Phebalium, Vent.
publication ID |
https://doi.org/ 10.1071/SB22018 |
DOI |
https://doi.org/10.5281/zenodo.10988441 |
persistent identifier |
https://treatment.plazi.org/id/865587A8-FFF7-FFAF-FCAA-8BEC6C2CF9D1 |
treatment provided by |
Felipe |
scientific name |
Phebalium |
status |
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Phebalium View in CoL and Microcybe
Phebalium View in CoL (30 of 35 species, 4 of the 6 subspecies of P. glandulosum Hook. View in CoL , and 5 of the 8 subspecies of P. squamulosum Vent. View in CoL sampled) and Microcybe View in CoL (3 of 4 species and all 4 subspecies sampled) form a well-supported clade in all analyses (Clade 4: Fig. 1 View Fig , 3 View Fig , S 1 View Fig , S 2 View Fig ) supporting the conclusions of Wilson (1970, 1998 b, 2013 b, 2013 c) and Mole et al. (2004). The main contentious issue within the clade is the position of M. ambigua View in CoL . The species is sister to the remainder of Microcybe View in CoL in both the combined analyses (0.93 PP, 76% JK) and the analyses based on nuclear data (1.00 PP, 88% JK), although with only moderate support. In the analyses utilising plastid data, M. ambigua View in CoL is sister to Phebalium View in CoL with moderate support (0.93 PP, 86% JK). The remainder of Microcybe View in CoL and all of Phebalium View in CoL are both robustly supported clades in all analyses, as is the entire Microcybe View in CoL + Phebalium View in CoL clade. Missing from this study are M. albiflora Turcz. View in CoL , P. appressum Paul G.Wilson View in CoL , P. brevifolium Paul G.Wilson View in CoL , P. calcicola S.Dema & I.Telford View in CoL , P. cicatricatum A.J.Ford & Duretto View in CoL , P. graniticola I.Telford & J.J.Bruhl View in CoL , and P. microphyllum Turcz. View in CoL Microcybe albiflora View in CoL is morphologically similar to both M. multiflora View in CoL and M. pauciflora View in CoL . The south-western Australian species, i.e. P. appressum View in CoL , P. brevifolium View in CoL and P. microphyllum View in CoL , are morphologically similar to other south-western species such as P. filifolium Turcz. View in CoL and P. tuberculosum (F.Muell.) Benth. View in CoL (see also Wilson 1970, 1998 b, 2013 b), whereas the eastern Australian species, i.e. P. calcicola View in CoL , P. cicatricatum View in CoL and P. graniticola View in CoL , are part of the P. squamulosum View in CoL group of species (see Telford et al. 2019; Ford and Duretto 2020; Dema et al. 2021).
Microcybe ambigua View in CoL has had a complicated taxonomic history. It was originally described as M. pauciflora var. uniflora D.A.Herb. ( Herbert 1922) View in CoL and then placed in Phebalium View in CoL (as P. ambiguum View in CoL ) by Gardner (1943) without much explanation, only to be moved back to Microcybe View in CoL by Wilson (2013 c). Microcybe ambigua View in CoL shares with the remain-der of Microcybe View in CoL the reduced number or carpels (1–4, v. 5 in Phebalium View in CoL ). It differs from virtually all other species in both genera in having solitary, sessile flowers. All other species of Microcybe View in CoL have sessile flowers but have inflorescences containing 5–20 flowers. Phebalium clavatum C.A.Gardner View in CoL is the only species in Phebalium View in CoL to have solitary and sessile flowers and it also has unusual leaf morphology ( Wilson 2013 c). That species groups here within a weakly supported clade (1.00 PP, 72% JK), nested well within the south-western Australian clade of Phebalium View in CoL , that also contains P. drummondii Benth. View in CoL , P. elegans Paul G.Wilson View in CoL , P. filifolium View in CoL , P. lepidotum (Turcz.) Paul G.Wilson View in CoL , and P. obovatum (Paul G.Wilson) Paul G.Wilson View in CoL (see also Mole et al. 2004, where it forms a clade with P. elegans View in CoL and P. filifolium View in CoL ).
Wilson (2013 c) indicated that Microcybe ambigua View in CoL was anomalous and discussed two alternative options to his treatment when he transferred it to Microcybe View in CoL from Phebalium View in CoL . These were to place it in a monotypic genus or alternatively expand Phebalium View in CoL to include it and other species of Microcybe View in CoL . Both these options are consistent with the results presented here. The isolated position of the species in the Microcybe View in CoL + Phebalium View in CoL clade certainly requires acknowledgement but the adoption of a monotypic genus that would be defined on few, non-unique, morphological characters seems to be unwarranted. A third option could be to retain M. ambigua View in CoL in Microcybe View in CoL but to erect a monotypic section for it, but that is problematic because its close relationship with Microcybe View in CoL is only moderately supported in some analyses and is not supported by plastid data. We consider that expanding Phebalium View in CoL to include Microcybe View in CoL is warranted, as the genera share several apomorphies, including terminal umbels, similar seeds, and having stellate-lepidote trichomes and the relationship is robustly supported here. Reducing Microcybe sens . strict. to the rank of section is appropriate given both clades are robustly supported. The uncertain placement of M. ambigua is recognised by making it the sole member of a newly described and monotypic section (see Taxonomy below). The recognition of sections on the basis of carpel number mirrors our treatment of Asterolasia , although there is not the clear geographical split that is seen in that genus (see above).
The contrasting positions of Microcybe ambigua in this study may suggest a hybrid origin for the species. We saw no signature in the sequences suggestive of this, such as high levels of polymorphism at nuclear loci, which often characterise hybrids. We recorded only two polymorphic sites in ETS and none in ITS. Sequences from M. ambigua show a high number of uninformative substitutions at various loci, indicative of a long period of genetic isolation from both Microcybe sens . strict. and Phebalium . Microcybe ambigua is also lacking most of the distinctive indels of the plastid data that characterised the other two species of Microcybe used in this study.
Phebalium sens . strict. forms two well-supported geographic clades, namely, one from eastern Australia and another one from south-western Australia. A pattern of geographically separated clades is also seen here in Asterolasia View in CoL , Crowea View in CoL and Nematolepis View in CoL and elsewhere in Rutaceae View in CoL such as in Boronia View in CoL sections Boronia ( Duretto et al. 2023) View in CoL and Valvatae (Benth.) Engl. ( Duretto 1999). In Phebalium View in CoL , the eastern clade is more strongly supported (Clade 9 E: 1.00 PP, 99% JK) than is the south-western clade (Clade 9 W: 0.98 PP, 72% JK), which has no support in the analyses utilising plastid data alone. Because morphological characters could not be found to support these clades and because this genus is part of a more comprehensive study by other workers, no formal taxonomic changes within Phebalium sens . strict. are proposed here.
This study has also highlighted the risks associated with sampling only single exemplars or single loci. In Phebalium View in CoL , there may have been ongoing genetic exchange leading to retention of ancestral polymorphisms in a range of taxa. Almost no taxa represented by multiple accessions were resolved as monophyletic. Further work with a greater density of within-species sampling is needed to determine whether the groupings seen are distinct lineages or whether the phylogenetic signal has been confounded by incomplete lineage sorting. For future studies, it is imperative to include multiple accessions of each taxon to determine whether taxa can be resolved before potentially flawed interpretations are made about relationships.
S |
Department of Botany, Swedish Museum of Natural History |
A |
Harvard University - Arnold Arboretum |
E |
Royal Botanic Garden Edinburgh |
W |
Naturhistorisches Museum Wien |
No known copyright restrictions apply. See Agosti, D., Egloff, W., 2009. Taxonomic information exchange and copyright: the Plazi approach. BMC Research Notes 2009, 2:53 for further explanation.
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