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Historical Biology
An International Journal of Paleobiology
Volume 33, 2021 - Issue 8
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Articles

An aquatic angiosperm of the Late Cretaceous, Mendoza Province, central-western Argentina: its phylogenetic position in Araceae

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Pages 1222-1230 | Received 17 Jul 2019, Accepted 29 Oct 2019, Published online: 13 Nov 2019

References

  • Álvarez Ramis C, Prámparo MB, Papú O. 2004. Estudio preliminar de paleofloras cretácicas procedentes de la base de la Formación Loncoche (Mendoza, Argentina). Coloquios De Paleontología. 54:7–14.
  • Bogner J, Hoffman GL, Aulenback KR. 2005. A fossilized aroid infructescence, Albertarum pueri gen. nov. et sp. nov., of Late Cretaceous (Late Campanian) age from the Horseshoe Canyon Formation of southern Alberta, Canada. Can J Bot. 83:591–598.
  • Bogner J, Johnson KR, Kvaček Z, Upchurch GR. 2007. New fossil leaves of Araceae from the Late Cretaceous and Paleogene of western North America. Zitteliana. Series A, 47:133–147.
  • Bremer K. 1994. Branch support and tree stability. Cladistics. 10:295–304.
  • Cabrera LI, Salazar GA, Chase MW, Mayo SJ, Bogner J, Dávila P. 2008. Phylogenetic relationships of aroids and duckweeds (Araceae) inferred from coding and noncoding plastid DNA. Am J Bot. 95:1153–1165.
  • Cantino PD, Doyle JA, Graham SW, Judd WS, Olmstead RG, Soltis DE, Soltis PS, Donoghue MJ. 2007. Towards a phylogenetic nomenclature of Tracheophyta. Taxon. 56:822–846.
  • Coiffard C, Mohr BAR. 2016. Afrocasia kahlertiana gen. et sp. nov., a new tropical member of Araceae from Late Cretaceous strata of northern Gondwana (Baris, Egypt). Taxon. 65:1374–1384.
  • Coiffard C, Mohr BAR, Bernardes-de-Oliveira MEC. 2013. The Early Cretaceous Aroid, Spixiarum kipea gen. et sp. nov., and implications on early dispersal and ecology of basal monocots. Taxon. 62:997–1008.
  • Cusimano N, Bogner J, Mayo SJ, Boyce PC, Wong SY, Hesse M, Hetterscheid WLA, Keating RC, French JC. 2011. Relationships within the Araceae: comparison of morphological patterns with molecular phylogenies. Am J Bot. 98:654–668.
  • de Jussieu A.L. 1789. Genera Plantarum secundum ordines naturales disposita juxta methodum in horto regio parisiensi exaratam, anno 1774. Paris; p. 498.
  • Den Hartog C, Van der Plas F. 1970. A synopsis of the Lemnaceae. Blumea. 18:355–368.
  • Dumortier BC. 1829. Analyse des Familles des Plantes. Tournay: Casterman; p. 104.
  • Ellis B, Daly DC, Hickey LJ, Johnson KR, Mitchell JD, Wilf P, Wing SL. 2009. Manual of leaf architecture. Vol. 190. Ithaca: Cornell University Press.
  • Friis EM, Pedersen KR, Crane PR. 2004. Araceae from the Early Cretaceous of Portugal: evidence on the emergence of monocotyledons. Proc Natl Acad Sci USA. 101:16565–16570.
  • Friis EM, Pedersen KR, Crane PR. 2010. Diversity in obscurity: fossil flowers and the early history of angiosperms. Philos Trans R Soc Lond B. 365:369–382.
  • Gallego J, Gandolfo MA, Cuneo NR, Zamaloa MC. 2014. Fossil Araceae from the Upper Cretaceous of Patagonia, Argentina,with implications on the origin of free-floating aquatic aroids. Rev Palaeobot Palynol. 211:78–86.
  • Goloboff PA. 1993. Estimating character weights during tree search. Cladistics. 9:83–91.
  • Goloboff PA. 2014. Extended implied weighting. Cladistics. 30:20–272.
  • Goloboff PA, Farris JS. 2001. Methods for quick consensus estimation. Cladistics. 17:26–34.
  • Goloboff PA, Farris JS, Kallersjo M, Oxelman B, Ramírez MJ, Szumik CA. 2003. Improvements to resampling measures of group support. Cladistics. 19:324–332.
  • Goloboff PA, Farris JS, Nixon KC. 2008. TNT, a free program for phylogenetic analysis. Cladistics. 24:774–786.
  • Grayum MH. 1990. Evolution and phylogeny of the Araceae. Ann Missouri Bot Gard. 77:628–697.
  • Group Angiosperm Phylogeny. 2009. An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG III. Bot J Linn Soc. 161:105–121.
  • Herrera FA, Jamarillo CA, Dilcher DL, Wing SL, Gomez-N C. 2008. Fossil Araceae from a Paleocene neotropical rainforest in Colombia. Am J Bot. 95:1569–1583.
  • Kvaček Z. 1995. Limnobiophyllum Krassilov—a fossil link between the Araceae and the Lemnaceae. Aquat Bot. 50:49–61.
  • Landolt E. 1986. Biosystematic Investigations in the Family of Duckweeds (Lemnaceae) (Vol. 2). The family of Lemnaceae-a monographic study (Vol. 1). Veröffentlichungen Des Geobotanischen Instutes Der ETH. 71:1–563.
  • Lanyon SM. 1985. Detecting internal inconsistencies in distance data. Syst Zool. 34:397–403.
  • Legarreta L, Kokogián DA, Boggetti DA. 1989. Depositional sequences 01 the Malargüe Group (Upper Cretaceous-Lower Tertiary), Neuquén Basin, Argentina. Cretac Res. 10:337–356.
  • Martin-Closas C. 2003. The fossil record and evolution of freshwater plants: a review. Geologica Acta. 1:315–338.
  • Mayo SJ, Bogner J, Boyce PC. 1997. The genera of Araceae. Kew: Royal Botanic Gardens; p. 370.
  • Náñez C, Malumián N. 2008. Paleobiogeografía y paleogeografía del Maastrichtiense marino de la Patagonia, Tierra del Fuego y la Plataforma Continental Argentina, según sus foraminíferos bentónicos. Revista Española De Paleontología. 23:273–300.
  • Nauheimer L, Metzler D, Renner SS. 2012. Global history of the ancient monocot family Araceae inferred with models accounting for past continental positions and previous ranges based on fossils. New Phytol. 195:938–950.
  • Papú OH. 2002. Nueva microflora de edad maastrichtiana en la localidad de Calmu-Co, Sur de Mendoza, Argentina. Ameghiniana. 39:415–426.
  • Parras A, Casadío S, Pires M. 1998. Secuencias depositacionales del Grupo Malargüe y el límite Cretácico-Paleógeno, en el sur de la provincia de Mendoza, Argentina. Asociación Paleontológica Argentina Publicación Especial. 5:61–69.
  • Parras A, Griffin M. 2013. Late Cretaceous (Campanian/Maastrichtian) freshwater to restricted marine mollusk fauna from the Loncoche Formation, Neuquén Basin, west-central Argentina. Cretac Res. 40:190–206.
  • Previtera E, González Riga BJ. 2008. Vertebrados cretácicos de la Formación Loncoche en Calmu-Co, Mendoza, Argentina. Ameghiniana. 45:349–359.
  • Puebla GG, Prámparo MB, Gandolfo MA. 2015. Aquatic ferns from the Upper Cretaceous Loncoche Formation, Mendoza, central-western, Argentina. Plant Syst Evol. 301:577–588.
  • Quan C, Sun G. 2008. Late Cretaceous aquatic angiosperms from Jiayin, Heilongjiang, northeast China. Acta Geologica Sinica. 82:1133–1140.
  • Sender LM, Doyle JA, Upchurchr GR Jr., Villanueva-Amadoz U, Diez JB. 2018. Leaf and inflorescence evidence for near-basal Araceae and an unexpected diversity of other monocots from the late Early Cretaceous of Spain. J Syst Palaeontol. 0:1–34.
  • Stockey RA, Hoffman GL, Rothwell GW. 1997. The fossil monocot Limnobiophyllum scutatum: resolving the phylogeny of Lemnaceae. Am J Bot. 84:355–368.
  • Stockey RA, Rothwell GW. 1997. The aquatic angiosperm Trapago angulata from the Upper Cretaceous (Maastrichtian) St. Mary River Formation of Southern Alberta. Int J Plant Sci. 158:83–94.
  • Stockey RA, Rothwell GW, Johnson KR. 2007. Cobbania corrugata gen. et comb. nov. (Araceae): a floating aquatic monocot from the Upper Cretaceous of western North America. Am J Bot. 94:609–624.
  • Stockey RA, Rothwell GW, Johnson KR. 2016. Evaluating relationships among floating aquatic monocots: a new species of Cobbania (Araceae) from the upper Maastrichtian of South Dakota. Int J Plant Sci. 177:706–725.
  • Uliana MA, Biddle KT. 1988. Mesozoic-Cenozoic paleogeographic and geodynamic evolution of southern South America. Revista Brasileira De Geociencias. 18:172–190.
  • Uliana MA, Dellapé DA. 1981. Estratigrafia y evolución paleoambiental de la sucesión Maastrichtiana-eoterciaria del engolfamiento neuquino (Patagonia Septentrional). Octavo Congreso Geológico Argentino (San Luis). 3:673–711.
  • Volkheimer W, Melendi D. 1976. Palinomorfos como fósiles guía. Tercera parte: técnicas de laboratorio palinológico. Revista Minera De Geología Y Mineralogía, Sociedad Argentina De Minería Y Geología. 34:19–30.

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