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Effect of polyploidization on species invasive success
Líblová, Zuzana ; Münzbergová, Zuzana (advisor) ; Rooks, Frederick (referee)
Polyploid variants of many species of plants are strikingly frequently found among alien plants on all continents. They also very often have a much larger distribution range of its occurrence, compared to diploid plants in the place of their origin. In many cases, the polyploid cytotype also has increased tolerance to various stress factors or a physiological and morphological characteristics that allow them to survive the conditions in which the diploid plants would have little chance to survive. All this suggests that polyploidy is likely to bring plants an evolutionary advantage over their diploid ancestors, and polyploids therefore can successfully colonize new territories. This thesis summarizes the findings about the possible consequences of polyploidy at different levels in relation to their effects on the properties supporting plant invasive ability. It presents also known hypotheses dealing with possibilities of why plants become invasive after introduction. This is followed by sections devoted to flow cytometry, an important modern method for determining genome size and ploidy level. In conclusion it briefly describes the model species bird vetch (Vicia cracca) and the results of measurements of the degree of ploidy of seeds of this plant from Alaska and Japan.
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Ecological and evolutionary consequences of polyploidization
Pavlíková, Zuzana ; Münzbergová, Zuzana (advisor) ; Rooks, Frederick (referee)
The frequency of polyploidy in natural populations is much more common than previously thought, suggesting that polyploidy must bring their holders either long or at least short term evolutionary advantage compared with their diploid ancestors, because otherwise they would not expand massively. The thesis deals with the consequences of polyploidy for genome, meiosis, mode of reproduction and the resulting viability of polyploid plants. It also describes and evaluates the possible reasons for the evolutionary success of polyploid plants. It also described the creation polyploids in diploid populations, the interactions between diploids and polyploids and the mechanisms of creation of reproductive isolation between cytotypes. Further, I paid attention to the interactions between polyploidy, herbivores and pollinators. In conclusion, I mention methods of synthesis neopolyploid plants, the possibility of their use and methods of detection of ploidy in plants.
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Effect of polyploidization on species invasive success
Líblová, Zuzana ; Münzbergová, Zuzana (advisor) ; Rooks, Frederick (referee)
Polyploid variants of many species of plants are strikingly frequently found among alien plants on all continents. They also very often have a much larger distribution range of its occurrence, compared to diploid plants in the place of their origin. In many cases, the polyploid cytotype also has increased tolerance to various stress factors or a physiological and morphological characteristics that allow them to survive the conditions in which the diploid plants would have little chance to survive. All this suggests that polyploidy is likely to bring plants an evolutionary advantage over their diploid ancestors, and polyploids therefore can successfully colonize new territories. This thesis summarizes the findings about the possible consequences of polyploidy at different levels in relation to their effects on the properties supporting plant invasive ability. It presents also known hypotheses dealing with possibilities of why plants become invasive after introduction. This is followed by sections devoted to flow cytometry, an important modern method for determining genome size and ploidy level. In conclusion it briefly describes the model species bird vetch (Vicia cracca) and the results of measurements of the degree of ploidy of seeds of this plant from Alaska and Japan.
|
|
|
Ecological and evolutionary consequences of polyploidization
Pavlíková, Zuzana ; Münzbergová, Zuzana (advisor) ; Rooks, Frederick (referee)
The frequency of polyploidy in natural populations is much more common than previously thought, suggesting that polyploidy must bring their holders either long or at least short term evolutionary advantage compared with their diploid ancestors, because otherwise they would not expand massively. The thesis deals with the consequences of polyploidy for genome, meiosis, mode of reproduction and the resulting viability of polyploid plants. It also describes and evaluates the possible reasons for the evolutionary success of polyploid plants. It also described the creation polyploids in diploid populations, the interactions between diploids and polyploids and the mechanisms of creation of reproductive isolation between cytotypes. Further, I paid attention to the interactions between polyploidy, herbivores and pollinators. In conclusion, I mention methods of synthesis neopolyploid plants, the possibility of their use and methods of detection of ploidy in plants.
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