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Following recent mimosoid phylogenetic and phylogenomic studies demonstrating the non-monophyly of the genus Albizia, we present a new molecular phylogeny focused on the neotropical species in the genus, with much denser taxon sampling than previous studies. Our aims were to test the monophyly of the neotropical section Arthrosamanea, resolve species relationships, and gain insights into the evolution of fruit morphology. We perform a Bayesian phylogenetic analysis of sequences of nuclear internal and external transcribed spacer regions and trace the evolution of fruit dehiscence and lomentiform pods. Our results find further support for the non-monophyly of the genus Albizia, and confirm the previously proposed segregation of Hesperalbizia, Hydrochorea, Balizia and Pseudosamanea. All species that were sampled from section Arthrosamanea form a clade that is sister to a clade composed of Jupunba, Punjuba, Balizia and Hydrochorea. We find that lomentiform fruits are independently derived from indehiscent septate fruits in both Hydrochorea and section Arthrosamanea. Our results show that morphological adaptations to hydrochory, associated with shifts into seasonally flooded habitats, have occurred several times independently in different geographic areas and different lineages within the ingoid clade. This suggests that environmental conditions have likely played a key role in the evolution of fruit types in Albizia and related genera. We resurrect the name Pseudalbizzia to accommodate the species of section Arthrosamanea, except for two species that were not sampled here but have been shown in other studies to be more closely related to other ingoid genera and we restrict the name Albizia s.s. to the species from Africa, Madagascar, Asia, Australia, and the Pacific. Twenty-one new nomenclatural combinations in Pseudalbizzia are proposed, including 16 species and 5 infraspecific varietal names. In addition to the type species Pseudalbizziaberteroana, the genus has 17 species distributed across tropical regions of the Americas, including the Caribbean. Finally, a new infrageneric classification into five sections is proposed and a distribution map of the species of Pseudalbizzia is presented.
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We present the most complete molecular phylogeny to date of the Pithecellobium clade of subfamily Caesalpinioideae. This neotropical group was informally recognised (as the Pithecellobium alliance) at the end of the 20th century by Barneby and Grimes (1996) and includes five genera and 33 species distributed from the southern United States and Caribbean Islands to north-eastern South America. Our aims were to further test the monophyly of the group and its genera and to identify sister group relationships within and amongst the genera. A phylogenetic analysis of nuclear ribosomal DNA sequences (ITS and ETS) was performed. The results provide further support for the monophyly of the Pithecellobium clade. The genera Ebenopsis, Pithecellobium and Sphinga were strongly supported as monophyletic. Havardia and Painteria were found to be non-monophyletic, prompting their re-circumscriptions and the description of two new genera: Gretheria and Ricoa. New combinations are made for the three species transferred to the new genera.
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El género Oecopetalum Greenm. & C.H. Thomps. (Metteniusaceae) se distribuye en el sureste de México y en América Central (Guatemala, Nicaragua y Costa Rica). Tres especies han sido descritas. Estudiamos especímenes de herbario de Oecopetalum y realizamos un análisis filogenético basado en los genes de los cloroplastos matK y ndhF para responder a las preguntas principales: ¿Cuántas especies hay en el género Oecopetalum? ¿Es Oecopetalum monofilético? ¿Cuáles son las relaciones genéricas con otros miembros de la familia? Oecopetalum es un género monofilético con solo dos especies y Pittosporosis es el grupo hermano. La relación transatlántica de Oecopetalum y Pittosporosis es un patrón geográfico recurrente en la familia Mettenuisaceae, así como en Icacinaceae. Nuestros resultados, en concordancia con la evidencia fósil y las relaciones de otros grupos, apoyan el modelo boreotropical de migraciones terrestres de táxones tropicales desde latitudes altas durante el Paleoceno-Eoceno, globalmente cálido.
Oecopetalum Greenm. & C.H. Thomps. (Metteniusaceae) is distributed in the southeastern portion of Mexico to Central America (Guatemala, Nicaragua, and Costa Rica). Three species have been described. We studied herbarium specimens of the genus Oecopetalum and performed a phylogenetic analysis based on the plastid genes matK and ndhF to answer several major questions: How many species are in the genus Oecopetalum? Is Oecopetalum monophyletic, and how is the genus related to other members of the family? Our results indicate that Oecopetalum is monophyletic, with only two species, and sister to the Asian genus Pittosporopsis. The Trans-Atlantic relationship of Oecopetalum and Pittosporosis is a recurrent geographic pattern in the families Mettenuisaceae and Icacinaceae. Our results, in agreement the fossil record and previous phylogenetic studies, support the boreotropical model of high-latitude terrestrial migrations of tropical taxa during the globally warm Paleocene-Eocene.
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RESUMEN Se contribuye al conocimiento de la diversidad florística de la familia Orchidaceae presente en el sistema fluvio-lagunar-deltaico Palizada-del Este (SFLD-PE) a partir de los datos obtenidos de 15 recolectas realizadas en diez sitios, durante agosto 2013 a febrero 2014. El listado incluye 27 especies en 17 géneros. Ocho especies son nuevos registros para el SFLD-PE: Bletia purpurea, Catasetum integerrimum, Habenaria pringlei, H. repens, Laelia (Schomburgkia) rubescens, Myrmecophila tibicinis, Ornithocephalus inflexus y Rhetinantha friedrichsthalii. Los géneros con el mayor número de especies son Epidendrum (4) y Prosthechea (4). En lo que respecta al hábito de crecimiento, 23 especies son epífitas (85 %), tres especies son terrestres o semiacuáticas (12 %) y una especie es exclusivamente terrestre (3 %). Las especies mejor representadas en los sitios son Brassavola grandiflora (8), Bletia purpurea (7) y Habenaria repens (6). Los hospederos con mayor número de especies son Pachira aquatica (20) y Zygia latifolia (7). Epidendrum isthmi fue la única especie que se encuentra en alguna categoría de riesgo, de acuerdo a la NOM-059-SEMARNAT-2010. Diversas acciones antrópicas inciden negativamente en el SFLD-PE: deforestación, incendios y apertura de canales de agua provocan el deterioro y fragmentación de los hábitats, lo que pone en peligro el futuro de este grupo taxonómico y de otros grupos de plantas, por lo que el conocimiento de la biodiversidad de esta área es necesario para establecer estrategias de conservación, restauración y manejo sustentable.
ABSTRACT This paper is a contribution to the knowledge of the diversity of Orchidaceae in the Palizada del Este (SFLD-PE) fluvial-lagoon-deltic system based upon data generated from 15 collection events at ten sites conducted August 2012 through February 2014. The checklist includes 27 species in 17 genera. Eight species are new records for the SFLD-PE: Bletia purpurea, Catasetum integerrimum, Habenaria pringlei, H. repens, Laelia (Schomburgkia) rubescens, Myrmecophila tibicinis, Ornithocephalus inflexus, and Rhetinantha friedrichsthalii. The genera with the largest number of species are Epidendrum (4) and Prosthechea (4). As regards to life form, 23 species are epiphytic (85 %), three species are terrestrial or semiaquatic (12 %), and one species is terrestrial (3 %). The species present in more sites are Brassavola grandiflora (8), Bletia purpurea (7), and Habenaria repens (6). The hosts with the largest number of species are Pachira aquatica (20) and Zygia latifolia (7). Epidendrum isthmi is found in a risk category according to NOM-059-SEMARNAT-2010. Several anthropic actions negatively affect the SFLD-PE: deforestation, fires, and open water channels lead to deterioration and fragmentation of habitats, which threatens the future of this taxonomic group as well as that of other groups of plants. Thus, knowledge of the biodiversity of this area is necessary for developing sound strategies for conservation, restoration, and sustainable management.
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PREMISE OF THE STUDY: Major relationships within Lamiidae, an asterid clade with â¼40000 species, have largely eluded resolution despite two decades of intensive study. The phylogenetic positions of Icacinaceae and other early-diverging lamiid clades (Garryales, Metteniusaceae, and Oncothecaceae) have been particularly problematic, hindering classification and impeding our understanding of early lamiid (and euasterid) character evolution. METHODS: To resolve basal lamiid phylogeny, we sequenced 50 plastid genomes using the Illumina sequencing platform and combined these with available asterid plastome sequence data for more comprehensive phylogenetic analyses. KEY RESULTS: Our analyses resolved basal lamiid relationships with strong support, including the circumscription and phylogenetic position of the enigmatic Icacinaceae. This greatly improved basal lamiid phylogeny offers insight into character evolution and facilitates an updated classification for this clade, which we present here, including phylogenetic definitions for 10 new or converted clade names. We also offer recommendations for applying this classification to the Angiosperm Phylogeny Group (APG) system, including the recognition of a reduced Icacinaceae, an expanded Metteniusaceae, and two orders new to APG: Icacinales (Icacinaceae + Oncothecaceae) and Metteniusales (Metteniusaceae). CONCLUSIONS: The lamiids possibly radiated from an ancestry of tropical trees with inconspicuous flowers and large, drupaceous fruits, given that these morphological characters are distributed across a grade of lineages (Icacinaceae, Oncothecaceae, Metteniusaceae) subtending the core lamiid clade (Boraginales, Gentianales, Lamiales, Solanales, Vahlia). Furthermore, the presence of similar morphological features among members of Aquifoliales suggests these characters might be ancestral for the Gentianidae (euasterids) as a whole.
