Vataireoids

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Vataireoids
Vatairea macrocarpa 1 Joao de Deus Medeiros.jpg
Vatairea macrocarpa
Scientific classification OOjs UI icon edit-ltr.svg
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Fabales
Family: Fabaceae
Subfamily: Faboideae
Clade: Meso-Papilionoideae
Clade: Vataireoids
(Pennington et al. 2001 [1] ) Wojciechowski 2013 [2]
Genera
Synonyms
  • Sophoreae sensu Polhill, 1981pro parte 5

The vataireoids are an early-branching monophyletic clade of the flowering plant subfamily Faboideae (or Papilionaceae) that are mostly found in northern South America, primarily Brazil. [3] [4]

Description

This clade is composed of four genera, two of which were traditionally assigned to the tribe Dalbergieae ( Vatairea and Vataireopsis ) and two of which were traditionally assigned to the tribe Sophoreae ( Luetzelburgia and Sweetia ), mainly on the basis of flower morphology. [5] [6] However, recent molecular phylogenetic analyses circumscribed these four genera into a strongly supported monophyletic clade. [3] [4] [7] The name of this clade is informal and is not assumed to have any particular taxonomic rank like the names authorized by the ICBN or the ICPN. [2] The clade is defined as:

"The most inclusive crown clade containing Sweetia fruticosa Spreng. 1825 and Vatairea guianensis Aubl. but not Andira inermis (W. Wright) DC., Zollernia ilicifolia (Brongn.) Vogel 1837, or Aldina insignis (Benth.) Endl. 1843." [2]

Related Research Articles

<i>Camoensia</i> (plant) Genus of legumes

Camoensia is a genus of 2 species of lianas in the family Fabaceae, subfamily Faboideae, native to the Gulf of Guinea, Africa. C. scandens is cultivated as an ornamental plant; it has one of the largest leguminous flowers, up to 20 cm across. The genus has classically been assigned to the tribe Sophoreae, but was recently assigned to its own monophyletic tribe, Camoensieae, on the basis of molecular phylogenetic evidence. Species of Camoensia are known to produce quinolizidine alkaloids, consistent with their placement in the genistoid clade.

<i>Airyantha</i> Genus of legumes

Airyantha is a small genus of flowering plants in the legume family, Fabaceae. It belongs to the subfamily Faboideae. It was named after the botanist Herbert Kenneth Airy Shaw. It was traditionally assigned to the tribe Sophoreae; however, recent molecular phylogenetic analyses reassigned Airyantha into the Baphieae tribe.

Leucomphalos is a genus of flowering plants in the legume family, Fabaceae. It contains a single species, Leucomphalos capparideus, a climbing perennial shrub native to the Guineo-Congolian forest of Nigeria, Cameroon, Equatorial Guinea, Gabon, and the Gulf of Guinea Islands. It belongs to the subfamily Faboideae. Leucomphalos was traditionally assigned to the tribe Sophoreae; however, recent molecular phylogenetic analyses reassigned Leucomphalos to the Baphieae tribe.

<i>Luetzelburgia</i> Genus of legumes

Luetzelburgia is a genus of flowering plants in the legume family, Fabaceae. It includes 14 species of trees and shrubs native to Brazil, Bolivia, and Colombia. Typical habitat is seasonally-dry tropical lowland woodland and wooded grassland, and occasionally lowland rain forests. The genus belongs to the subfamily Faboideae. It was traditionally assigned to the tribe Sophoreae, mainly on the basis of flower morphology; recent molecular phylogenetic analyses assigned Luetzelburgia into an informal, monophyletic clade called the "vataireoids". Keys for the different species of Luetzelburgia have been published.

Sweetia fruticosa is a species of flowering plants in the legume family, Fabaceae. It is a tree native to eastern, southern, and west-central Brazil, Bolivia, Paraguay, and northeastern Argentina. It is the only member of the genus Sweetia. It belongs to the subfamily Faboideae. It was traditionally assigned to the tribe Sophoreae, mainly on the basis of flower morphology; recent molecular phylogenetic analyses assigned Sweetia fruticosa into an informal, monophyletic clade called the "vataireoids".

<i>Vatairea</i> Genus of legumes

Vatairea is a genus of flowering plants in the legume family, Fabaceae. It includes eight species of tall trees native to the tropical Americas, ranging from southern Mexico to Bolivia and southern Brazil. Seven species are native to northern South America, with the center of diversity in Amazonia. Vatairea lundellii ranges from southern Mexico to Panama. Most species grow in tropical rain forest, often in the inudated forests known as igapó and varzea, where they are emergent trees, growing above the forest canopy. V. macrocarpa grows in seasonally-dry forest, cerrado, and caatinga.

Vataireopsis is a genus of flowering plants in the legume family, Fabaceae. It includes four species of small to emergent trees, native to northern South America, ranging from Colombia, Venezuela, and the Guianas to Bolivia and southern Brazil. They grow in tropical lowland rain forest, in both the Amazon and Atlantic Forest.

<span class="mw-page-title-main">Dalbergieae</span> Tribe of legumes

The tribe Dalbergieae is an early-branching clade within the flowering plant subfamily Faboideae. Within that subfamily, it belongs to an unranked clade called the dalbergioids. It was recently revised to include many genera formerly placed in tribes Adesmieae and Aeschynomeneae and to be included in a monophyletic group informally known as the dalbergioids sensu lato. The members of this tribe have a distinctive root nodule morphology, often referred to as an "aeschynomenoid" or "dalbergioid" nodule.

<span class="mw-page-title-main">Dipterygeae</span> Tribe of legumes

The tribe Dipterygeae is one of the subdivisions of the plant family Fabaceae. It was recently recircumscribed to include the following genera:

<span class="mw-page-title-main">Sophoreae</span> Tribe of legumes

The tribe Sophoreae is one of the subdivisions of the plant family Fabaceae. Traditionally this tribe has been used as a wastebasket taxon to accommodate genera of Faboideae which exhibit actinomorphic, rather than zygomorphic floral symmetry and/or incompletely differentiated petals and free stamens. Various morphological and molecular analyses indicated that Sophoreae as traditionally circumscribed was polyphyletic. This led to a re-circumscription of Sophoreae, which resulted in the transfer of many genera to other tribes. This also necessitated the inclusion of two former tribes, Euchresteae and Thermopsideae, in the new definition of Sophoreae. Tribe Sophoreae, as currently circumscribed, consistently forms a monophyletic clade in molecular phylogenetic analyses. The Sophoreae arose 40.8 ± 2.4 million years ago.

<span class="mw-page-title-main">Swartzieae</span> Clade of legumes

The tribe Swartzieae is an early-branching monophyletic clade of the flowering plant subfamily Faboideae or Papilionaceae. Traditionally this tribe has been used as a wastebasket taxon to accommodate genera of Faboideae which exhibit actinomorphic, rather than zygomorphic floral symmetry and/or incompletely differentiated petals and free stamens. It was recently revised and most of its genera were redistributed to other tribes. Under its new circumscription, this clade is consistently resolved in molecular phylogenies. Members of this tribe possess "non-papilionate swartzioid flowers[…]largely characterized by a tendency to lack petals combined with a profusion and elaboration of free stamens" and a "lack of unidirectional order in the initiation of the stamens". They also have "complete or near complete fusion of sepals resulting from intercalary growth early in development, relatively numerous stamens, and a single or no petal, with other petals not at all apparent in development." The tribe is predicted to have diverged from the other legume lineages 48.9±2.8 million years ago.

<span class="mw-page-title-main">Non-protein amino acid-accumulating clade</span> Division within flowering plants

The non-protein amino acid-accumulating clade, also known as the Canavanine-accumulating clade is a clade of the flowering plant subfamily Faboideae that includes the majority of agriculturally-cultivated legumes. It is characterized by the accumulation of the non-proteinogenic amino acid canavanine in the seeds—a deterrent against herbivory. This phylogenetic trait was first recognized in the early 1980s. This clade is consistently resolved in molecular phylogenies. It contains many economically important genera, including Cicer, Glycine, Medicago, Phaseolus, Trifolium, Vicia, and Vigna.

<span class="mw-page-title-main">Exostyleae</span> Clade of legumes

The tribe Exostyleae is an early-branching monophyletic clade of the flowering plant subfamily Faboideae that are mostly found in Neotropical rainforests.

<i>Cladrastis</i> clade Clade of legumes

The Cladrastis clade is a monophyletic clade of the flowering plant subfamily Faboideae that is found in eastern Asia and southern North America. It is consistently resolved in molecular phylogenies and is sister to the Meso-Papilionoideae. Evidence for the existence of this clade was first proposed based on morphological (floral), cytological, and biochemical evidence. It is predicted to have diverged from the other legume lineages 47.4±2.6 million years ago.

The Andira clade is a predominantly Neotropical, monophyletic clade of the flowering plant subfamily Faboideae. The members of this clade were formerly included in tribe Dalbergieae, but this placement was questioned due to differences in wood anatomy and fruit, seed, seedling, floral, and vegetative characters. Recent molecular phylogenetic evidence has shown that they belong to a unique evolutionary lineage. It is predicted to have diverged from the other legume lineages in the late Eocene).

The tribe Ormosieae is one of the subdivisions of the plant family Fabaceae, primarily found in tropical regions of the Americas, but also in southeast Asia and northern Australia. The members of this tribe were formerly included in tribe Sophoreae, but were recently circumscribed into a new tribe. The members of this tribe consistently form a monophyletic clade in molecular phylogenetic analyses. The tribe does not currently have a node-based definition, but morphological synapomorphies have been tentatively identified: "mostly dehiscent pods with woody valves" and "tufts of minute colleter-like glands in the axils of bract and bracteoles". Like other genistoids, members of tribe Ormosieae are known to produce quinolizidine alkaloids.

<span class="mw-page-title-main">Genistoids</span> Clade of legumes

The Genistoids are one of the major radiations in the plant family Fabaceae. Members of this phylogenetic clade are primarily found in the Southern hemisphere. Some genera are pollinated by birds. The genistoid clade is consistently resolved as monophyletic in molecular phylogenetic analyses. It is estimated to have arisen 56.4 ± 0.2 million years ago. A node-based definition for the genistoids is: "the MRCA of Poecilanthe parviflora and Lupinus argenteus." One morphological synapomorphy has been tentatively identified: production of quinolizidine alkaloids. Some genera also accumulate pyrrolizidine. A new genus, to be segregated from Clathrotropis, has also been proposed to occupy an undetermined position within the genistoid clade.

<span class="mw-page-title-main">Dalbergioids</span> Clade of legumes

The dalbergioids are an early-branching monophyletic clade of the flowering plant subfamily Faboideae or Papilionaceae. They are pantropical, particularly being found in the neotropics and sub-Saharan Africa. This clade is consistently resolved as monophyletic in molecular phylogenetic analyses. It is estimated to have arisen 55.3 ± 0.5 million years ago. A node-based definition for the dalbergioids is: "The least inclusive crown clade that contains Amorpha fruticosaL. 1753 and Dalbergia sissooRoxb. ex DC. 1825." Indehiscent pods may be a morphological synapomorphy for the clade.

Baphiastrum is a genus of flowering plants in the legume family (Fabaceae). It includes a single species, Baphiastrum brachycarpum, a liana native to west-central Africa. It grows in Guineo-Congolian forest in Cameroon, Gabon, Republic of the Congo, Central African Republic, and Democratic Republic of the Congo.

Bowringia is a genus of flowering plants in the legume family (Fabaceae), found in tropical Africa and southeastern Asia. It includes four species native to western and central Africa and Madagascar, and to Borneo, Indochina, and southern China.

References

  1. Pennington RT, Lavin M, Ireland H, Klitgaard B, Preston J, Hu JM (2001). "Phylogenetic relationships of basal papilionoid legumes based upon sequences of the chloroplast trnL intron". Syst Bot . 26 (3): 537–556. doi:10.1043/0363-6445-26.3.537 (inactive 31 January 2024). JSTOR   3093980.{{cite journal}}: CS1 maint: DOI inactive as of January 2024 (link)
  2. 1 2 3 Wojciechowski MF. (2013). "Towards a new classification of Leguminosae: Naming clades using non-Linnaean phylogenetic nomenclature". S Afr J Bot . 89: 85–93. doi: 10.1016/j.sajb.2013.06.017 .
  3. 1 2 Cardoso D, Paganucci de Queiroz L, Cavalcante de Lima H, Suganuma E, van den Berg C, Lavin M (2013). "A molecular phylogeny of the vataireoid legumes underscores floral evolvability that is general to many early-branching papilionoid lineages". Am J Bot . 100 (2): 403–21. doi:10.3732/ajb.1200276. PMID   23378491.
  4. 1 2 Cardoso DBOS. (2012). "Capítulo 5: A molecular phylogeny of the Vataireoid legumes underscores floral evolvability that is general to many early-branching papilionoid lineages" (PDF). Sistemática de Papilionoideae (Leguminosae): filogenia das linhagens basais e revisão de Luetzelburgia (Ph.D.). SiCAPES. Docket 28002016002P8.
  5. Polhill RM. (1981). "Dalbergieae". In Polhill RM, Raven PH (eds.). Advances in Legume Systematics, Part 1. Royal Botanic Gardens, Kew. pp. 233–242. ISBN   9780855212247.
  6. Polhill RM. (1981). "Sophoreae". In Polhill RM, Raven PH (eds.). Advances in Legume Systematics, Part 1. Royal Botanic Gardens, Kew. pp. 213–230. ISBN   9780855212247.
  7. Cardoso D, Pennington RT, de Queiroz LP, Boatwright JS, Van Wyk BE, Wojciechowski MF, Lavin M (2013). "Reconstructing the deep-branching relationships of the papilionoid legumes". S Afr J Bot . 89: 58–75. doi: 10.1016/j.sajb.2013.05.001 .