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The effect of constant temperature and moisture to house dust mites Dermatophagoides pteronyssinus and Dermatophagoides farinae
Gajdová, Tereza ; Hubert, Jan (advisor) ; Žůrek, Luděk (referee)
House dust mites Dermatophagoides pteronyssinus and Dermatophagoides farinae inhabit house dust worldwide. These commensals are for humans harmful especially as producers of many allergens. According to Klimov-OConnor's hypothesis, these mites had a parasitic ancestor who had evolved into a free-living form during the evolution. This thesis focuses on another possible aspect of this transition: it compares optimal hygrothermal conditions for development, reproduction, and population growth of Dermatophagoides dust mites with those which are preferred by the house dust mite's related - parasitic genera Sarcoptes and Psoroptes. Since all these three genera are closely related, it was analyzed whether their hygrothermal preferences would be similar in any respect. However, the results of this literature review suggest that dust mites - compared to their parasitic relatives - prefer combinations of lower temperatures and humidity. Like the representatives of the convergent group of storage mites - e. g. Tyrophagus putrescentiae and Acarus siro. Apart from the comparison of the preferred conditions of previously mentioned genera, this thesis also presents a summary of the effect of different combinations of temperatures and humidity on the duration of development, fecundity, and the population growth of...
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The effect of constant temperature and moisture to house dust mites Dermatophagoides pteronyssinus and Dermatophagoides farinae
Gajdová, Tereza ; Hubert, Jan (advisor) ; Žůrek, Luděk (referee)
House dust mites Dermatophagoides pteronyssinus and Dermatophagoides farinae inhabit house dust worldwide. These commensals are for humans harmful especially as producers of many allergens. According to Klimov-OConnor's hypothesis, these mites had a parasitic ancestor who had evolved into a free-living form during the evolution. This thesis focuses on another possible aspect of this transition: it compares optimal hygrothermal conditions for development, reproduction, and population growth of Dermatophagoides dust mites with those which are preferred by the house dust mite's related - parasitic genera Sarcoptes and Psoroptes. Since all these three genera are closely related, it was analyzed whether their hygrothermal preferences would be similar in any respect. However, the results of this literature review suggest that dust mites - compared to their parasitic relatives - prefer combinations of lower temperatures and humidity. Like the representatives of the convergent group of storage mites - e. g. Tyrophagus putrescentiae and Acarus siro. Apart from the comparison of the preferred conditions of previously mentioned genera, this thesis also presents a summary of the effect of different combinations of temperatures and humidity on the duration of development, fecundity, and the population growth of...
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Microbial association with house dust mites
Molva, Vít ; Hubert, Jan (advisor) ; Žůrek, Luděk (referee)
The house dust mites (HDM; Dermatophagoides farinae and Dermatophagoides pteronyssinus) obtain nutrients from the debris of the skin, hairs and nails, that get off the human and animal body. These debris are covered by microorganisms and the microorganisms are the key factor in the survival of HDM in human-made environments. In this study we made manipulative experiments with the extract from spent growth medium (SPGM). SPGM is the medium after mite cultivation, composed from mite feces, debris of the diet, dead mite bodies and microorganisms. The extract from SPGM (one and three-month-old mite cultures) was used as the source of microorganism to transfer them into diet of D. farinae a D. pteronyssinus. The composition of the bacterial and fungal microbiomes differed between the HDM species, but the SPGM extract addition into diet influenced only the bacterial profile of D. farinae. In the D. farinae microbiome of specimens on SPGM-treated diets compared to those of the control situation, the Lactobacillus spp. profile decreased, while the Cardinium, Staphylococcus, Acinetobacter, and Sphingomonas profiles increased. The addition of SPGM extract decreased the microbial respiration in the microcosms with and without mites in almost all cases. Adding SPGM did not influence the population growth of D. farinae,...
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