Fungal diversity in activated sludge from membrane bioreactors in Berlin

The objective of this study was to evaluate the occurrence of fungi in aerobic and anoxic activated sludge from membrane bioreactors. Thirty-six samples from each aerobic and anoxic activated sludge were taken from two membrane bioreactors treating domestic wastewater. Over a period of 9?months, four samples from each plant were taken per month. The samples were prepared for count and identification of fungi. Sixty species belonging to 30 genera were collected from activated sludge samples under aerobic and anoxic conditions. In terms of fungal identification, under aerobic conditions Geotrichum candidum was found at 94.4% followed by Penicillium species at 80.6%, yeasts at 75.0%, and Trichoderma species at 50.0%; under anoxic conditions G. candidum at 86.1%, yeasts at 66.6%, and Penicillium species at 61.1% were the most prevalent. The results indicate that activated sludge is a habitat for growth and sporulation of different groups of fungi, both saprophytic and pathogenic.     

Glycosphingolipids as a possible signature of microbial communities in activated sludge and the potential contribution of fungi to wastewater treatment under cold conditions

Seven strains of fungi were isolated from activated sludge and identified as Mucor sp., Geotrichum sp., Trichosporon sp., Candida sp., and Trichoderma sp. by 28S rDNA D2 region sequences analysis. The structures of the main ceramide monosaccharides (CMSs) from these fungi were identified as glucosylceramide (GlcCer) consisting of ceramide moieties of 9-methyl-octadeca-sphingadienine (9-Me d18:2), with 2-hydroxyhexadecanoate (h16:0) (Mucor sp. and Geotrichum sp.), 2-hydroxyoctadecanoate (h18:0) (Trichosporon sp. and Candida sp.), and 2-hydroxyoctadecenoate (h18:1) (Trichoderma sp.). Seasonal changes in glycosphingolipids in activated sludge suggest the possibility that microbial flora in activated sludge changes with the seasons, and that fungi adaptable to low temperatures dominate in the cold period, resulting in the maintenance of stable effluent quality. Mucor sp., Geotrichum sp., and Candida sp. satisfactorily reduced the BOD of synthetic sewage at 10 degrees C. These results indicate that fungi in activated sludge can contribute to wastewater treatment in cold conditions.     

Sanitary analysis of crude and composted activated sludge.

This paper presents a sanitary analysis of crude and composted activated sewage sludge from the sewage treatment plants in Slawa near Zielona G6ra in the period from September to December 1999. The composts were made from crude active sludge collected on 16.08.1999 with the addition of sawdust in a proportion of 15% with respect to dry sludge matter, and left in film bags with a capacity of 10 litres. Composting was carried out at a temperature of 20 degrees C for 8 weeks. Sanitary analysis of the activated sludge showed that the total quantity of bacteria, fungi, pathogenic bacteria and parasite ova was higher in the summer period compared to the spring period. The quantity of pathogenic bacteria and parasite eggs exceeded the permitted level in activated sludge designated for agricultural use. Analysis of the suitability of composts made from crude activated sludge showed that the quantity of pathogenic bacteria and parasite ova had been reduced, but was still higher than the permitted value for sewage sludge designated for agricultural use.     

Microbial Ecology of Activated Sludge: I. Dominant Bacteria

Over 300 bacterial strains were isolated from seven samples of activated sludge by plating on sewage agar. Gram-negative bacteria of the genera Zoogloea and Comamonas predominated. Many isolates (51%) showed sudanophilic inclusions of poly-β-hydroxybutyric acid, whereas 34% accumulated iodophilic material on media containing starch. A large number required either vitamins or amino acids, or both, for growth. None of the isolates tested for their ability to bring about changes in autoclaved sewage produced an effluent comparable in quality to the activated sludge control, although the Zoogloea did produce activated sludgelike flocs. A study of 150 bacterial strains isolated from raw sewage revealed that they differed from the sludge isolates in several respects. Coliforms, which constitute nearly a quarter of the sewage isolates, were rarely encountered in sludge.     

The mycobiota of landfill leachates in the pretreatment process in a sequencing batch reactor

The paper discusses the dynamics of the accumulation of microscopic fungi, depending on the sludge load (Bx), in activated sludge used for landfill leachate pretreatment. The propagule washout from the sludge into pretreated leachates is determined, including genera and species that may threaten environmental health. An increased accumulation of microscopic fungi in sludge flocs occurred at Bx=0.23−0.45 mg chemical oxygen demand (COD) mg⁻¹ d⁻¹. Microscopic fungi were eluted at the maximal Bx value tested of 1.64 mg COD mg⁻¹ d⁻¹. Both the activated sludge and the leachate runoff from the sequencing batch reactor (SBR) pose health risks to the environment due to the occurrence of fungi such as Aspergillus fumigatus, Purpureocillium lilacinum, Cyberlindnera jadinii (C. utilis), Geotrichum candidum and G. fragrans. Their count is sufficient to cause multi-organ infections in homeothermal animals and in humans.     

Analysis of the structure of bacteria communities and detection of resistance genes of quinolones from pharmaceutical wastewater

The aim of the present study was to investigate the distribution of bacteria and detect the presence of quinolone resistance gene (qnrA) and integrons (intI1, intI2) in a habitat polluted by pharmaceutical sewage. The bacteria were isolated by nutrient agar and nutrient broth from waste water and sludge collected from the sewage outfall of a pharmaceutical factory. The bacteria were identified by Gram staining and biochemical tests, and the bacterial community diversity was analyzed by Shannon–Wiener diversity index (H), Pielou evenness index (J) and Simpson’s diversity index (D). The occurrence of qnrA and integrons (intI1, intI2) were detected by Real-time PCR assays. The results showed that 90 strains were isolated from water samples and sludge samples including 22 genera and 26 species. Types of bacteria in water samples contained 18 genera and 20 species, while 13 genera and 14 species were detected in sludge samples. Fifty-five Enterobacteriaceae isolates (61.11 %, 55 of 90) were the predominant bacteria in water and sludge samples. Bacterial species richness and evenness in water samples were higher than in sludge samples. The resistance genes of qnrA and integrons (intI1, intI2) with the total DNA and single isolate plasmid DNA were detected. There were a variety of bacterial species and the presence of qnrA and integrons (intI1, intI2) genes in pharmaceutical wastewater habitats, in which Enterobacteriaceae strains were the dominant bacteria. These results suggested that pharmaceutical wastewater had potential risks to public health.     

Monitoring species of arbuscular mycorrhizal fungi in planta and in soil by nested PCR: application to the study of the impact of sewage sludge

Nested PCR is a highly sensitive procedure for monitoring species of arbuscular mycorrhizal (AM) fungi and for determining their abundance in planta and in soil. DNA sequence variability in the D1 and D2 domains of the large ribosomal subunit is sufficient to design primers which discriminate between AM fungi at the species level. The usefulness of this molecular approach is illustrated in the present study on the differential impact of sewage sludges on a community of three AM fungi (Glomus mosseae, Glomus intraradices, Gigaspora rosea). Nested PCR was applied to trypan blue-stained mycorrhizal root fragments and soil mycelium from pot cultures of Medicago truncatula inoculated with the three fungi separately or together, and grown in sand containing sewage sludge that had been enriched or not with metallic or organic pollutants. G. intraradices and Gig. rosea varied in behaviour depending on whether they were inoculated alone or as a mixed community. G. mosseae showed a similar sensitivity towards each sewage sludge whether in community or alone, making it a potential candidate for ecotoxicological tests using M. truncatula to evaluate the quality or potential toxicity of sewage sludges which are widely used as fertilizers in agricultural lands. This revised version was published online in June 2006 with corrections to the Cover Date.     

Horizontal transfer of antibiotic resistance genes in a membrane bioreactor

Growing attention has been paid to the dissemination of antibiotic resistance genes (ARGs) in wastewater microbial communities. The application of membrane bioreactors (MBRs) in wastewater treatment is becoming increasingly widespread. We hypothesized that the transfer of ARGs among bacteria could occur in MBRs, which combine a high density of bacterial cells, biofilms, and antibiotic resistance bacteria or ARGs. In this study, the transfer discipline and dissemination of the RP4 plasmid in MBRs were investigated by the counting plate method, the MIDI microorganism identification system, and quantitative polymerase chain reaction (qPCR) techniques. The results showed that the average transfer frequency of the RP4 plasmid from the donor strain to cultivable bacteria in activated sludge was 2.76 × 10⁻⁵ per recipient, which was greater than the transfer frequency in wastewater and bacterial sludge reported previously. In addition, many bacterial species in the activated sludge had received RP4 by horizontal transfer, while the genera of Shewanella spp., Photobacterium spp., Pseudomonas spp., Proteus spp., and Vibrio spp. were more likely to acquire this plasmid. Interestingly, the abundance of the RP4 plasmid in total DNA remained at high levels and relatively stable at 10⁴ copies/mg of biosolids, suggesting that ARGs were transferred from donor strains to activated sludge bacteria in our study. Thus, the presence of ARGs in sewage sludge poses a potential health threat.     

The Microbiota and Abundance of the Class 1 Integron-Integrase Gene in Tropical Sewage Treatment Plant Influent and Activated Sludge

Bacteria are assumed to efficiently remove organic pollutants from sewage in sewage treatment plants, where antibiotic-resistance genes can move between species via mobile genetic elements known as integrons. Nevertheless, few studies have addressed bacterial diversity and class 1 integron abundance in tropical sewage. Here, we describe the extant microbiota, using V6 tag sequencing, and quantify the class 1 integron-integrase gene (intI1) in raw sewage (RS) and activated sludge (AS). The analysis of 1,174,486 quality-filtered reads obtained from RS and AS samples revealed complex and distinct bacterial diversity in these samples. The RS sample, with 3,074 operational taxonomic units, exhibited the highest alpha-diversity indices. Among the 25 phyla, Proteobacteria, Bacteroidetes and Firmicutes represented 85% (AS) and 92% (RS) of all reads. Increased relative abundance of Micrococcales, Myxococcales, and Sphingobacteriales and reduced pathogen abundance were noted in AS. At the genus level, differences were observed for the dominant genera Simplicispira and Diaphorobacter (AS) as well as for Enhydrobacter (RS). The activated sludge process decreased (55%) the amount of bacteria harboring the intI1 gene in the RS sample. Altogether, our results emphasize the importance of biological treatment for diminishing pathogenic bacteria and those bearing the intI1 gene that arrive at a sewage treatment plant.     

海口市污水处理厂活性污泥中细菌的分离鉴定及耐药性分析

为了解海口市白沙门污水处理厂活性污泥中细菌抗生素耐性情况,采用平板分离技术分离、纯化细菌,并通过BIOLOG微生物鉴定系统对筛选到的细菌进行鉴定,同时采用Kirby-Bauer纸片琼脂扩散法进行药敏试验并进行抗生素耐性分析。本研究共分离到18株细菌,分属8个属,14个种,其中G+和G-均为9株。抗生素药敏性试验结果表明,所有菌株均耐药,菌株单重耐药率、双重耐药性及多重耐药性分别为50%、38.9%、和11.1%。菌株对9种常用抗生素:头孢他啶、环丙沙星、庆大霉素、链霉素、氨苄西林、红霉素、氯霉素、四环素、卡那霉素的耐药率分别为61.1%、0%、5.6%、16.7%、50%、16.7%、11.1%、0%、5.6%。综上所述,白沙门污水处理厂活性污泥中的细菌耐药性比较严重,存在潜在的环境生态和人畜健康风险。本研究揭示了当前白沙门污水处理厂活性污泥中细菌对常见抗生素耐药的严重现状,为建议污水处理厂加强出水及污泥中抗生素耐药性及耐药基因的检测并评估其生态影响提供基础,避免出水及污泥中的抗性菌和耐药基因可能带来的风险问题。     

Effect of hexavalent chromium on the activated sludge process and on the sludge protozoan community

The objectives of this study were the determination of chromium effects to the performance of an activated sludge unit and the investigation of the response of the activated sludge protozoan community to Cr(VI). Two bench scale activated sludge reactors were supplied with synthetic sewage containing Cr(VI), at concentrations from 1 up to 50 mg L(-1). Protozoan species were identified and were related to the system efficiency. Variations in the abundance and diversity of the protozoan species were observed under various chromium concentrations. High removal rates of organics and nutrients were observed after the acclimatization of the activated sludge, which were related to the initial chromium(VI) concentration. Chromium(VI) removal efficiency was high in all cases. The protistan community was affected by the influent chromium content. Dominance of sessile species was observed in the reactor receiving 5 mg L(-1) influent chromium, whereas co-dominance of sessile and carnivorous species was observed in the reactors receiving higher chromium concentrations.     

Phototrophic purple and green bacteria in a sewage treatment plant.

In all purification stages of a biological sewage treatment plant, phototrophic bacteria were detected by the method of viable cell counts. The predominant species identified belonged to the genus Rhodopseudomonas of purple nonsulfur bacteria. The number of phototrophic bacteria was highest in wastewater containing sludge. In activated sludge, an average of 10(5) viable cells/ml was found; the number depended upon concentration of sludge rather than on seasonal changes in light conditions in the course of a year. Bacteriochlorophyll a was extracted from activated sludge. Relative to the viable counts of phototrophic bacteria, the content of bacteriochlorophyll a was 5- to 10-fold higher than that of three representative pure cultures. By incubation of activated and digester sludge under different environmental conditions, it was shown that phototrophic bacteria can complete with other bacteria only under anaerobic conditions in the light.     

Phototrophic purple and green bacteria in a sewage treatment plant

In all purification stages of a biological sewage treatment plant, phototrophic bacteria were detected by the method of viable cell counts. The predominant species identified belonged to the genus Rhodopseudomonas of purple nonsulfur bacteria. The number of phototrophic bacteria was highest in wastewater containing sludge. In activated sludge, an average of 10(5) viable cells/ml was found; the number depended upon concentration of sludge rather than on seasonal changes in light conditions in the course of a year. Bacteriochlorophyll a was extracted from activated sludge. Relative to the viable counts of phototrophic bacteria, the content of bacteriochlorophyll a was 5- to 10-fold higher than that of three representative pure cultures. By incubation of activated and digester sludge under different environmental conditions, it was shown that phototrophic bacteria can complete with other bacteria only under anaerobic conditions in the light.     

Tracking human sewage microbiome in a municipal wastewater treatment plant

Human sewage pollution is a major threat to public health because sewage always comes with pathogens. Human sewage is usually received and treated by wastewater treatment plants (WWTPs) to control pathogenic risks and ameliorate environmental health. However, untreated sewage that flows into water environments may cause serious waterborne diseases, as reported in India and Bangladesh. To examine the fate of the human sewage microbiome in a local municipal WWTP of Hong Kong, we used massively parallel sequencing of 16S rRNA gene to systematically profile microbial communities in samples from three sections (i.e., influent, activated sludge, and effluent) obtained monthly throughout 1 year. The results indicated that: (1) influent sewage bacterial profile reflected the human microbiome; (2) human gut bacterial community was the dominant force shaping influent sewage bacterial profile; (3) most human sewage bacteria could be effectively removed by the WWTP; (4) a total of 75 genera were profiled as potentially pathogenic bacteria, most of which were still present in the effluent although at a very low level; (5) a grouped pattern of bacterial community was observed among the same section samples but a dispersed pattern was found among the different section samples; and (6) activated sludge was less affected by the influent sewage bacteria, but it showed a significant impact on the effluent bacteria. All of these findings provide novel insights toward a mechanistic understanding of the fate of human sewage microbiome in the WWTP.     

京津冀区域市政污水厂活性污泥种群结构的多样性及差异

【背景】活性污泥中微生物的种群结构影响着污水生物处理的高效性及稳定性,是有效保证污水处理效果的关键。【目的】研究活性污泥中细菌的群落结构组成及多样性,并分析相应菌群的主要功能,旨在更好地发挥细菌的净化作用、保持污水处理过程的稳定及提高污水的处理效率。【方法】以京津冀区域内典型市政污水厂活性污泥为研究对象,通过IlluminaMiSeq高通量测序及实时定量PCR技术,对5个污水厂活性污泥的微生物种群结构特征进行了详细解析,研究不同工艺参数下活性污泥中优势种群及脱氮菌群丰度的差异。【结果】5个污水厂活性污泥种群结构具有一定差异,其中Hengshui (HS)厂污泥的群落结构受温度的影响最大,而Shahe (SH)、Daoxianghu (DXH)、Nangong(NG)厂活性污泥群落结构则受总氮、总磷与氨氮的共同影响,氨氮对SH厂活性污泥种群结构影响最大。DXH、NG和HS厂污泥中优势菌均为Anaerolineaceae,而SH和Hejian (HJ)厂的优势菌则为Saprospiraceae与Lactobacillus。活性污泥中反硝化菌丰度最高的为HJ厂,丰度最低的为HS厂,反硝化功能基因nirS比nirK分布更为广泛。【结论】对于不同污水厂,影响其活性污泥群落结构组成的环境因素也是不同的,并且特殊的进水水质也会对污泥菌群组成和生物多样性产生影响。     

中国食线虫真菌的种类

对我国24个省市,涉及40余种植物的300多个土样的调查,分离出食线虫真菌近千个分离物,共鉴定出食线虫真菌29属57种,包括捕食线虫真菌4属25种,其中Arthrobotrys arthrobotryoides, A. brochopaga, A. cladodes var. macroides, A. microspora,A. musiformis, A. straminicola, Monacrosporium ellipsosporinm, M. thaumasium, M. pravicollis,Stylopage grandis, Dactylella ramiformis, Monacrosporium qiuanum, Monacrosporium sinense等10种为国内新记录。内寄生真菌4属4个种、其中Catenaria angullulae, Harposporiumarcuatum, Nematoctonus leiosporus为国内新记录。定殖于大豆孢囊线虫真菌22属25种,其中Catenaria auxiliaris, Cylindrocarpon heteronema, C. willkommii, Fusariella bizzozeriana,Nematophthora sp., Phoma eupyrena, Phoma leveilei,Pithomyces sp,Trichocladium opacum.Verticillium chlamydosporium等10属种为国内新记录,其中Nematophthora, Fusariella,Trichocladium三属为国内新记录属,Rhizoctonia sp., Stachybotrys elegans, F.bizzozeriana,C.heteronema, C.willkommii等为首次发现定殖于大豆孢囊线虫孢囊上。对所鉴定的真菌进行了描述和讨论并制作了检索表。     

25S rDNA-based molecular monitoring of glomalean fungi in sewage sludge-treated field plots

Recycling of sewage wastes in agriculture is likely to affect the biological activity of soils through contamination of ecosystems by pathogens and metallic or organic micropollutants. The impact of sewage sludge spreading under field conditions on arbuscular mycorrhiza (AM) formation by a community of glomalean fungi was evaluated using a nested polymerase chain reaction (PCR) and discriminating primers based on 25S rDNA polymorphisms to detect different fungal species within root systems. Medicago truncatula was grown in soil of field plots amended or not with a composted sewage sludge, spiked or not with organic or metallic micropollutants. Overall AM development in roots decreased with sewage sludge application, and the relative abundance of five AM fungal morphotypes in root fragments was modified by the input of composted sludges. Sewage sludge spiked or not with organic pollutants had a generally positive effect on the relative diversity of AM fungal populations in planta , whereas after spreading of the sludge spiked with metallic pollutants, no variation was observed in the abundance of different species.     

Microbial Ecology of Activated Sludge: II. Bacteriophages, Bdellovibrio, Coliforms, and Other Organisms

A comparative estimation of the coliform population of raw sewage, activated sludge, and the effluent derived therefrom revealed that raw sewage had a preponderance of Escherichia coli (75%), as compared with 25 and 30%, respectively, in sludge and effluent. Nitrogen-free mannitol-sucrose enrichments of activated sludge resulted in the isolation of Azotobacter agilis, Aerobacter aerogenes, Corynebacterium laevaniformans, and an Achromabacter species. Sludge had a large population of C. laevaniformans and A. aerogenes but not of Azotobacter. The bacterial parasites, Bdellovibrio and bacteriophages, were not active during activated-sludge treatment. A 10-fold reduction in phage content occurred after 2 hr of aeration, but the Bdellovibrio population was unaffected.     

Biological Degradation of Crude Oil Refinery Sludge with Commercial Surfactant and Sewage Sludge by Co-Composting

This study determined the potential of surfactant and sewage sludge in enhancing degradation of oil sludge. A mixture of oil sludge, surfactant, and sewage sludge was co-composted for 24 weeks in the laboratory. Physical and chemical parameters in the compost were measured every four weeks. Isolated microorganisms were characterized by molecular techniques. The pH in all experiments remained between 8 and 6.4. CO₂ evolution reached 5503 µg/dwt/day by the twenty-fourth week. The dominant bacterial species were Acinectobacter, Rodococcus, mycobacterium, Pseudomonas, Bacillus, Arthrobacter, and Staphylococcus species and fungi were Pleurotus, Penicillium, and Aspergillus sp. TPH was reduced by 92% in the sewage sludge and surfactant treatment, 75 and 81% in other treatments, and 44.2% in the control. PAH concentrations were reduced by between 75 and 100%. The results indicate that a careful application of surfactant and sewage sludge could enhance oil sludge degradation in a compost system.     

Fungal degradation of anaerobically digested sewage sludge

Fifty isolates of fungi were screened for their ability to grow on and degrade sludge. Cunninghamella elegans was selected for further study of degradation as affected by moisture, nutrients, time and temperature. Maximal sludge degradation (total dry weight basis) was 5.8% by Rhizopus oligosporus, 5.4% by C. elegans and 5.3% by Myrothecium verrucaria, representing approximately 11% degradation of the organic matter present. Added nutrients had little or no effect on sludge degradation. Maximal sludge degradation by C. elegans occurred in three weeks at 30–35 C or four weeks at 25 and 40 C.Sewage sludge is a stable humic material that breaks down slowly with time when mixed with soil. The disposal of sewage sludge is one of the problems of environmental pollution throughout the world. Approximately 455,000 cubic meters of sewage sludge are produced daily in the United States (7). The development of supplementary methods of sewage treatment to be used in tandem with anaerobic digestors are of current interest. Benefits of such a tandem system utilizing fungi would be the acceleration of recycling of waste, supplemental detoxification of sludge, and perhaps even recovery of utilizable protein. The use of fungi to accelerate sludge degradation with the possible side benefits of production of protein or other recoverable metabolites has not been investigated. This paper reports the screening of fifty fungi for their ability to grow on and degrade anaerobically digested sewage sludge and the determination of the level of protein produced by C. elegans on this medium.Portions of this investigation were submitted to Auburn University by W.M.H. in partial fulfillment of the requirements of the M.S. degree.Research and Technology of the U.S. Department of the Interior through the Water Resources Research Institute of Auburn University Project A-030-Ala.