• Title/Summary/Keyword: Nitrospira

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Nitrospira Community Composition in Nitrifying Reactors Operated with Two Different Dissolved Oxygen Levels

  • Park, Hee-Deung;Noguera, Daniel R.
    • Journal of Microbiology and Biotechnology
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    • v.18 no.8
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    • pp.1470-1474
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    • 2008
  • Nitrospira is a dominant member of nitrite-oxidizing bacteria (NOB) in nitrifying bioreactors as well as in natural habitats. In this study, Nitrospira NOB were investigated in the two nitrifying reactors operated with high and low dissolved oxygen (DO) concentrations for a period of 300 days. Phylogenetic and terminal restriction fragment length polymorphism analyses based on 168 rRNA gene sequences revealed that the Nitrospira community compositions of the two reactors during the early period related to group 1 and half of the Nitrospira community composition shifted to group 2 in the high-DO reactor after day 179, although there was no significant change in the low-DO reactor. These results suggested that DO was an important factor affecting Nitrospira community compositions in the nitrifying reactors.

A Study on the Distribution Characteristics of Nitrite Oxidizing Bacteria in Wastewater Nitrification Systems (폐수 질산화 시스템에서 아질산 산화 미생물의 분포 특성 연구)

  • Kim, Sun-Hee;Kim, Dong-Jin;Yoo, Ik-Keun;Cha, Gi-Cheol
    • Journal of Korean Society of Environmental Engineers
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    • v.28 no.10
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    • pp.1024-1030
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    • 2006
  • Genus Nitrospira and Nitrobacter species are the key nitrite-oxidizing bacteria(NOB) in nitrifying wastewater treatment plants. It has been hypothesized that genus Nitrospira are K-strategists(low $K_6$ value) that can exploit low amounts of nitrite more efficiently than Nitrobacter. In contrast, Nitrobacter species are r-strategists(high $V_{max}$) that can grow faster than Nitrospira. It has also been known that the availability of organic compounds and dissolved oxygen as well as nitrite affects the distribution of NOB. In this study, we determined the distribution and competition of NOB in wastewater nitrification systems where nitrite, organic compounds, and dissolved oxygen concentrations were compositively varied. For the purpose, several compounds of the laboratory-scale nitrificaiion bioreactor and full-scale $A_2O$ wastewater treatment plant and their distribution of NOB were analyzed and compared. The analysis showed that Nitrobacter was the dominant NOB in nitrification bioreactor where average nitrite was maintained at 5 mg-N/L with very low organic concentration in aerobic condition, whereas Nitrospira was the dominant NOB in full-scale $A_2O$ plant where nitrite was maintained very low and organic compounds were maintained relatively high in alternating aerobic-anoxic condition. The result indicates that nitrite concentration is more critical factor than organics and dissolved oxygen which determines the dominant NOB in nitrification system and it is confirmed that Nitrospira and Nitrobacter showed the characteristics of r-strategist and K-strategist, respectively.

A Study on the Distribution of Nitrite Oxidation Microorganisms in a Biofilm Reactor

  • Yoon, Joung-Yee;Kim, Sun-Hee;Kim, Dong-Jin
    • 한국생물공학회:학술대회논문집
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    • 2005.04a
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    • pp.282-286
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    • 2005
  • Biofilm airlift reactor was continuously operated to investigate the competitions between the autotrophs and heterotrophs, ammonia oxidizers and nitrite oxidizers, and Nitrobacter and Nitrospira with real wastewater at a C/N ratio of 0.86. As the reactor achieved complete nitrification microbial distribution was analyzed by FISH/CLSM technique. The results showed that heterotroph was more abundant than nitrifying bacteria. Ammonia oxidizers (17%) and Nitrobacter (7%) prevailed nitrite oxidizers (9%) and Nitrospira (2%), respectively.

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Community Analysis of Nitrite-Oxidizing Bacteria in Lab-Scale Wastewater Treatment System (폐수처리장치에서의 아질산염 산화 세균 군집 분석)

  • Jeong, Soon-Jae;Lee, Sang-Ill;Lee, Dong-Hun
    • Korean Journal of Microbiology
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    • v.44 no.1
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    • pp.29-36
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    • 2008
  • Nitrogen is one of the major pollutants that should be removed by wastewater treatment systems. Biological nitrogen removal (BNR) is a key technology in advanced wastewater treatment systems operated by bacterial populations. Nitrification is the first step of microbiological processes in BNR system. Ammonia is oxidized to nitrite by ammonia-oxidizing bacteria (AOB) and then nitrite is subsequently oxidized to nitrate by nitrite-oxidizing bacteria (NOB). The diversity of NOB in nitrification reactors of 3 BNR systems, Edited biological aerated filter system, Nutrient removal laboratory system, and the Rumination type sequencing batch reactor system, was investigated by terminal restriction fragment length polymorphism (T-RFLP) analysis of 16S rRNA genes. Cluster analysis of T-RF profiles showed that communities of Nitrobacter group in each system were different depending upon the process of systems. However, the clusters of Nitrospira group were divided by the habitat of aqueous and solid samples.

Bacterial Diversity at Different Depths in Lead-Zinc Mine Tailings as Revealed by 16S rRNA Gene Libraries

  • Zhang, Han-Bo;Shi, Wen;Yang, Ming-Xia;Sha, Tao;Zhao, Zhi-Wei
    • Journal of Microbiology
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    • v.45 no.6
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    • pp.479-484
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    • 2007
  • Bacterial communities at 10 cm, 100 cm, and 200 cm depths in a 100-year-old lead-zinc tailing heap were evaluated by constructing 16S rRNA gene libraries. In total, 98 operational taxonomic units (OTUs) were identified from 193 clones at a 3% sequence difference level. The OTU number and species richness decreased with the depth. Species composition was significantly different between the three libraries. Fifty-seven percent of the examined clones were Acidobacteria and 27% belonged to Proteobacteria. Other sequences included Chloroflexi, Firmicutes, Chlamydiae, Actinobacteria, Gemmatimonadetes, Nitrospira, and three unclassified OTUs. Alphaproteobacteria, Betaproteobacteria, Gammaproteobacteria, Firmicutes, and Actinobacteria were mainly distributed in the rhizosphere of naturally colonizing plants; however, Deltaproteobacteria, Acidobacteria, and Chloroflexi tended to inhabit the deeper tailings (below the 100 cm-depth).

Phylogenetic Analysis of Bacterial Diversity in the Marine Sponge, Asteropus simplex, Collected from Jeju Island (제주도에서 채집한 해양 해면, Asteropus simplex의 공생세균에 관한 계통학적 분석)

  • Jeong, In-Hye;Park, Jin-Sook
    • Korean Journal of Microbiology
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    • v.48 no.4
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    • pp.275-283
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    • 2012
  • Culture-dependent RFLP and culture-independent DGGE were employed to investigate the bacterial community associated with the marine sponge Asteropus simplex collected from Jeju Island. A total of 120 bacterial strains associated with the sponge were cultivated using modified Zobell and MA media. PCR amplicons of the 16S rDNA from the bacterial strains were digested with the restriction enzymes HaeIII and MspI, and then assigned into different groups according to their restriction patterns. The 16S rDNA sequences derived from RFLP patterns showed more than 94% similarities compared with known bacterial species, and the isolates belonged to five phyla, Alphaproteobacteria, Gammaproteobacteria Actinobacteria, Bacteroidetes, and Firmicutes, of which Gammaproteobacteria was dominant. DGGE fingerprinting of 16S rDNAs amplified from the sponge-derived total gDNA showed 12 DGGE bands, and their sequences showed more than 90% similarities compared with available sequences. The sequences derived from DGGE bands revealed high similarity with the uncultured bacterial clones. DGGE revealed that bacterial community consisted of seven phyla, including Alphaproteobacteria, Betaproteobacteria, Gammaproteobacteria, Deltaproteobacteria, Actinobacteira, Chloroflexi, and Nitrospira. Alphaproteobacteria, Gammaproteobacteria, and Actinobacteria were commonly found in bacteria associated with A. simplex by both RFLP and DGGE methods, however, overall bacterial community in the sponge differed depending on the analysis methods. Sponge showed more various bacterial community structures in culture-independent method than in culture-dependent method.

Microbial Communities of the Microbial Fuel Cell Using Swine Wastewater in the Enrichment Step with the Lapse of Time (가축분뇨를 이용한 미생물연료전지의 농화배양 단계에서 미생물 군집 변화)

  • Jang, Jae Kyung;Hong, Sun Hwa;Ryou, Youg Sun;Lee, Eun Young;Chang, In Seop;Kang, Young Koo;Kim, Jong Goo
    • Journal of Korean Society of Environmental Engineers
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    • v.35 no.12
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    • pp.973-977
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    • 2013
  • These studies were attempted to investigate the change of microbial community of anode of microbial fuel cell using swine wastewater in the enrichment step with the lapse of time. Microbial fuel cells enriched by a 1 : 1 mixture of anaerobic digestive juices of the sewage treatment plant and livestock wastewater. Enrichment culture step was divided into three stages to indentify the microorganisms. It was separated by each lag phase, exponential phase, and stationary phase. These steps were determined by the change of the current value. The current after enrichment was generated about $0.84{\pm}0.06mA$. We were cut out the different 17 bands in the DGGE fingerprint gel to do sequencing. The bands which the concentration was increasing or newly appearing with the lapse of time were included for this study. In the lag and exponential phase, Clostridium, Rhodocyclaceae, Bacteriodetes, and Uncultured bacterium etc. were detected. There were in the stationary phase Geobacter sp., Rhodocyclaceae, Candidatus, Nitrospira, Flavobactriaceae and uncultured bacterium etc. Geobactor among microorganisms detected in this study is known as the Electrochemically active microorganisms. It may include electrochemically active microorganisms to be considered as electrical activity microorganisms.

Characteristics of Microbial Distribution of Nitrifiers and Nitrogen Removal in Membrane Bioreactor by Fluorescence in situ Hybridization (막/생물반응기에서 Fluorescence in situ Hybridization 기법을 이용한 질산화 미생물 분포특성 및 질소제거 연구)

  • Lim Kyoung-Jo;Kim Sun-Hee;Kim Dong-Jin;Cha Gi-Cheol;Yoo Ik-Keun
    • Microbiology and Biotechnology Letters
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    • v.34 no.3
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    • pp.257-264
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    • 2006
  • An aerobic submerged membrane bioreactor (MBR) treating ammonium wastewater was studied in respect of nitrification characteristics and distribution of nitrification bacteria over a period of 350 days. MBR was fed with ammonium concentration of 500-1000 mg $NH_4-N/L$ at a nitrogen load of $1-2kg\;N/m^3{\cdot}d$. Overall ammonium oxidation rate increased with dissolved oxygen (DO) concentration, temperature, and sludge retention time (SRT). Under a higher concentration of free ammonia ($NH_3-N$) due to the decrease of ammonium oxidation rate, the nitrite ratio ($NO_2-N/NO_x-N$) in the effluent increased. The sudden collapse of nitrification efficiency accompanied by sludge foaming and the increase of sludge volume index (SVI) was observed unexpectedly during the operation. At the later stage of operation, additional carbon source was fed to the MBR and resulted in twice higher value of SVI and the decrease of ammonium oxidation rate. In fluorescence in situ hybridization (FISH) analysis, genus Nitrosomonas which is specifically hybridized with probe NSM156 was initially the dominant ammonia oxidizing bacteria and the amount of Nitrosospira gradually increased. Nitrospira was the dominant nitrite oxidizing bacteria during whole operational period. Significant amount of Nitrobacter was also detected which might due to the high concentration of nitrite maintained in the reactor.

Wastewater Treatment and Microbial Structure Analysis by Fluorescence In Situ Hydridizationin a Biofilm Reactor (생물막 반응키에서의 폐수 처리 및 Fluorescence In Situ Hybridization에 의한 복합 미생물계 구조 해석)

  • Kim, Dong-Jin;Han, Dong-Woo;Lee, Soo-Choul;Park, Byeong-Gon;Kwon, Il;Sung, Chang-Keun;Park, Wan-Cheol
    • KSBB Journal
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    • v.17 no.1
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    • pp.80-87
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    • 2002
  • Laboratory scale aerobicfanaerobic biofilm reactor was used for simultaneous and stable removal of organics, N and P components to investigate optimum design and operation parameters and to analyze the microbial distribution and consortium structure of nitrification and denitrification bacteria in aerobic and anaerobic biofilm systems. The biofilm reactor was successfully operated for 143 days to show $COD_{cr},\;BOD_5$, SS removal efficiencies of 88, 88, and 97%, respectively. During the experiment period, almost complete nitrification efficiency of 96% was achieved. Denitrification efficiency was about 45% without addition of any external carbon sources. In case of total phosphorus removal, 74% of the inlet phosphorus was removed. Fluorescence in situ hybridization (FISH) results showed that most of the ammonia oxidizing bacteria in the aerobic nitrification zone was found to be Nitrosomonas species while Nitrospira was the representative nitrite oxidizing bacteria. For the denitrification, Rhodobacter, Rhodovulum, Roseebacter and Paracouus were the dominant denitrification bacteria which was 10 to 20% of the total bacteria in numbers.

Soil Microbial Community Analysis in Large Patch (Rhizoctonia solani AG2-2 IV) (갈색퍼짐병 발병토양의 미생물 군집 분석)

  • Lee, Jung Han;Min, Gyu Young;Shim, Gyu Yul;Jeon, Chang Wook;Choi, Su min;Han, Jeong Ji;Kwak, Youn-Sig
    • Weed & Turfgrass Science
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    • v.4 no.2
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    • pp.124-128
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    • 2015
  • Large patch, caused by Rhizoctonia solani AG2-2 IV, is a soil-born disease that is the most important of warm season turfgrass such as zoysia and Bermuda grass. This study was conducted to analysis of the soil microbial community structure on large patch. Center of the large patch (CLC), edge (CLE) and healthy (CLH) part of microbial communities were examined using metagenomics in Phylum level. Distribution trends of the rhizosphere microorganisms were similar to the order Proteobacteria, Acidobacteria, Chloroflexi, Firmicutes, Planctomycetes, Gemmatimonadetes, Nitrospira, Cyanobactria and Verrucomicrobia in soil collections. Contrastively Actinobacteria was more 56% abundant in healthy part soil (16%) than in the center (9.28%) or edge (10.84%) parts. Taxonomic distributions were compared among the CLC, CLE and CLH, total 6,948 OTUs were detected in the CLC, 6,505 OTUs for the CLE and 5,537 OTUs were detected in the CLE. Distributions of Actinobacteria OTUs were appeared 615 OTUs in the CLC, 709 OTUs in the CLE and 891 OTUs in the CLH. Among Actinobacteria, 382 OTUs were overlapped in the all soils. Not matched OTUs of CLH (286 OTUs) was detected 23 times higher than CLC (91 OTUs) and CLE (126 OTUs).