PREMISE OF THE STUDY: The opuntias (nopales, prickly pears) are not only culturally, ecologically, economically, and medicinally important, but are renowned for their taxonomic difficulty due to interspecific hybridization, polyploidy, and morphological variability. Evolutionary relationships in these stem succulents have been insufficiently studied; thus, delimitation of Opuntia s.s. and major subclades, as well as the biogeographic history of this enigmatic group, remain unresolved. METHODS: We sequenced the plastid intergenic spacers atpB-rbcL, ndhF-rpl32, psbJ-petA, and trnL-trnF, the plastid genes matK and ycf1, the nuclear gene ppc, and ITS to reconstruct the phylogeny of tribe Opuntieae, including Opuntia s.s. We used phylogenetic hypotheses to infer the biogeographic history, divergence times, and potential reticulate evolution of Opuntieae. KEY RESULTS: Within Opuntieae, a clade of Tacinga, Opuntia lilae, Brasiliopuntia, and O. schickendantzii is sister to a well-supported Opuntia s.s., which includes Nopalea. Opuntia s.s. originated in southwestern South America (SA) and then expanded to the Central Andean Valleys and the desert region of western North America (NA). Two major clades evolved in NA, which subsequently diversified into eight subclades. These expanded north to Canada and south to Central America and the Caribbean, eventually returning back to SA primarily via allopolyploid taxa. Dating approaches suggest that most of the major subclades in Opuntia s.s. originated during the Pliocene. CONCLUSIONS: Opuntia s.s. is a well-supported clade that includes Nopalea. The clade originated in southwestern SA, but the NA radiation was the most extensive, resulting in broad morphological diversity and frequent species formation through reticulate evolution and polyploidy.
PREMISE OF THE STUDY: The opuntias (nopales, prickly pears) are not only culturally, ecologically, economically, and medicinally important, but are renowned for their taxonomic difficulty due to interspecific hybridization, polyploidy, and morphological variability. Evolutionary relationships in these stem succulents have been insufficiently studied; thus, delimitation of Opuntia s.s. and major subclades, as well as the biogeographic history of this enigmatic group, remain unresolved. METHODS: We sequenced the plastid intergenic spacers atpB-rbcL, ndhF-rpl32, psbJ-petA, and trnL-trnF, the plastid genes matK and ycf1, the nuclear gene ppc, and ITS to reconstruct the phylogeny of tribe Opuntieae, including Opuntia s.s. We used phylogenetic hypotheses to infer the biogeographic history, divergence times, and potential reticulate evolution of Opuntieae. KEY RESULTS: Within Opuntieae, a clade of Tacinga, Opuntia lilae, Brasiliopuntia, and O. schickendantzii is sister to a well-supported Opuntia s.s., which includes Nopalea. Opuntia s.s. originated in southwestern South America (SA) and then expanded to the Central Andean Valleys and the desert region of western North America (NA). Two major clades evolved in NA, which subsequently diversified into eight subclades. These expanded north to Canada and south to Central America and the Caribbean, eventually returning back to SA primarily via allopolyploid taxa. Dating approaches suggest that most of the major subclades in Opuntia s.s. originated during the Pliocene. CONCLUSIONS:Opuntia s.s. is a well-supported clade that includes Nopalea. The clade originated in southwestern SA, but the NA radiation was the most extensive, resulting in broad morphological diversity and frequent species formation through reticulate evolution and polyploidy.
Authors: Janieire Dorlamis Cordeiro Bezerra; Alberício Pereira de Andrade; Mailson Monteiro do Rêgo; Divan Soares da Silva; José Ribamar Silva do Nascimento Júnior; Fernando Dos Santos Araújo; Roberta de Lima Valença; Elizanilda Ramalho do Rêgo; Angela Maria Dos Santos Pessoa; Riselane de Lucena Alcântara Bruno; Ariosvaldo Nunes de Medeiros Journal: Mol Biol Rep Date: 2022-04-08 Impact factor: 2.742
Authors: Svetlana Shishkova; María Laura Las Peñas; Selene Napsucialy-Mendivil; Marta Matvienko; Alex Kozik; Jesús Montiel; Anallely Patiño; Joseph G Dubrovsky Journal: Ann Bot Date: 2013-05-10 Impact factor: 4.357
Authors: Sarah C Davis; June Simpson; Katia Del Carmen Gil-Vega; Nicholas A Niechayev; Evelien van Tongerlo; Natalia Hurtado Castano; Louisa V Dever; Alberto Búrquez Journal: J Exp Bot Date: 2019-11-29 Impact factor: 6.992
Authors: Monique Romeiro-Brito; Evandro M Moraes; Nigel P Taylor; Daniela C Zappi; Fernando F Franco Journal: Appl Plant Sci Date: 2016-01-11 Impact factor: 1.936