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Rhizobiom pro zvýšení resilience polních plodin ke změně klimatu
Řezáč, Vlastislav
The bachelor thesis focuses on the importance of the plant root system and associated symbiotic microorganisms. The aim was to describe these relationships, present their advantages in agriculture and methods of their adoption. In the practical part, the root system was evaluated using WinRHIZO software. The material used was the grown root systems of Trifolium sp. plants at the age of 18 days. The basic parameters associated with the root system characteristics, i.e. total length, total surface, average diameter, total volume, number of tips, number of branches were determined. The number of formed nodules was also determined. As a secondary result, the macrophenological phase of the initiation of nodule for-mation was determined between BBCH 10 and BBCH 11.
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Dynamics of carbon and phosphorus flows in arbuscular mycorrhizal symbiosis
Konvalinková, Tereza ; Jansa, Jan (advisor) ; Baláž, Milan (referee) ; Kolaříková, Zuzana (referee)
Dynamics of carbon and phosphorus flows in arbuscular mycorrhizal symbiosis Mgr. Tereza Konvalinková (doctoral thesis) Abstract Arbuscular mycorrhizal fungi (AMF) are widespread and highly specialized root symbionts, which gain all of their carbon (C) from the hosts, supplying plants with mineral nutrients (particularly with phosphorus, P) in return. This thesis focuses on the size and flexibility of C and P flows in arbuscular mycorrhiza in relation to environmental conditions, in particular to light and P availability. The indications that the symbiotic flows are regulated actively by both partners are discussed. The main findings are presented as a compilation of separate scientific works (two research articles, one review and one book section). A glasshouse experiment has shown that both mycorrhizal benefits and mycorrhizal colonization of medic (Medicago truncatula) by an AMF species (R. irregularis) decline along the gradient of decreasing light intensity. Interestingly, morphological adaptation of medic to the long-term light deprivation was boosted by mycorrhiza, probably because of C demand of AMF and due to the improved nutrition of the mycorrhizal plants. On the other hand, sudden 6-day shading caused rapid decline of shoot P content of mycorrhizal plants, accompanied with the accumulation of P...
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Importance of arbuscular mycorrhizal fungal communities for the growth of selected plant species on an abandonned field
Voříšková, Alena ; Janoušková, Martina (advisor) ; Gryndler, Milan (referee)
The thesis deals with the effect of arbuscular mycorrhiza (AM) on the growth of selected plant species at a locality in České středohoří. This locality is characterized by close neighborhood of a semi-natural dry grassland and a former field abandonned in the 1990s, typical for the mosaic of biotopes in the region. The study is based on previous findings that some plant species, which are common at the semi-natural dry grasslands, do not colonize the abandoned fields. As AM is an important factor affecting diversity and productivity of plant communities we hypothesized that this phenomenon could be related to changes in AM fungal communities at the abandoned field. The hyphothesis was tested in a greenhouse pot experiment with three taxonomically related pairs of plant species, always one species growing at the abandoned field and the second one not. Growth and phosphorus uptake of the plants was followed in soils of both biotopes after factorial inoculation with AM fungal communities from both biotopes. The experiment was complemented by description of AM fungal communities in the roots of six plant species pairs from the locality using terminal restriction fragment length polymorphism (T-RFLP). The greenhouse experiment revealed positive mycorrhizal response in all plant species, but the origin...
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Specificity between partners in arbuscular mycorrhizal symbiosis
Voříšková, Alena ; Janoušková, Martina (advisor) ; Püschel, David (referee)
Arbuscular mycorrhiza (AM) is a symbiotic interaction between vascular plants and arbuscular mycorrhizal fungi from phylum Glomeromycota. AM symbiosis is considered as a nonspecific interaction, because AM fungi are able to colonize roots of all plant species which are hosts for this type of symbiosis, nevertheless certain specific interactions exist between the partners. The specificity can be evident on the level of the formation of mycorrhiza, which means that different species of plants can vary in the composition of fungal community in their roots or AM fungi can differ in an ability of colonization and sporulation depending on host plant species. The specificity can also manifest as different functionality of the symbiosis in dependence on the particular partners affecting the mycorrhizal response of the host plants. All of these specific interactions can have an impact on the coexistence and diversity of plants in communities.
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Trait ecology of arbuscular mycorrhizal fungi
Hudáková, Zuzana ; Kohout, Petr (advisor) ; Ponert, Jan (referee)
Arbuscular mycorrhiza is a type of mutualistic symbiosis between fungi of the Glomeromycota division and the roots of vascular plants, which is the most common kind of mycorrhiza in the world. It is based on the exchange of substances, where the mycorrhizal fungus provides the plant with mineral nutrition and protection against pathogens and stress, and its plant host returns its products of assimilation. The phylogenetic classification of the division is equivocal, and we recognise two views on their categorisation into taxonomic groups, according to the morphology of their spores or by molecular methods, which is based on the rDNA sequence. The aim of the work is to characterise the influence of different taxa of the Glomeromycota division on the host based on their spores and the type of mycelium they prefer to form. This also affects the possibilities of the fungus, by which it can influence the life of the host plant. Key words: arbuscular mycorrhiza, arbuscular mycorrhizal fungi, Glomeromycota, spores, intraradical mycelium, extraradical mycelium, functional traits
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Role of arbuscular mycorrhizal symbiosis and composition of arbuscular mycorrhizal communities among plants from different functional groups
Novák, Václav ; Kohout, Petr (advisor) ; Kolaříková, Zuzana (referee)
Arbuscular mycorrhiza is a type of mutualistic symbiosis between most plant species and fungi from the phylum Glomeromycota. Both partners exchange nutrients. The fungus provides inorganic substances especially phosphorus and receives the products of photosynthesis from the plant. Mycorrhiza also affects plant growth and resistance against pathogens. The composition of AM fungi community is, apart from abiotic factors, also driven by the host plant traits such as photosynthetic type, growth form, life cycle, CSR strategy, N-fixation or mycorrhizal status. The role of mycorrhizae also differs among different plant functional types. This thesis describes the differences in composition and diversity of AM fungal communities among plants with different ecophysiological traits and summarizes the role of mycorrhiza for different plant functional types.
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Dynamics of carbon and phosphorus flows in arbuscular mycorrhizal symbiosis
Konvalinková, Tereza ; Jansa, Jan (advisor) ; Baláž, Milan (referee) ; Kolaříková, Zuzana (referee)
Dynamics of carbon and phosphorus flows in arbuscular mycorrhizal symbiosis Mgr. Tereza Konvalinková (doctoral thesis) Abstract Arbuscular mycorrhizal fungi (AMF) are widespread and highly specialized root symbionts, which gain all of their carbon (C) from the hosts, supplying plants with mineral nutrients (particularly with phosphorus, P) in return. This thesis focuses on the size and flexibility of C and P flows in arbuscular mycorrhiza in relation to environmental conditions, in particular to light and P availability. The indications that the symbiotic flows are regulated actively by both partners are discussed. The main findings are presented as a compilation of separate scientific works (two research articles, one review and one book section). A glasshouse experiment has shown that both mycorrhizal benefits and mycorrhizal colonization of medic (Medicago truncatula) by an AMF species (R. irregularis) decline along the gradient of decreasing light intensity. Interestingly, morphological adaptation of medic to the long-term light deprivation was boosted by mycorrhiza, probably because of C demand of AMF and due to the improved nutrition of the mycorrhizal plants. On the other hand, sudden 6-day shading caused rapid decline of shoot P content of mycorrhizal plants, accompanied with the accumulation of P...
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Importance of biotic and abiotic components in feedback between plants and soil
Hanzelková, Věra ; Pánková, Hana (advisor) ; Knappová, Jana (referee)
The plant-soil feedback affects the forming of a plant community. Plants affect their own species as well as other species. The plant-soil feedback can be both positive and negative. Plants affect soil, change its properties, and the soil affects the plants reciprocally. Soil components can be divided into biotic and abiotic ones. The abiotic component is represented by physical and chemical properties of the soil. The main properties are the soil structure, the soil moisture, the soil temperature, the soil pH and the amount and availability of nutrients. The biotic component is composed of soil biota. The individual organisms can function as decomposers, symbionts and pathogens. The majority of soil organisms is composed of microorganisms, the most important of which are fungi and bacteria. The effect of the abiotic component in plant-soil feedback is mostly nonspecific, while the effect of the biotic component is more specific. These components interact with each other and determine the resulting effect on the plants and the type and intensity of interaction between various plant species. The aim of this thesis is to show the importance of these components in the plant-soil feedback. Key words: plant-soil feedback, abiotic factors, biotic factors, soil structure, soil water, soil temperature, pH,...
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Interaction of arbuscular mycorrhiza and ectomycorrhiza
Jirková, Kateřina ; Janoušková, Martina (advisor) ; Kohout, Petr (referee)
Arbuscular mycorrhiza and ectomycorrhiza are two most common types of mycorrhizal symbiosis formed by different fungal groups. This bachelor thesis addresses their interactions, which can take place in dual hosts, plants that form both types of mycorrhiza simultaneously, at habitats where host plants of the two mycorrhizal types coexist. Arbuscular mycorrhizal fungi and ectomycorrhizal fungi can compete for the colonization of the roots of dual hosts and for nutrients resources in soil. Physiological and ecological differences between both fungal groups can affect the results of the competition, together with a range of factors, such as soil moisture, nutrient content, pollution and the identity of the host plant. Interaction of arbuscular mycorrhizal fungi and ectomycorrhizal fungi may affect the survival and growth of dual hosts and influence competition between different plant species.
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How works mycorrhizal pathway in phosphorus acquisition?
Konečný, Jan ; Jansa, Jan (advisor) ; Janoušková, Martina (referee)
The plant takes up mineral nutrients by its roots from the soil. Minerals are available in the soil solution in the form of ions and can be translocated across the cytoplasmatic membrane into the cell of the plant. If the plant is alone, we talk about direct pathway. In case of some minerals, which are not available so easily, the plant finds solution in mutualistic relationship - the mycorrhizal symbiosis. By mycorrhizal pathway the nutrients come from much larger volume of soil, than the plant could reach, and intake of low-mobile elements, like phosphorus, becomes facilitated. How is the phosphorus taken up through mycorrhizal pathway, how is it regulated and accessory knowledge are the topic of this bachelors thesis.
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