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Theses against occultism
(1974)
This paper is a monographic revision of tlie Holarctic genus Hilarimorpha Schiner. Twenty-seven species are recognized, twenty-two of which are new: Hilarimorpha abuta, bumulla, californica, clavata, cunata, desta, kena, lamara, Iantha, loisae, mandana, mentata, modesta, parva, pitans, punata, reparta, robertsoni, sidora, stena, tampa, and varda. Two described species from Asia, Hilarimorpha maculata and orientalis, are removed from the genus. In addition to a taxonomic revision of the genus, this study treats geographical distribution of the species, and the relationship of the genus to othe families of brachycerous Diptera.
In 1080 samples (feathers, nesls, pellets, droppings, cloaca contents and visceral organs) collected from 92 species of free-living birds in many localities and habitats, a total of 6266 fungi was found; we identified 232 species and 112 genera of fungi (73.4 % Ascomycetes, 12.4 % Fungi imperfecti, 8.0 % Zygomycetes, 5.7 % Endomycetes, 0.3 % Oomycetes; and 0.2 % Basidiomycetes). The most common fungal genera were, in plumage, Alternaria. Cladosporium, Arthroderma, Chaetominum, Aspergillus, Penicillium and Chrllsosporium; in nests, Alternaria, Arthroderma, Penicillium, Aphanoascus and Scopulariopsis; on pellets, Penicillium, Mucor, Aspergillus, Chrysosporium and Rhizopus; in droppings, Scopulariopsis, Mucor, Aspergillus, Penicillium and Candida; from the cloaca contents, we isolated Penicillium, Candida, Aspergillus, Scopulariopsis, a. o., and from the visceral organs, Aspergillus, Penicillium, Rhodotorula, and some others. Of the fungi with a potential pathogenicity for homeotherms, we obtained, e. g., Absidia corymbifera, Aspergillus fumigatus, Candida albicans, Cryptococcus neoforrnans and Microsporum gypseum. We confirmed also the presence of several species of toxinogenic fungi (e. g., Aspergillus flavus), of the fungi with a potential pathogenicity for poikilotherms (e. g., Beauveria bassiana. Paecilomyces jarinosus, P. fumoso-roseus), and of plant parasites (Cylindrocarpon radicicola, Fusarium oxysponom and Verticillium albo-atrum). Aphanoascus reticulisporum has been described as comb. nov. (basionym: Anixiopsis: reticulispom ROUTIEN). 66 species of the fungi have not been recorded earlier in Czechoslovakia. Similarly, the occurrence of 111 species had, apparently, not been confirmed in free-living birds on a world-wide scale.
Over 6260 fungi have been isolated from samples of feathers, nests, pellets, droppings, cloaca contents and visceral organs of 92 species of free-living birds in Czechoslovakia and Yugoslavia. Several species have been obtained of fungi pathogenic to homeotherms, poikilotherms and plants, and many fungi recorded belong to the toxinogenic species.Cellulolytic fungi have participated with 44.3 % in the total number of fungi, and keratinolytic fungi with 18.3 %. The thesis has been confirmed that habits (specific bionomics) of the birds influence,. to a certain degree, the distribution of the fungi among them. According to the results of this study, the fungi may conveniently be divided into three categories with respect to the character of their distribution and dispersal by free-living birds: (1) euryornithochous fungi , the occurrence of which in birds is undetermined by the birds' habits (ubiqitous species: Aspergillus flavus, Gliocladium roseum, Rhizopus. nigricans, Trichothecium roseum); (2) mesoornitohochorous fungi, the occurrence of which in birds is determined to a certain degree by the birds' habits (e. g., Aphanoascus fulvescens, Arthrodermcr curreyi, Chrysosporium keratinophilum, C. tropicum, Mucor hiemalis); (3) stenoornithochoruss fungi, which are associated with certain habit groups of the birds only (e. g., Aphanoascus terreus, Arthroderma ciferrii, A. tuberculatum,.Aspergillus fumigatus, Chrysosporium pannorum, Ctenomyces serratus). The importance of free-living birds in the spreading of pathogenic organisms has also been discussed from a more general point of view, particularly with regard to several epidemiologically important aspects of bird ecology such as synanthropism, migration (making possible a long-range carriage of pathogens or infected vectors), colonial breeding or mass roosting.
Resting potato tuber tissue possesses only faint activity of the two dehydrogenases of the oxidative pentose phosphate cycle, glucose-6-phosphate- and 6-phosphogluconate dehydrogenase. Slicing of the tissue, however, greatly enhances the action of both enzymes. The slicing-induced increase in activity is a consequence of intensified action of at least 5 glucose-6-phosphate dehydrogenase isozymes and a more differentiated activation/inactivation of seven 6-phosphogluconate dehydrogenase isozymes.
Using density labelling and isopycnic equilibrium centrifugation it could be demonstrated, that the bulk of both enzymes appearing after slicing the tissue is the result of de novo synthesis rather than activation of pre-existing proenzymes.
The cooperative problem for a lattice gas on a plane, square lattice and on a simple cubic lattice is solved by a system of two coupled, transcendental equations, derived by a combinatorial method, which describes a homogeneous or periodical particle density on the lattice as a function of the temperature and the chemical potential of the lattice-gas.
For the particle interaction a Hard-Core potential (nearest neighbour exclusion) with a soft long-range tail is assumed. The zero-component of the Fourier-transform of this long-range interaction part can be positive or negative.
The system of transcendental equations is solved by a graphic method. As a result, the complete pressure-density state diagram and the pressure-temperature phase diagram can be drawn.
The lattice-gas exists in three stable phases: gas, liquid and solid. Three phase changes are possible: condensation, crystallization and sublimation.
Critical points of condensation and freezing are examined. The number of possible phases and phase changes at a fixed temperature depends on the geometric structure of the particle interaction.