Jump to content

Polygonoideae

From Wikipedia, the free encyclopedia

Polygonoideae
Fallopia baldschuanica
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Order: Caryophyllales
Family: Polygonaceae
Subfamily: Polygonoideae
Arn.[1]
Tribes and genera

See text.

Polygonoideae is a subfamily of plants in the family Polygonaceae. It includes a number of plants that can be highly invasive, such as Japanese knotweed, Reynoutria japonica, and its hybrid with R. sachalinensis, R. × bohemica. Boundaries between the genera placed in the subfamily and their relationships have long been problematic, but a series of molecular phylogenetic studies have clarified some of them,[2][3][4][5][6][1] resulting in the division of the subfamily into seven tribes.[1]

Taxonomy

[edit]

Phylogeny

[edit]

A 2015 molecular phylogenetic study suggested that the genera and tribes in Polygonoideae were related as shown in the following cladogram.[1]

Polygonoideae

Oxygoneae (Oxygonum)

Persicarieae (Bistorta, Koenigia, Persicaria)

Fagopyreae (Fagopyrum)

Pteroxygoneae (Pteroxygonum + some Fallopia)

Rumex included Emex, and Fallopia was not monophyletic, with some species placed outside the main group in the tribe Polygoneae, and some others grouping with Pteroxygonum, placed in the tribe Pteroxygoneae.[1]

Genera

[edit]

Some of the boundaries between the genera are not settled as of February 2019; in particular, Fallopia is at least paraphyletic.[1] A 2011 classification divided the subfamily into five tribes, Calligoneae, Fagopyreae, Persicariae, Polygoneae and Rumiceae, leaving some genera unplaced.[3] A 2015 molecular phylogenetic study added two new tribes accommodating these genera, Oxygoneae and Pteroxygoneae. Genera and their tribal placement accepted in the 2015 study are shown below.[1]

Many species in the subfamily have at one time or another been placed in different genera; for example the invasive Japanese knotweed is currently in the genus Reynoutria, but has been in Polygonum and Fallopia.[7]

References

[edit]
  1. ^ a b c d e f g Schuster, Tanja M.; Reveal, James L.; Bayly, Michael J. & Kron, Kathleen A. (2015), "An updated molecular phylogeny of Polygonoideae (Polygonaceae): Relationships of Oxygonum, Pteroxygonum, and Rumex, and a new circumscription of Koenigia", Taxon, 64 (6): 1188–1208, doi:10.12705/646.5
  2. ^ Sanchez, A.; Schuster, T.M. & Kron, K.A. (2009), "A largescale phylogeny of Polygonaceae based on molecular data", International Journal of Plant Sciences, 170: 1044–1055, doi:10.1086/605121
  3. ^ a b Sanchez, A.; Schuster, T.M.; Burke, J.M. & Kron, K.A. (2011), "Taxonomy of Polygonoideae (Polygonaceae): A new tribal classification", Taxon, 60: 151–160, JSTOR 41059829
  4. ^ Schuster, T.M.; Wilson, K.L. & Kron, K.A. (2011), "Phylogenetic relationships of Muehlenbeckia, Fallopia and Reynoutria (Polygonaceae) investigated with chloroplast and nuclear sequence data", International Journal of Plant Sciences, 172: 1053–1066, doi:10.1086/661293
  5. ^ Schuster, T.M.; Reveal, J.L. & Kron, K.A. (2011), "Evolutionary Relationships within Polygoneae (Polygonaceae: Polygonoideae)", Taxon, 60: 1653–1666, cited in Schuster et al. (2015)
  6. ^ Fan, D.-M.; Chen, J.-H.; Meng, Y.; Wen, J.; Huang, J.-L. & Yang, Y.-P. (2013), "Molecular phylogeny of Koenigia L. (Polygonaceae: Persicarieae): Implications for classification, character evolution and biogeography.", Molecular Phylogenetics and Evolution, 69: 1093–1100, doi:10.1016/j.ympev.2013.08.018
  7. ^ "Reynoutria japonica Houtt.". Plants of the World Online. Royal Botanic Gardens, Kew. Retrieved 2019-02-25.