Fossil evidence for Paleocene diversification of Araceae: <i>Bognerospadix</i> gen. nov. and <i>Orontiophyllum grandifolium</i> comb. nov.

Stockey, Ruth A.; Hoffman, Georgia L.; Rothwell, Gar W.

doi:10.1002/ajb2.1707

Cited by 4 publications

(3 citation statements)

References 69 publications

(156 reference statements)

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“…A morphological phylogenetic analysis of extant Arales [5] identified several features that are diagnostic or nearly so for Orontiaceae, including a collenchyma type [112] that is found only in Lysichiton and Symplocarpus, coincidentally the same two Orontiaceae genera whose inflorescence spathes otherwise make them appear superficially more similar to Araceae s.s. (petiole collenchyma is absent in Gymnocarpus and Orontium). Perhaps most noteworthy, there are leaf shape and venation patterns that can enable confident identification of Orontiaceae species, even in fossil material [113,114]. Thus, under more careful examination, there are more than a few characters that contradict the apparent similarity between Araceae s.s. and Orontiaceae.…”

Section: Morphological Datamentioning

confidence: 99%

Lemnaceae and Orontiaceae Are Phylogenetically and Morphologically Distinct from Araceae

Tippery

Les

Appenroth³

et al. 2021

Plants

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Duckweeds comprise a distinctive clade of pleustophytic monocots that traditionally has been classified as the family Lemnaceae. However, molecular evidence has called into question their phylogenetic independence, with some authors asserting instead that duckweeds should be reclassified as subfamily Lemnoideae of an expanded family Araceae. Although a close phylogenetic relationship of duckweeds with traditional Araceae has been supported by multiple studies, the taxonomic disposition of duckweeds must be evaluated more critically to promote nomenclatural stability and utility. Subsuming duckweeds as a morphologically incongruent lineage of Araceae effectively eliminates the family category of Lemnaceae that has been widely used for many years. Instead, we suggest that Araceae subfamily Orontioideae should be restored to family status as Orontiaceae, which thereby would enable the recognition of three morphologically and phylogenetically distinct lineages: Araceae, Lemnaceae, and Orontiaceae.

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Section: Morphological Datamentioning

confidence: 99%

Lemnaceae and Orontiaceae Are Phylogenetically and Morphologically Distinct from Araceae

Tippery

Les

Appenroth³

et al. 2021

Plants

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“…It also has a remarkable fossil history, including some of the earliest known records for monocots, stretching back to the early Cretaceous (Friis et al, 2004, 2010; Hesse and Zetter, 2007; Bogner, 2009; Mayo et al, 2013; Smith, 2013; Iles et al, 2015; Hoffman, 2021). A recent review found that the family was particularly diverse during the late Cretaceous and early Paleocene (Stockey et al, 2021). Nauheimer et al (2012), using a molecular analysis combined with fossil data and computational modeling, concluded that the early evolution of the family was linked to aquatic or subaquatic environments and that early diversification within the family, which led to the evolution of subfamilial lineages, took place during the Cretaceous and was associated with the fragmentation of the supercontinent Pangaea.…”

Section: Figurementioning

confidence: 99%

“…. A recent review found that the family was particularly diverse during the late Cretaceous and early Paleocene (Stockey et al, 2021). Nauheimer et al (2012), using a molecular analysis combined with fossil data and computational modeling, concluded that the early evolution of the family was linked to aquatic or subaquatic environments and that early diversification within the family, which led to the evolution of subfamilial lineages, took place during the Cretaceous and was associated with the fragmentation of the supercontinent Pangaea.…”

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Target sequence data shed new light on the infrafamilial classification of Araceae

Haigh

Gibernau

Maurin

et al. 2023

American J of Botany

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Premise Recent phylogenetic studies of the Araceae have confirmed the position of the duckweeds nested within the aroids, and the monophyly of a clade containing all the unisexual flowered aroids plus the bisexual‐flowered Calla palustris. The main objective of the present study was to better resolve the deep phylogenetic relationships among the main lineages within the family, particularly the relationships between the eight currently recognized subfamilies. We also aimed to confirm the phylogenetic position of the enigmatic genus Calla in relation to the long‐debated evolutionary transition between bisexual and unisexual flowers in the family. Methods Nuclear DNA sequence data were generated for 128 species across 111 genera (78%) of Araceae using target sequence capture and the Angiosperms 353 universal probe set. Results The phylogenomic data confirmed the monophyly of the eight Araceae subfamilies, but the phylogenetic position of subfamily Lasioideae remains uncertain. The genus Calla is included in subfamily Aroideae, which has also been expanded to include Zamioculcadoideae. The tribe Aglaonemateae is newly defined to include the genera Aglaonema and Boycea. Conclusions Our results strongly suggest that new research on African genera (Callopsis, Nephthytis, and Anubias) and Calla will be important for understanding the early evolution of the Aroideae. Also of particular interest are the phylogenetic positions of the isolated genera Montrichardia, Zantedeschia, and Anchomanes, which remain only moderately supported here.

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Fossil evidence for Paleocene diversification of Araceae: Bognerospadix gen. nov. and Orontiophyllum grandifolium comb. nov.

Stockey

Hoffman²,

Rothwell

2021

American J of Botany

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Premise: Nearly 200 araceous leaves and two spadices have been identified among Paleocene fossils from the Blindman River locality near Blackfalds, Alberta, Canada. Although not found in attachment, these probably represent parts of the same extinct plant species. Methods: Specimens were studied using light microscopy. Phylogenetic analyses using a morphological matrix of living and fossil Araceae were performed using TNT version 1.5 to help establish relationships of the fossil leaves and spadices within Araceae and to each other. Results: Leaves are simple with a broad petiole, entire margin, and elliptic to ovate or oblong blade with an acute to slightly rounded apex. A multi-veined midrib extends into the basal region of the blade. Parallelodromous primary veins of two orders diverge at acute angles, converging with a submarginal vein or at the apex. Transverse veins are opposite percurrent, producing rectangular to polygonal areoles. Higherorder veins are mixed opposite/alternate. Spadices are cylindrical, with helically arranged, bisexual, perigoniate flowers, each with six free tepals and a protruding style. Fruits are trilocular, with axile placentation and one seed per locule. Conclusions: Leaves are assignable to the fossil genus Orontiophyllum J. Kvaček & S.Y. Sm. as O. grandifolium comb. nov. Spadices are described as Bognerospadix speirsiae gen. et sp. nov. Leaves and spadices each conform to an early-diverging lineage of Araceae, increasing the known diversity of Proto-Araceae (viz., subfamilies Gymnostachydoideae and Orontioideae). Together, they provide strong evidence for extinct Proto-Araceae with novel combinations of characters shortly after the Cretaceous-Paleogene floral transition.

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Fossil evidence for Paleocene diversification of Araceae: Bognerospadix gen. nov. and Orontiophyllum grandifolium comb. nov.

Cited by 4 publications

References 69 publications

Lemnaceae and Orontiaceae Are Phylogenetically and Morphologically Distinct from Araceae

Lemnaceae and Orontiaceae Are Phylogenetically and Morphologically Distinct from Araceae

Target sequence data shed new light on the infrafamilial classification of Araceae

Fossil evidence for Paleocene diversification of Araceae: Bognerospadix gen. nov. and Orontiophyllum grandifolium comb. nov.

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