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Resolving generic limits in Cyperaceae tribe Abildgaardieae using targeted sequencing

Isabel Larridon (UGent) , Alexandre Zuntini, Russell Barrett, Karen Wilson, Jeremy Bruhl, Paul Goetghebeur (UGent) , William Baker, Grace Brewer, Niroshini Epitawalage, Isabel Fairlie, et al.
(2020) Botany 2020, Abstracts.
Author
Organization
Abstract
Morphological characterisations of genera in Cyperaceae tribe Abildgaardieae have been highly problematic and the subject of much debate. Earlier molecular phylogenetic studies based on Sanger sequencing and a limited sampling have indicated that several generic circumscriptions are not monophyletic. Here, we provide the first molecular phylogenetic hypothesis for tribe Abildgaardieae using targeted sequencing data obtained with the Angiosperms353 enrichment panel for 50 species. We test whether recent taxonomic decisions made based on Sanger sequencing data are validated by our targeted sequencing data. Our results support lumping the small African genus Nemum into the large genus Bulbostylis, and the monotypic genus Crosslandia into the diverse genus Fimbristylis. Also, our results support the recent publication of the new genus Zulustylis for two African species previously placed in Fimbristylis. Furthermore, we investigate the phylogenetic placement of recently described tropical Australian endemic species of Actinoschoenus, which are here recognised as the new morphologically cryptic genus Scleroschoenus. Based on the targeted sequencing phylogenetic hypothesis and supported by morphological data, we recognise the genus Abildgaardia. The placement in tribe Abildgaardieae of two monotypic genera Nelmesia and Trichoschoenus, which are only known from their type collections from the Democratic Republic of Congo and Madagascar, respectively, are also discussed. New combinations and lectotypifications are made in Abildgaardia, Actinoschoenus, Arthrostylis and Scleroschoenus.
Keywords
Abildgaardieae, Angiosperms353, Cyperaceae, photosynthesis, generic circumscription, Targeted sequencing

Citation

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MLA
Larridon, Isabel, et al. “Resolving Generic Limits in Cyperaceae Tribe Abildgaardieae Using Targeted Sequencing.” Botany 2020, Abstracts, 2020.
APA
Larridon, I., Zuntini, A., Barrett, R., Wilson, K., Bruhl, J., Goetghebeur, P., … Roalson, E. (2020). Resolving generic limits in Cyperaceae tribe Abildgaardieae using targeted sequencing. Botany 2020, Abstracts. Presented at the Botany 2020 Conference, Anchorage, Alaska.
Chicago author-date
Larridon, Isabel, Alexandre Zuntini, Russell Barrett, Karen Wilson, Jeremy Bruhl, Paul Goetghebeur, William Baker, et al. 2020. “Resolving Generic Limits in Cyperaceae Tribe Abildgaardieae Using Targeted Sequencing.” In Botany 2020, Abstracts.
Chicago author-date (all authors)
Larridon, Isabel, Alexandre Zuntini, Russell Barrett, Karen Wilson, Jeremy Bruhl, Paul Goetghebeur, William Baker, Grace Brewer, Niroshini Epitawalage, Isabel Fairlie, Félix Forest, Izai Kikuchi, Lisa Pokorny, Ilias Semmouri, Daniel Spalink, David Simpson, Muthama Muasya, and Eric Roalson. 2020. “Resolving Generic Limits in Cyperaceae Tribe Abildgaardieae Using Targeted Sequencing.” In Botany 2020, Abstracts.
Vancouver
1.
Larridon I, Zuntini A, Barrett R, Wilson K, Bruhl J, Goetghebeur P, et al. Resolving generic limits in Cyperaceae tribe Abildgaardieae using targeted sequencing. In: Botany 2020, Abstracts. 2020.
IEEE
[1]
I. Larridon et al., “Resolving generic limits in Cyperaceae tribe Abildgaardieae using targeted sequencing,” in Botany 2020, Abstracts, Anchorage, Alaska, 2020.
@inproceedings{8728119,
  abstract     = {{Morphological characterisations of genera in Cyperaceae tribe Abildgaardieae have been highly problematic and the subject of much debate. Earlier molecular phylogenetic studies based on Sanger sequencing and a limited sampling have indicated that several generic circumscriptions are not monophyletic. Here, we provide the first molecular phylogenetic hypothesis for tribe Abildgaardieae using targeted sequencing data obtained with the Angiosperms353 enrichment panel for 50 species. We test whether recent taxonomic decisions made based on Sanger sequencing data are validated by our targeted sequencing data. Our results support lumping the small African genus Nemum into the large genus Bulbostylis, and the monotypic genus Crosslandia into the diverse genus Fimbristylis. Also, our results support the recent publication of the new genus Zulustylis for two African species previously placed in Fimbristylis. Furthermore, we investigate the phylogenetic placement of recently described tropical Australian endemic species of Actinoschoenus, which are here recognised as the new morphologically cryptic genus Scleroschoenus. Based on the targeted sequencing phylogenetic hypothesis and supported by morphological data, we recognise the genus Abildgaardia. The placement in tribe Abildgaardieae of two monotypic genera Nelmesia and Trichoschoenus, which are only known from their type collections from the Democratic Republic of Congo and Madagascar, respectively, are also discussed. New combinations and lectotypifications are made in Abildgaardia, Actinoschoenus, Arthrostylis and Scleroschoenus.}},
  author       = {{Larridon, Isabel and Zuntini, Alexandre and Barrett, Russell and Wilson, Karen and Bruhl, Jeremy and Goetghebeur, Paul and Baker, William and Brewer, Grace and Epitawalage, Niroshini and Fairlie, Isabel and Forest, Félix and Kikuchi, Izai and Pokorny, Lisa and Semmouri, Ilias and Spalink, Daniel and Simpson, David and Muasya, Muthama and Roalson, Eric}},
  booktitle    = {{Botany 2020, Abstracts}},
  keywords     = {{Abildgaardieae,Angiosperms353,Cyperaceae,photosynthesis,generic circumscription,Targeted sequencing}},
  language     = {{eng}},
  location     = {{Anchorage, Alaska}},
  title        = {{Resolving generic limits in Cyperaceae tribe Abildgaardieae using targeted sequencing}},
  url          = {{http://2020.botanyconference.org/engine/search/index.php?func=detail&aid=272}},
  year         = {{2020}},
}