Leaf and inflorescence structure and phylogenetics of Tripogon and affiliated genera (Poaceae: Chloridoideae)
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2015
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Resumo |
This thesis provides new knowledge on an understudied group of grasses, some of which are resurrection grasses (i.e. able to withstand extreme drought). The sole Australian species (Tripogon loliiformis) is morphologically diverse and could be more than one species. This study sought to determine how many species of Tripogon occur in Australia, their relationships to other species in the genus and to two other genera of resurrection grasses (Eragrostiella and Oropetium). Results of the research indicate there is not enough evidence, from DNA sequence data, to warrant splitting up T. loliiformis into multiple species. The extensive morphological diversity seems to be influenced by environmental conditions. The three genera are so closely related that they could be grouped into a single genus. This new knowledge opens up pathways for future investigations, including studying genes responsible for desiccation tolerance and the conservation of native grasses that occur in rocky habitats. |
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application/pdf |
Identificador | |
Publicador |
Queensland University of Technology |
Relação |
http://eprints.qut.edu.au/83726/1/Melodina_Fabillo_Thesis.pdf Fabillo, Melodina (2015) Leaf and inflorescence structure and phylogenetics of Tripogon and affiliated genera (Poaceae: Chloridoideae). PhD thesis, Queensland University of Technology. |
Fonte |
School of Earth, Environmental & Biological Sciences; Science & Engineering Faculty |
Palavras-Chave | #Tripogon #Tripogon loliiformis #leaf anatomy #leaf micromorphology #lemma micromorphology #phylogenetic analyses #resurrection grass #Bayesian inference #maximum parsimony #maximum likelihood |
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Thesis |