75
Goloboff, P.A., Farris, J.S., Nixon, K.T.N.T., A free program for phylogenetic analisys (2008) Cladistics., 24, pp. 774-786
Santini, F., Harmon, L.J., Carnevale, G., Alfaro, M.E., Did genome duplication drive the origin of teleosts? A comparative study of diversification in ray-finned fishes (2009) BMC Evol Biol., 9, p. 194. , 2743667 19664233
Broughton, R.E., Betancur, R.R., Li, C., Arratia, G., Orti, G., Multi-locus phylogenetic analyses reveals the pattern and tempo of bony fish evolution (2013) PLoS Currents Tree of Life Edition 1
Swofford, D.L., (2002) PAUP∗. Phylogenetic Analysis Using Parsimony (∗And Other Methods). Version 4, , Sinauer Associates Sunderland
Scott, E., A phylogeny of ranid frogs (Anura: Ranoidea: Ranidae), based on a simultaneous analysis of morphological and molecular data (2005) Cladistics., 21, pp. 507-574
Nelson, G.J., Cephalic sensory canals, pitlines, and the classification of esocoid fishes, with notes on galaxiids and other teleosts (1972) Am Mus Novit., 2492, pp. 1-50
Rosen, D.E., Phylogeny and zoogeography of salmoniform fishes and relationships of Lepidagalaxias salamandroides (1974) Bull Am Mus Nat Hist., 153, pp. 265-326
Wilson, M.V.H., Veilleux, P., Comparative osteology and relationships of the Umbridae (Pisces: Salmoniformes) (1982) Zool J Linn Soc., 76, pp. 321-352
Osinov, A.G., Lebedev, V.S., Salmonid fishes (Salmonidae, Salmoniformes): The systematic position in the superorder Protacanthopterygii -the main stages of evolution, and molecular dating (2004) J Ichthyol, 44 (9), pp. 690-715
Li, J., Xia, R., McDowall, R.M., Lopez, J.A., Lei, G., Fu, C., Phylogenetic position of the enigmatic Lepidogalaxias salamandroides with comment on the orders of lower euteleostean fishes (2010) Mol Phylogenet Evol., 57, pp. 932-936. , 20674753
Patterson, C., The caudal skeleton in Lower Liassic pholidophorid fishes (1968) Bull Brit Mus (Nat Hist) Geol., 16, pp. 201-239
Nybelin, O., A revision of the leptolepid fishes (1974) Acta Reg Soc Sci Litt Goth Zool., 9, pp. 1-202
Arratia, G., Varasichthys ariasi n. gen. et sp. from the Upper Jurassic of Chile (Pisces, Teleostei, Varasichthyidae) (1981) Palaeontographica A, 175, pp. 107-139
Poyato-Ariza, F.J., A revision of the ostariophysan fish family Chanidae, with special reference to the Mesozoic forms (1996) Palaeo Ichthyologica., 6, pp. 5-52
Bocchino, A., Luisiella inexcutata gen. et sp. nov. (Pisces, Clupeiformes, Dussumieridae) del Jurásico superior de la Provincia de Chubut, Argentina (1967) Ameghiniana, 4, pp. 91-100
McLoughlin, S., The breakup history of Gondwana and its impact on pre-Cenozoic floristic provincialism (2001) Aust J Bot, 49 (3), pp. 271-300
Waldman, M., Fish from the freshwater Lower Cretaceous of Victoria, Australia with comments on the palaeo-environment (1971) Spec Pap Palaeontol., 9, pp. 1-62
Woodward, A.S., (1901) Catalogue of the Fossil Fishes in the British Museum (Natural History), 4, , British Museum (Natural History) London
Teller-Marshall, S., Bardack, D., The morphology and relationships of the Cretaceous teleost Apsopelix (1978) Fieldiana., 41, pp. 1-35
Taverne, L., Les Actinoptérygiens de l'Aptien inférieur (Töck) d'Helgoland (1981) Mitt Geol-Pal Inst Univ Hamburg., 51, pp. 43-82
Forey, P.L., The osteology of Notelops Woodward, Rhacolepis Agassiz and Pachyrhizodus Dixon (Pisces: Teleostei) (1977) Bull Brit Mus (Nat Hist) Geol., 28, pp. 125-204
Taverne, L., Crossognathus Pictet, 1858 du Cretacé inférieur de l'Europe et systématique, paleozoogeographie et biologie des Crossognathiformes nov. ord. (Téléostéens) du Cretacé et du Tertiare (1989) Palaeontographica A, 207, pp. 79-105
Patterson, C., Osteichthyes: Teleostei (1993) Fossils Record 2, pp. 621-656. , M.J. Benton (eds) Chapman & Hall London
Cavin, L., Grigorescu, D., A new Crossognathus (Actinopterygii, Teleostei) from the Lower Cretaceous of Romania with comments on Crossognathidae relationships (2005) Geodiversitas., 27, pp. 5-16
Mayrinck, D., Brito, P.M., Otero, O., Anatomical review of †salminops ibericus, a Teleostei incertae sedis from the Cenomanian of Portugal, anciently assigned to Characiformes and possibly related to crossognathiform fishes (2015) Cret Res
Desutter-Grandcolas, L., Legendre, F., Grandcolas, P., Robillard, T., Murienne, J., Distinguishing between convergence and parallelism is central to comparative biology: A reply to Williams and Ebach (2007) Cladistics, 23 (1), pp. 90-94
Woodward, A.S., The fossil fishes of the Talbragar Beds (Jurassic?) (1895) New South Wales Geol Survey Mem (Palaeont), 9, pp. 71-95
O'Leary, M.A., Kaufman, S.G., (2012) MorphoBank 3.0: Web Application for Morphological Phylogenetics and Taxonomy, , http://www.morphobank.org

Citas:

---------- APA ----------

Sferco, E., López-Arbarello, A. & Báez, A.M. (2015) . Phylogenetic relationships of †luisiella feruglioi (Bordas) and the recognition of a new clade of freshwater teleosts from the Jurassic of Gondwana Phylogenetics and phylogeography. BMC Evolutionary Biology, 15(1).
http://dx.doi.org/10.1186/s12862-015-0551-6

---------- CHICAGO ----------

Sferco, E., López-Arbarello, A., Báez, A.M. "Phylogenetic relationships of †luisiella feruglioi (Bordas) and the recognition of a new clade of freshwater teleosts from the Jurassic of Gondwana Phylogenetics and phylogeography" . BMC Evolutionary Biology 15, no. 1 (2015).
http://dx.doi.org/10.1186/s12862-015-0551-6

---------- MLA ----------

Sferco, E., López-Arbarello, A., Báez, A.M. "Phylogenetic relationships of †luisiella feruglioi (Bordas) and the recognition of a new clade of freshwater teleosts from the Jurassic of Gondwana Phylogenetics and phylogeography" . BMC Evolutionary Biology, vol. 15, no. 1, 2015.
http://dx.doi.org/10.1186/s12862-015-0551-6

---------- VANCOUVER ----------

Sferco, E., López-Arbarello, A., Báez, A.M. Phylogenetic relationships of †luisiella feruglioi (Bordas) and the recognition of a new clade of freshwater teleosts from the Jurassic of Gondwana Phylogenetics and phylogeography. BMC Evol. Biol. 2015;15(1).
http://dx.doi.org/10.1186/s12862-015-0551-6