Taxonomy of Banksia
As with other flowering plants, the taxonomy of Banksia has traditionally been based on anatomical and morphological properties of the Banksia flower, fruiting structure and seed, along with secondary characteristics such as leaf structure and growth habit. Increasingly, molecular evidence from DNA is providing important new insights into relationships within the genus and between this and other genera in the Proteaceae.
The genus is placed in family
Background
Banksia (in the traditional sense, not including Dryandra), is a
Taxonomic history
Specimens of Banksia were first collected by
Every specimen collected during the Endeavour voyage was sketched by Banks'
The genus Banksia was finally described and named by
Banksia L.f. has since been challenged a number of times. The later near-homonym Banksea Koenig was published in 1783, but subsequently determined to be a synonym of
In 1810,
By the time Carl Meissner published his 1856 classification of the Proteaceae, there were 58 described Banksia species. Meissner's arrangement gave Isostylis and Eubanksia sectional rank, and divided the latter into four series based on leaf properties; these series were all highly heterogeneous.[6]
George Bentham published his arrangement of the Banksia in his landmark 1870 publication Flora Australiensis.[7] The number of recognised Banksia species was reduced to 46, and Meissner's four heterogeneous series were replaced by four sections based on leaf, style and pollen-presenter characters, taking the number of sections to five. Three of these sections were fairly well-defined and homogeneous, while another, Orthostylis, was somewhat heterogeneous. The fourth, Cyrtostylis, was erected to contain the species that did not belong in the other sections, and was therefore highly heterogeneous.[6] Despite these shortcomings, this arrangement would stand for over 100 years.
Classification and relationships within Proteaceae
The framework for classification of genera within
- Family Proteaceae
- Subfamily Bellendenoideae
- Subfamily Persoonioideae
- Subfamily Symphionematoideae
- Subfamily Proteoideae
- Subfamily Grevilleoideae
- Subfamily
Although the taxonomic legitimacy of tribe Banksiinae is universally recognised, there has been some debate about the legitimacy of the tribe's resolution into genera Banksia and Dryandra. For a number of years this debate centred on similarities between the inflorescences of Banksia subg. Isostylis species and those of Dryandra. These similarities led to calls for the genera to be merged, or for Isostylis to be moved across to Dryandra. However, Alex George and other supporters of the status quo argued that the similarities between Isostylis and Dryandra were matters of superficial appearance, whereas similarities between Isostylis and other Banksia species were far more important diagnostically.[11] Recent DNA analyses led by Austin Mast have confirmed George's position that Dryandra and Isostylis are not especially closely related, but have also provided powerful evidence that Banksia is paraphyletic with respect to Dryandra (that is, Dryandra is a sub-group of Banksia. Mast suggested that the least disruptive approach to restore monophyly would be to sink Dryandra into Banksia.[12][13] This has been put into effect in a 2007 paper by Mast & Thiele, in which all existing species of Dryandra were transferred into Banksia.[14]
Classical taxonomic treatment
In 1981,
George followed Brown in dividing Banksia into two subgenera, Banksia and Isostylis. He then divided subgenus Banksia into two sections: Banksia for species with straight or slightly curved styles, and Oncostylis for species with hooked styles.[11] These two sections were then divided into nine and three series respectively. The arrangement into series largely followed Bentham, with series Orthostylis remaining somewhat heterogeneous, and Cyrtostylis remaining highly heterogeneous.[6]
This conventional taxonomic arrangement of Banksia, as provided by George and published in the Flora of Australia series, may be summarised as follows:
- Genus Banksia
- Subgenus Banksia
- Section Banksia
- Series Salicinae
- Subseries Acclives
- Subseries Integrifoliae
- Series Grandes
- Series Banksia
- Subseries Banksia
- Subseries Cratistylis
- Series Crocinae
- Series Prostratae
- Series Cyrtostylis
- B. media – B. praemorsa – B. epica – B. pilostylis – B. attenuata – B. ashbyi – B. benthamiana – B. audax – B. lullfitzii – B. elderiana – B. laevigata – B. elegans – B. lindleyana
- Series Tetragonae
- Series Bauerinae
- Series Quercinae
- Series Salicinae
- Section Coccinea
- Section Oncostylis
- Series Spicigerae
- Subseries Spinulosae
- Subseries Ericifoliae
- Subseries Occidentales
- Series Tricuspidae
- Series Dryandroidae
- Series Abietinae
- Subseries Nutantes
- Subseries Sphaerocarpae
- Subseries Leptophyllae
- Subseries Longistyles
- Subseries
- Series Spicigerae
- Section Banksia
- Subgenus Isostylis
- Subgenus Banksia
Cladistic analyses
Thiele and Ladiges
In 1996,
Most aspects of Thiele and Ladiges' arrangement were not accepted by George in his 1999 revision. He stated that "the infrageneric classification and systematic sequence presented here are modified from that of George (1981) and take into account new data revealed in the work of Thiele & Ladiges (1996)", but none of the four promotions to species rank was accepted, and none of the thirteen infrageneric taxa introduced by Thiele and Ladiges was retained.[9] However, a number of Australian herbaria have continued to follow Thiele and Ladiges on some points, for example by recognising the four species that they promoted.[5]
DNA analysis
Following on from an earlier molecular study,[16] Austin Mast and co-authors published cladistic analyses of genetic data from DNA samples of almost all species of Banksia, along with five Dryandra species, in 2002 and 2005. Their results indicated the presence of two large clades of Banksia, which they named "/Cryptostomata" ("hidden stomates") and "/Phanerostomata" ("visible stomates").
The /Phanerostomata were defined as those taxa in which the leaf stomata occur superficially or in shallow pits. These taxa are typically tall shrubs and trees that occur in moist areas; they have unbeaked follicles and soft, short-lived leaves that are in many cases needle-like. The clade includes all eastern taxa of the series Salicinae and Spicigerae (that is, all taxa except B. serrata, B. aemula and B. ornata) and also the western Spicigerae, Quercinae, Grandes, Abietinae and Dryandroideae.
The /Cryptostomata were defined as those taxa in which the leaf stomata occur in crypts with constricted entrances. These are usually small shrubs that occur on dry, infertile sandplains. They have beaked follicles and thick, tough, long-lived serrated leaves. It includes all other western taxa, plus the eastern species B. serrata, B. aemula and B. ornata, and also appears to include Dryandra. It is worth noting that Dryandra does not appear especially closely related to the Isostylis group, which is instead most closely related to B. elegans and then B. attenuata.
Thus, the results presented by Mast et al. strongly suggest that Banksia is paraphyletic with respect to Dryandra. Although they did not propose a new taxonomic arrangement, they did consider various options for adjusting the current accepted arrangement to remove the paraphyly. They conclude that the simplest and least disruptive solution would be to merge Dryandra into Banksia.[12][13] This solution was put into effect in a subsequent paper by Mast & Thiele.[14]
The change has been adopted by a number of Australian herbaria including the Western Australian Herbarium, now headed by Thiele (this has the largest holdings of specimens), and by the Australian Plant Census, a project of the Council of Heads of Australasian Herbaria. This is in accordance with majority current taxonomic practice, in which only holophyletic groups are named as taxa, and groups found to be paraphyletic (e.g. Banksia not including Dryandra) are adjusted to achieve a holophyletic naming system. Alex George maintains a firm position against the change, arguing variously that the phylogenetic analyses are flawed and that paraphyly does not necessitate taxonomic changes.[17]
See also
References
- ^ Cook, James (1893). William J. L. Wharton (ed.). . London: E. Stock.
- ^ a b Salkin, A. I. (1981). "A Short History of the Discovery and Naming of Banksias in Eastern Australia: Part I, Banks & Solander". Victorian Naturalist. 98 (2).
- Carolus Linnaeus the Younger (1782). Supplementum Plantarum Systema Vegetabilium Editionis Decima Tertia, Generum Plantarum Editionis Fexta, Et Specierum Plantarum Editionis Secunda. Brunsvigae: Orphanotrophei.
- ISBN 0-901843-05-9.
- ^ a b Olde, Peter; Neil R. Marriott (2002). "One new Banksia and two new Grevillea species (Proteaceae: Grevilleoideae) from Western Australia" (PDF). Nuytsia. 15 (1): 85–99. Archived from the original (PDF) on 2006-09-23. Retrieved 2007-01-10.
- ^ .
- ^ Bentham, George (1870). "Banksia". Flora Australiensis: A Description of the Plants of the Australian Territory. Vol. 5: Myoporineae to Proteaceae. London: L. Reeve & Co. pp. 541–562.
- .
- ^ ISBN 0-643-06454-0.
- .
- ^ a b c George, Alex S. (1981). "The Genus Banksia L.f. (Proteaceae)". Nuytsia. 3 (3): 239–473.
- ^ PMID 21665734.
- ^ ISSN 1030-1887.)
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: CS1 maint: multiple names: authors list (link - ^ ISSN 1030-1887.
- ISBN 0-86417-818-2.
- ^ Mast, Austin R. (1998) Molecular systematics of subtribe Banksiinae (Banksia and Dryandra; Proteaceae) based on cpDNA and nrDNA sequence data: implications for taxonomy and biogeography. Australian Systematic Botany 11: 321–342
- ^ George, Alex (2008). "You don't have to call Dryandra Banksia". Australian Plants Online: ANPSA website. Australian Native Plants Society (Australia). Retrieved 2009-12-16.