Summer airborne mycoflora of Timişoara (Romania) and relationship to meteorological parameters

The present aeromycological investigation was undertaken to study atmospheric fungal spores in Timi?oara (western Romania). This study was carried out using a Hirst type volumetric sampler. The study revealed the existence of a rich airborne mycoflora. The atmospheric fungal spores were classified and evaluated into three groups (‘major’, ‘minor’ and ‘sporadic’) depending upon their catch percentage in the air. Cladosporium/Fusarium/Leptosphaeria-group, Alternaria, Helminthosporium airborne fungal spores and airborne fungal fragments regularly recorded (frequency 100% of days). Cladosporium accounted for 81.09% of the outdoor fungal spores. The airborne fungal fragments have been identified as abundant in our geographic area. Spearman’s correlations were applied to meteorological parameters and airborne fungal spore concentrations. In addition, correlations were calculated between the fungal spore concentrations and the meteorological variables from the previous day. A total of eleven weather factors were selected for this investigation. Following Spearman’s correlations, I identified two patterns of behaviour: most of the airborne fungal spores prefer cloudiness, lower near-surface soil temperature, lower atmospheric pressure, higher relative humidity and precipitation (pattern A) while other spore concentrations favour increased sunshine, higher near-surface soil temperature and dry conditions (pattern B). The behaviour of some fungal spores during the warm season has proven unclear (pattern C). This study demonstrates the need for investigations throughout the year and the evaluation with complementary statistical methods, regarding the correct interpretation of airborne mycoflora relationships with meteorological parameters.     

Occurrence of mites and fungi in the homes of patients with allergic manifestations

This survey was carried out to evaluate mites and moulds concentrations in the homes of patients with allergic manifestations and positive skin-test for mites and/or fungi. The home environments of 277 patients were evaluated by questionnaire, by sampling of airborne fungal spores and by determining the occurrence of mites and moulds in dust samples. Among the 277 patients examined, 83% reacted positively to house dust mites. The fungal allergen most frequently responsible for skin positivity was Alternaria tenuis. The prevalent airborne fungi were Cladosporium, Penicillium and Alternaria, followed by Aspergillus and Aureobasidium. The other genera were found in less than 50% of the homes. The presence of domestic mites in dust was documented in more than 85% of the homes sampled. The occurrence of fungi in dust was generally higher than in the air. The most common genera recovered were Penicillium, Candida, Aspergillus, Aureobasidium, Alternaria and Cladosporium. The homes investigated were divided into two groups, damp and dry, on the basis of the reported presence of wet or damp spots on inside surfaces and moulds growing inside the home. Our results showed that the concentration of mites and moulds in dust was significantly higher (p < 0.01) in damp homes as compared to dry ones.In general, a good agreement between skin positivity and presence of the same allergens in patients' home environment was observed for mites and, among fungi, for Alternaria, Cladosporium and Aspergillus. Our results seem to confirm that the study of mycoaeroflora and the quantification of mites and moulds in dust samples of allergic patients' homes could lead to more precise diagnoses and therefore to better prophylactic and therapeutic programs for each individual patient.     

Detection of aerosolized bacterial spores (Bacillus atrophaeus) using free-flying honey bees (Hymenoptera: Apidae) as collectors

An aerosol cloud of Bacillus atrophaeus (previously B. subtilis variety niger) spores, an anthrax surrogate, was created in a large 0.4 ha (1 ac), bee-containing, open-mesh tent. Bees from a B. atrophaeus uncontaminated hive flying through the cloud adsorbed the spores in statistically significant quantities. After removal of the B. atrophaeus contaminated hive and introduction of another B. atrophaeus uncontaminated hive, the bees again were monitored for the next few days for B. atrophaeus spores. B. atrophaeus spores accumulated on the bees bodies following their exposure to the residual B. atrophaeus contamination in the tent. The spore loads on the bees quickly returned to background levels after the hives were removed from the contaminated tent area. It may therefore be practical to use honey bee colonies to monitor foraging areas for disease-causing spores.     

Detection of aerosolized bacterial spores (<Emphasis Type="Italic">Bacillus atrophaeus</Emphasis>) using free-flying honey bees (Hymenoptera: Apidae) as collectors

An aerosol cloud of Bacillus atrophaeus (previously B. subtilis variety niger) spores, an anthrax surrogate, was created in a large 0.4 ha (1 ac), bee-containing, open-mesh tent. Bees from a B. atrophaeus uncontaminated hive flying through the cloud adsorbed the spores in statistically significant quantities. After removal of the B. atrophaeus contaminated hive and introduction of another B. atrophaeus uncontaminated hive, the bees again were monitored for the next few days for B. atrophaeus spores. B. atrophaeus spores accumulated on the bees bodies following their exposure to the residual B. atrophaeus contamination in the tent. The spore loads on the bees quickly returned to background levels after the hives were removed from the contaminated tent area. It may therefore be practical to use honey bee colonies to monitor foraging areas for disease-causing spores.     

Dispersal of fungal spores from three types of air handling system duct material

Exposure to airborne microorganisms in indoor environments may result in infectious disease or elicit an allergic or irritant response. Air handling system components contaminated by fungi have been implicated in the dispersal of spores into the indoor environment, thereby serving as a route of exposure to occupants. This study was conducted to provide quantitative data on the dispersal of spores from fungal colonies growing on three types of duct material. Galvanized metal, rigid fibrous glass ductboard, and fiberglass duct liner were soiled and contaminated with a known concentration of Penicillium chrysogenum spores. The duct materials were incubated in humidity chambers to provide a matrix of growing, sporulating fungal colonies at a contamination level of 109 colony forming units (CFU) per duct section, consistent for all materials. For each experiment a contaminated duct section was inserted into the air handling system of an experimental room, and the air handling system was operated for three 5-minute cycles with an air flow of 4.2 m3 min–1. The duct air velocity was approximately 2.8 m sec–1. The airborne concentration of culturable P. chrysogenum spores (CFU m–3), total P. chrysogenum spores (spores m–3), and total P. chrysogenum-sized particles (particles m–3) were measured in the room using Andersen single-stage impactor samplers, Burkard slide impactor samplers, and an aerodynamic particle sizer, respectively. The highest airborne concentrations (104 CFU m–3; 105 spores m–3; 104 particles m–3) were measured during the first operating cycle of the air handling system for all duct materials with decreasing airborne concentrations measured during the second and third cycles. There was no significant difference in spore dispersal from the three contaminated duct materials. These data demonstrate the potential exposure for building occupants to high concentrations of spores dispersed from fungal colonies on air handling system duct materials during normal operation of the system.     

Airborne fungal spores in dust present in archives: pProposal for a detection method, new for archival materials

Libraries and archives are keepers of expressions of human thought, from the most ancient documents written on papyrus, parchement, etc., to the new photographic and electronic supports. These materials of vegetal, animal or synthetic origin are subject to deterioration by physical agents (light, heat, humidity), chemical agents (atmospheric pollution),and biological agents (bacteria, microfungi and insects). Micro-organisms, agents of biodeterioration, as it is known, can be carried by airborne particles which can eventually settle in the dust. This paper shows the results of a preliminary quantitative and qualitative study made on potentially deteriogenic airborne fungal spores present in the dust deposited on shelves and documents of an archive's repository. The hygrothermometric parameters and the water content of the materials were also measured. The dust samples were collected with Swab Millipore samplers, using electrostatic attraction. This kind of sampler, originally destined for the microbiological analysis of water and, in extension, used to isolate bacteria from the book-material, was successfully also used in this case of dust sampling. Compared with the data resulting from the bibliography on dust, the use of Swabs allowed the spores present in the dust on books and shelves to be isolated. This revised version was published online in June 2006 with corrections to the Cover Date.     

An aerobiological study of pollen grains and fungal spores of Barcelona (Spain)

Summary A study of concentration of airborne pollen grains and fungal spores has been carried out in Barcelona (Spain) during 1989–90. The volumetric method of filtration, previously described for airborne pollen analysis (Suarez-Cervera and Seoane-Camba, 1983) has been used. In this case, the filters have also been cultivated in Czapecdox-agar, Sabouraud-agar and Sabouraud-agar with streptomycin for the identification of the fungal colonies. Analysis of the number of fungal spores growing on the filter shows that the maxima of colonies of spores developed in culture per m³ of air filtered, correspond to September–December. Pollen and spore concentrations start from November–December, reach a maximum in March–April and decline progressively until September–October. Therefore, in the city of Barcelona, the greatest concentration occurs in spring and the lowest in autumn.     

Cytotoxic fungal spores in the indoor atmosphere of the damp domestic environment

Eight-three fungal isolates collected and cultured from the air spora of damp public sector Scottish housing have been screened for cytotoxic properties. A bioassay procedure has been utilised for this purpose involving cytotoxic effects on human embryonic diploid fibroblast lung cells grown as monolayer cultures within the wells of microtitre plates. The MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide] biochemical assay system employed has revealed that 39 (47%) of the moulds investigated possessed spore-associated cytotoxic properties; a value which emphasises the potential health hazards of the continual inhalation of toxigenic fungal propagules by occupants of mouldy houses. Penicillia, the most prevalent fungi found in the internal atmosphere of the domestic environment, accounted for the great majority of cytotoxic strains identified.     

Selected airborne allergenic fungal spores and meteorological factors in Szczecin,Poland, 2004–2006

Airborne fungal spore concentrations in Szczecin, Poland, were studied between 2004 and 2006 with the objective of determining a seasonal variation in the concentrations of selected fungal spore types in relation to meteorological parameters. The presence of spores of five taxa, namely, Cladosporium, Ganoderma, Alternaria, Leptosphaeria and Didymella, was recorded using a volumetric method (Hirst type). Fungal spores were present in the air in large numbers during the summer, with the highest concentrations recorded mainly in June, July and August. The peak concentrations of two of the studied spore types, Ganoderma and Alternaria, occurred in August, while the concentrations of Cladosporium, Leptosphaeria and Didymella spores were the highest in July. Multiple regression analysis was performed for three fungal seasons—2004, 2005 and 2006. Spore concentration was found to be positively correlated with the minimum temperature. For some spore types, there was also a significant correlation between concentrations, relative humidity and rain.     

The relationship between airborne pollen and fungal spore concentrations and seasonal pollen allergy symptoms in Cracow in 1997–1999

The investigation of airborne pollen and fungalspore concentrations was carried out in Cracowbetween 1997–1999. For this study thevolumetric method has been employed (Burkard).At the same time the clinical diagnosis ofpollen allergy in 40 patients was obtained onthe basis of an interview, positive skin pricktests with pollen extracts and increasedspecific IgE level. An increase in seasonalallergy symptoms in all patients occurred fromthe middle of May to the middle of August.Eighty eight percent of the patients (35 out of40) were sensitive to Poaceae pollen and about50% of them were additionally sensitive totree and herb pollen excluding grasses. Forpatients with additional allergy to tree pollenthe seasonal symptoms started at the end ofMarch (Betula) while for patients withadditional allergy to herb pollen it wasextended to the middle of September (Artemisia).Five people out of 40 revealed positive skinreactions to Alternaria spores and anincrease in specific IgE level. Positive skinreaction to Cladosporium spores with noincrease in specific IgE level occurred in 2patients. The increase in seasonal allergysymptoms in people sensitive to Alternariaspores noted in July and August could becaused not only by these spores but also byPoaceae pollen.     

家养食草动物粪便中的花粉及菌孢子类型及其对人类活动的指示意义

考古遗址中动物粪化石中的微体植物遗存是重建过去生态环境以及人类活动的重要材料,然而对于能够指示人类活动的粪化石孢粉组合类型及其特征仍然缺乏清楚的认识。本文研究了山羊(Capra aegagrus)、绵羊(Ovis aries)、牛(Bos taurus)、骆驼(Camelus)、牦牛(Bos grunniens)和马(Equus caballus)等几种中国常见的家养食草类动物粪便中的主要孢粉和真菌孢子类型。通过分析这些动物粪便的花粉组合特征,探讨了花粉和菌孢子等微体植物遗存对生态环境及人类活动的指示意义。花粉种类丰度低、一些特征种属花粉(如禾本科、藜科)含量高是家养食草类动物粪便花粉组合的主要特征,可以用于指示人类的饲养行为。家养食草动物粪便中的粪生真菌孢子类型主要有Sporormiella,Sodaria,Pleospora,Coniochaeta,Thecaphora and Dictyosporium。研究表明真菌孢子的分布主要受到动物活动范围的影响,这使得利用粪生菌孢子(如Sporormiella)并结合其他记录来反映人类的饲养或游牧活动成为可能。     

Aspergillus Spp. as an important occupational risk factor among susceptible individuals

The prevalence of different species of aspergilli was studied for two consecutive years (from April 1989 to March 1991) in a mechanised bakery, a poultry farm and a large municipal hospital in Delhi, India using an Andersen six stage volumetric sampler. A rich diversity of aspergilli (26 species) were recorded in each environment. The major contributors in each environment were Aspergillus flavus, A. niger, A. versicolor, A. sydowi, A. fumigatus, A. japonicus. The concentration of aspergilli was higher inside the work place compared to the outside air, with 25% to 45% contribution to the total fungal load. The concentration of A. flavus was higher in the storage section of the bakery and in the shed of the poultry farm, while A. niger was characteristic of the packing section and the hatchery. The hospital, which was naturally ventilated with a continuous mixing of indoor and outdoor air had a significantly high concentration of A. flavus (p < 0.05) inside the ward. Some of the frequently encountered species of Aspergillus are A. janus, A. ochraceous, A. nidulans, A. variecolor, A. luchuensis and A. terreus. Other species of Aspergillus had a very low occurrence, accounting for less than 1% of the total fungal load.     

Speciation in the large-spored Metschnikowia clade and establishment of a new species, Metschnikowia borealis comb. nov

The reproductive boundaries among species in the large-spored Metschnikowia clade were studied by prototrophic recombinant selection, electrophoretic karyotyping, mitochondrial DNA restriction analysis, and DNA sequence analysis. Inviable ascospores arose from crosses between the two varieties of Metschnikowia continentalis, indicating that they should be recognized as separate species. Prototrophic recombinants were recovered from crosses between auxotrophic mutants of Metschnikowia borealis, M. continentalis, Metschnikowia lochheadii, Metschnikowia sp. UWO(PS)00-154.1, and Candida ipomoeae, showing that some genetic exchange is possible in spite of the sterility of the asci formed in interspecific crosses. Metschnikowia hawaiiensis, although capable of ascus formation when its h(-) mating type is crossed with the h(+) mating type of the other species, did not give rise to recombinants. In the other species, some recombinants acquired the ability to form asci directly from single cells. These often contained the chromosomes of both parents, suggesting formation of allodiploid hybrids. Other recombinants behaved as haploids and were similar to one parent except for having inherited the selectable wild-type allele from the other parent. In most, but not all cases, inheritance of the mitochondrial genome was uniparental and correlated with the inheritance of the nuclear chromosome complement. In some cases, what appeared to be a recombinant mitochondrial genome was observed. Phylogenies derived from the sequences of various DNA regions were not congruent, indicating that hybridization may have taken place in nature as the large-spored species diverged from their common ancestor. Further evidence that C. ipomoeae arose from a natural recombination event was obtained, but a pair of Metschnikowia species that might represent derived forms of the parents could not be identified conclusively. C. ipomoeae and most of its closely related Metschnikowia species contained a group-II intron in the mitochondrial small-subunit ribosomal gene. The intron was absent in M. borealis, M. hawaiiensis, and other species in the genus Metschnikowia.     

Aerobiological Clines: The Role of Topography As a Barrier for Establishing Dispersal Corridors

Cline is a largely known and studied concept in ecology, but is not part of the aerobiological vocabulary. Some attempts have been undertaken in the past to put in evidence aerobiological clines, but their true significance, especially in relation to dispersal, remains unknown. One of the ideal situations to visualise clines is a dispersal corridor. Looking at the geomorphological and phytogeographical localization of Montreal island, the Hudson River corridor (with its continuation through Lake George, Champlain canal & Lake and Richelieu River), seems to be a natural corridor linking the Oak–Chestnut Forest region (which present a tongue on the Hudson river up to Albany, New York, USA) to the Hemlock – White Pine – Northern Hardwoods region of the St-Lawrence lowlands (Quebec, Canada), through the Adirondacks and the Green Mountains. Pollen and spores were collected in the early summer of 2001 (June 13 to July 17) in a mountain (Five Mile Mountain, 685 m.a.s.l) situated on the west ridge of Lake George. Sampling was repeated for a total of 5 sites, through the western slope (out of the corridor) and eastern slope (Lake George side, into the corridor). In this preliminary analysis, the differences in concentration into and out of the corridor of 5 pollen types (Poaceae, Pinus, Juglans, Carya and Ambrosia) and 6 spore types (Alternaria, Cladosporium, Epicoccum, Ganoderma, Ustilago and Ascospores) in addition to Myxomycetes spores and microscopic algae were investigated. Preliminary results indicate that:(1) there are some significant differences in pollen and spores concentrations out and into the corridor (western and eastern slopes); (2) along the transect, the differences were lower between sampling sites located at the same slope than between sites at different slopes; (3) high concentrations of pollen grains of flowering species several kilometres southward were found on the eastern slope. This could confirm the role of the corridor as an aerobiological conveyor belt or cline from South to North.     

Airborne fungal spores in a sawmill environment in Palakkad District, Kerala, India

Concentration of airborne fungal spores inindoor and outdoor environments of a sawmill in Palakkad district of Kerala, India was studied with Burkard Personal Slide Sampler from January to December 1997. Total spore concentration in the indoor and outdoor showed a 3:2 ratio. Higher spore count was observed in indoor in January and in outdoor in October. Thirty three fungal spore types were identified from the indoor and twenty six from the outdoor. Aspergillus/Penicillium, Cladosporium, Nigrospora, Ganoderma, `other basidiospores' and ascospores were the dominant components of the airspora. Aspergillus/Penicillium, the most dominant spore type in the indoor contributed 51.19% and Cladosporium, the most dominant spore type in the outdoor contributed 44.75% of the total spores. The study revealed high prevalence of predominantly allergenic fungal spores in the sawmill environment.     

Airborne pollen in Padua (NE-Italy): A comparison between two pollen samplers

During recent years a gradual decrease inallergenic airborne pollen concentration hasbeen observed in the monitoring station ofPadua (Italy). Because technical checks of thesampler were not able to explain this trend,the results obtained from two twinpollen-samplers (Lanzoni VPPS 2000), placed twometres apart, were compared.An eight-week sampling was carried out duringthe year 2000 from July to September.Subsequent analysis revealed no statisticallysignificant difference between the dataobtained with the two instruments. On the otherhand, both samplers captured high levels offungal spores. We conclude that the observednegative trend in pollen count is real and notrelated to technical biases.     

Airborne fungi monitoring in Santiago, Chile

Fungal airborne spores were studied from September 1996throughout August 1997 in Santiago, Chile. Total concentrationsfluctuated between 308 and 10,334 spores/m³/day withan annual mean of 2,154 per m³, the highest dispersion beingduring April and May. Forty-five percent of total fungal content wasfound in autumn. Thirteen genera and 3 other spore types wereidentified. Cladosporium, the most abundant genera in ouratmosphere, contributed with 70.9% of the total fungi counts andreached an annual mean of 1,527 spores/m³/day, itshighest frequency being in autumn. Alternaria appeared as thesecond most frequent genera, with an annual mean of 40spores/m³/day, representing a 1.9% of theannual fungal catch. Altogether, Stemphylium, Torula, Epicoccum,Ganoderma, Helminthosporium, Chaetomiun, Pleospora and othersreached relative frequencies of 0.5% or less. It is concludedthat fungi are present in Santiago's atmosphere all year round, some ofthem with a clear seasonality.