The aim of this work was to determine the genera or species composition and the number of colony forming units of airborne bacteria and fungi, respectively, in two salt mines in Poland “Wieliczka” (Lesser Poland) and “Polkowice–Sieroszowice” (Lower Silesia). Both of them are working environments characterized by extreme conditions, and additionally “Wieliczka,” officially placed on the UNESCO World Heritage Sites’ list, plays a role of tourist attraction. There are also some curative chambers located in this mine. Air samples were taken once in December 2015, between 6:00 a.m. and 9:00 a.m. There were nine measurement points located about 200 m underground in “Wieliczka” and six measurement points located in the working shafts about 400 m underground in “Polkowice–Sieroszowice.” The total volume of each air sample was 150 L. Air samples, collected in individual measurement points of both salt mines, were inoculated on two microbiological media: potato dextrose agar and tryptic soy agar using the impact method. We identified 10 and 3 fungal genera in the “Wieliczka” Salt Mine and in “Polkowice–Sieroszowice,” respectively. The most common were fungi of the Penicillium genus. In both mines, the Gram-positive bacteria of genus Micrococcus were detected most frequently. Among identified microorganisms, there were neither pathogenic fungi nor bacteria. The most prevalent microorganisms detected in indoor air were Gram-positive cocci, which constituted up to 80% of airborne microflora. Our results showed that microorganisms recorded in the air samples are not a threat to workers, tourists or patients. Neither pathogens nor potentially pathogenic microorganisms, listed as BSL-2, BSL-3 or BSL-4, were detected. The microbes identified during our analysis commonly occur in such environments as the soil, water and air. Some of the detected bacteria are component of natural microflora of human skin and mucous membranes, and they can cause only opportunistic infections in individuals depending on their health condition.
In the years 2001 - 2003, there were analyzed relations between the number of Fusarium culmorum and F. avenaceum, fungi found on culm base parts of stalks of seven winter wheat cultivars, and preceding crop type as well as the cultivation system. The research was carried out in Poland, on light soil plots of a Lower Silesia-based experimental station subordinate to the Institute of Soil Science and Plant Cultivation (IUNG). The loglinear and correspondence analyses proved varying immunity of particular wheat cultivars to F. culmorum and F. avenaceum fungi. There were also observed significant differences in Fusarium diseases of wheat as dependent on precipitation and temperature in the growing season. The Kobra cultivar was highly resistant to F. avenaceum. The lowest amounts of F. culmorum fungi were detected in the culm base parts of the Izolda cultivar. The cultivation of corn, as a preceding crop for oats and for spring wheat, did significantly differentiate varieties of fungi in the cultivation systems examined. In the plough cultivation system, wheat was mainly infected by Fusarium culmorum, whereas in direct sowing, particular cultivars of wheat were mostly infected by F. avenaceum
From January to April 2012 we studied the occurrence of air-borne fungi in the Lubin mining site, property of KGHM Polska Miedź SA. The research was conducted in three copper-mining shafts: Bolesław, Lubin Zachodni (Lubin West shaft), and Lubin Głó wny (Lubin Main shaft) at about 610 to 850 meters below ground level. Air samples were collected between 6 and 9 a.m. using the impact method (Air Ideal 3P Sampler) onto Potato Dextrose Agar. The volume of air sampled for each agar plate was 50 liters. We found twenty-seven fungal species, the most numerous being Penicillium notatum, P. urticae, and Aspergillus flavus. As the application of log-linear and correspondence analyses have shown, the population of fungi varied considerably among the copper mine shafts or shaft parts. P. notatum and P. urticae were found to be the best adapted to grow in copper-mine conditions. The significant interaction among the shafts and the sample collection sites suggests a substantial microclimate influence on the population-size variations of studied fungal species in each shaft. The fungal-spore concentration in the majority of the shafts of this copper mine does not present a health risk to the mine workers. But it is enhanced in some portions of the mine, so it may constitute a health hazard locally.
Wheat grains are colonized by a wide range of different saprophytic and pathogenic fungi. Infestation of mycotoxigenic species such as Fusarium spp. raises concerns about the safety of the grains for human and animal consumption. The colonization depends upon various environmental and genetic factors. The aim of the study was to analyse the variability of the incidence of the Fusarium culmorum fungus in wheat grain in relation to years of experiments -environmental conditions, the height of the preceding crop stubble, tillage system and cultivar. The study was conducted in the years 2009-2011, at the Experimental Farm of the Institute of Soil Science and Plant Cultivation in the Lower Silesia Region. The preceding crop was winter wheat. The study included the following experimental factors: factor I -height of preceding crop stubble: a) low stubble, b) high stubble; factor II -soil tillage systems: a) direct sowing, b) ploughless tillage, c) plough tillage; factor III -winter wheat cultivars: a) 'Mewa', b) 'Rapsodia', c) 'Legenda'. Mycological analyses were conducted on the grain from the cultivars harvested at the stage of full maturity. It is noteworthy that in the ploughless tillage system the fungal infestation observed in caryopsis under study was higher than that in the plough tillage system. Within the various tillage systems, the high stubble variant reduced the level of infection of wheat grain with the fungus F. culmorum. The wheat cultivars were characterised by varied resistance to grain colonisation by F. culmorum depending on the soil tillage system.
Aqueous solutions of organic extracts of Nigrospora oryzae in the concentration range 0.1 to 1000 μg/cm3 were found to inhibit both spore germination and mycelium growth of Fusarium avenaceum, F. culmorum, F. gramminearum, F. gramminearum, F. oxysporum, F. equiseti, F. lateritium and Botrytis cinerea.
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