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The phylogeny of the Protaetia Burmeister, 1842 flower beetles in the western palearctic region
Žďárská, Kateřina ; Šípek, Petr (advisor) ; Bezděk, Aleš (referee)
This diploma thesis deals with the phylogeny and phylogeography of flower beetles of the genus Protaetia, especially with the complicated taxonomic complex around the species Protaetia (Potosia) cuprea, P. cuprina and P. caucasica in the western Palearctic region. In light of the results presented by Vondráček et al. (2018), it seems that the classic taxonomic approach, based only on coloration, geographical distribution or poorly analysed morphological characters, is not able to adequately explain the evolution of the taxon, nor correctly identify individual taxa at the species level (i.e. species and subspecies). To understand the evolution of the group and the population structure, it is therefore necessary to use the now standard molecular-phylogenetic approaches as well. Based on analyses of one nuclear (internal transcribed spacer 1) and two mitochondrial genes (cytochrome oxidase I and cytochrome b) from 231 individuals, a phylogenetic hypothesis of the West Palaearctic representatives of the genus Protaetia was compiled. It was found that the currently recognized subgenera of the genus do not correspond to the results of the analyses. The subgenera Eupotosia, Netocia and Potosia proved to be non- monophyletic. Within the species complex of P. cuprea, in addition to the European clade of P....
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Fylogeography and intraspecific variability of the cetoniid beetle Potosia Cuprea
Fuchsová, Aneta ; Šípek, Petr (advisor) ; Růžička, Jan (referee)
The presented thesis deals with the intraspecific variability of flower beetles species complex Potosia cuprea (Fabricius, 1795), which is a complex of taxa at the species and subspecies level. Flower beetles from species complex Potosia cuprea are among the most variable Palaearctic Cetoniinae at all. Taxa included in the complex produces chromatic range varieties which were, and still are, perceived differently by different authors. Taxa included in the analyses come primarily from western Palaearctic region, with the main emphasis on European species and subspecies. The aim of this work is the use of molecular genetics methods to verify the justification of their species or subspecies level. At all, there were obtained sequences for two mitochondrial genes (cytochrome b and cytochrome oxidase I) from 14 taxa species complex Potosia cuprea and three related species P. angustata (Germar, 1817), P. fieberi (Kraatz, 1931) and P. marginicollis (Ballion, 1870). Molecular analyzes based on COI dataset and concatenate of CytB and COI revealed the existence of a "European" clade P. cuprea, which includes subspecies: Potosia cuprea bourgini (Ruter, 1967), P. c. brancoi (Barraud, 1992), P. c. cuprea (Fabricius, 1775), P. c. metallica (Herbst, 1790) a P. c. obscura (Mikšić, 1954), to which also fit two...
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Population structure of flower chafer Oxythyrea funesta (Poda, 1761) and phylogeny of the genus Oxythyrea Mulsant, 1842
Vondráček, Dominik ; Šípek, Petr (advisor) ; Bezděk, Aleš (referee)
Eleven species are distinguished in the genus Oxythyrea Mulsant, 1842 (Coleoptera: Scarabaeidae) nowadays. They are not divided into subspecies. Diversity of the genus is concentrated in the Mediterranean and Oxythyrea funesta (Poda, 1761) inhabit a wide area in the western Palearctic Region. It was observed in last decades, that O. funesta retreated from central Europe to south and then recolonized it back including new areas in northern regions. Master thesis is focused on resolving population structure of O. funesta and partial phylogeny of the genus Oxythyrea using molecular genetic methods. 145 individuals of O. funesta and 15 individuals of five other species of the genus Oxythyrea appear in analysis. We acquired sequences of mitochondrial genes cytochrome oxidase I (807 bp), cytochrome b (381 bp) and nuclear gene internal transcribed spacer 1 (946 bp) from these specimens. The results of phylogenetic analysis confirmed so far the only one existing interpretation of relationships within the genus Oxythyrea based on morphological data. We also confirmed complicated relationships between O. funesta and O. pantherina, which also appear in the historical development of their taxonomy. We detected different genetic lineage in Sicily, southern Italy and Tunisia using phylogenetic trees and haplotype...
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