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Effect of distance from the plant on the intensity of interaction between plants and soil
Skydaniuk, Liudmyla ; Münzbergová, Zuzana (advisor) ; Mudrák, Ondřej (referee)
The concept of plant-soil feedback is increasingly used to explain plant-community interactions. As plants grow, they change the conditions in the surrounding soil environment. These soil changes affect further plant growth. We call this effect plant-soil feedback (PSF). The effect of PSF is typically studied directly in the place where the plant grows. How far from the plant this effect can be, however, is little explored, but this knowledge is important for understanding the structure of plant communities. The main goal of thesis was to investigate the effects of the distance from the plant on the intensity of intraspecific and interspecific feedback between the plant and the soil. The research was conducted using a classic, two-phase experiment. Four species were selected for the research, forming two pairs of one grass and one broad-leaved herb each time. The first pair were Bromus erectus and Inula salicina occurring naturally on dry lawns in northern Bohemia. The second pair were Calamagrostis epigeios and Daucus carota, occurring on lignite dumps in Sokolovsk. The species were cultivated during the cultivation phase in the soil of their origin, it means the soil of the dry lawn of northern Bohemia or the Sokolovsk dump, either each species of the pair was cultivated separately or both...
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Biotic and abiotic components of soil in plant-soil feedback of invasive and native plant species
Drtinová, Lucie ; Münzbergová, Zuzana (advisor) ; Štajerová, Kateřina (referee)
Plant-soil feedback (PSF) is a mechanism which may contribute to the success of invasive plant species. Which of the soil components have the greatest impact on PSF? In a two-phase experiment, I observed changes in germination and growth of plants in reaction to intraspecific plant cultivation: selected plant species were grown in substrate consisting of cultivated or uncultivated soil, containing different composition and amounts of soil biota. The effect of changes in abiotic and biotic components of the soil was then assessed and compared among pairs of closely related invasive and native plant species. The main observed phenomenon was species-specificity of plant responses to changed soil conditions. The cultivation-induced changes in soil composition affected germination and biomass of the test plants positively, negatively, or were neutral, their effect differed between tested species - some of the observed species were more affected by changes in abiotic properties of the soil, some reacted to changes in soil biota composition. Nevertheless, the composition of soil biota affected germination and biomass of plants even regardless of cultivation: the presence of all biotic components of the soil had negative effect on biomass - with growing representation and amount of pathogens, fungi, micro-...
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Biotic and abiotic components of soil in plant-soil feedback of invasive and native plant species
Drtinová, Lucie ; Münzbergová, Zuzana (advisor) ; Štajerová, Kateřina (referee)
Plant-soil feedback (PSF) is a mechanism which may contribute to the success of invasive plant species. Which of the soil components have the greatest impact on PSF? In a two-phase experiment, I observed changes in germination and growth of plants in reaction to intraspecific plant cultivation: selected plant species were grown in substrate consisting of cultivated or uncultivated soil, containing different composition and amounts of soil biota. The effect of changes in abiotic and biotic components of the soil was then assessed and compared among pairs of closely related invasive and native plant species. The main observed phenomenon was species-specificity of plant responses to changed soil conditions. The cultivation-induced changes in soil composition affected germination and biomass of the test plants positively, negatively, or were neutral, their effect differed between tested species - some of the observed species were more affected by changes in abiotic properties of the soil, some reacted to changes in soil biota composition. Nevertheless, the composition of soil biota affected germination and biomass of plants even regardless of cultivation: the presence of all biotic components of the soil had negative effect on biomass - with growing representation and amount of pathogens, fungi, micro-...
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