汤岳琴
环境微生物生态,微生物基因工程育种,废水/废物的生物处理及有效利用,生物质能的生物转化
个性化签名
- 姓名:汤岳琴
- 目前身份:
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- 学位:
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学术头衔:
博士生导师
- 职称:-
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学科领域:
生物化学
- 研究兴趣:环境微生物生态,微生物基因工程育种,废水/废物的生物处理及有效利用,生物质能的生物转化
汤岳琴
研究方向:
环境微生物生态,微生物基因工程育种,废水/废物的生物处理及有效利用,生物质能的生物转化。
所受教育经历:
2002, 4 - 2005,3 日本熊本大学大学院自然科学研究系 博士
1992, 9 - 1995,7 四川大学化工学院 生物化学工程 硕士
1988, 9–1992,8 成都科技大学化工学院 生物化学工程 学士
工作经历
2008.4 - 至今 北京大学工学院 特聘研究员
2006.7 - 2008.3 日本熊本大学工学部物质生命科学系 Assistant Professor
2005.4-2006.6 日本熊本大学工学部物质生命科学系 研究员
1998.8-2002.3 四川大学化工学院 讲师
1995.8-1998.7 四川大学化工学院 助教
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主页访问
1286
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关注数
0
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成果阅读
466
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成果数
7
汤岳琴, Yue-Qin Tang, § Toru Matsui, Shigeru Morimura, Xiao-Lei Wu, and Kenji Kida *
JOURNAL OF BIOSCI ENCE AND BIOENGINEERING Vol. 106, No.2, 180-187. 2008 ,-0001,():
-1年11月30日
We continuously fed an anaerobic chemostat with synthetic wastewater containing glucose as the sole source of carbon and energy to study the effects of temperature on the microbial community under hyperthermophilic (65-80°C) conditions. Methane was produced normally up to 77.5°C at a dilution rate of 0.025 d -1. However, the concentration of microorganisms and the rate of gas production decreased with increasing operation temperature. The microbial community in the chemostat at various temperatures was analyzed based on the 16S rRNA gene using molecular biological techniques including clone library analysis and denaturing gradient gel electrophoresis (DGGE). Aceticlastic methanogens related to Methanosarcina thermophila were detected at 65°C and hydrogenotrophilic methanogens related to Methanothermobacter thermautotrophicus were the dominant methanogens between 70°C to 77.5°C. Bacteria related to Clostridium stercorarium and Thermoanaerobacter subterraneus comprised the dominant glucose-fermenting bacteria at temperatures of 65°C and above, respectively. Bacteria related to Thermacetogenium phaeum and to Tepidiphilus margaritifer and Petrobacter succinatimandens were the dominant acetate-oxidizing bacteria at 70°C and at 75-77.5°C, respectively. The results suggested that, at temperatures of 70°C and above, methane production via the aceticlastic pathway was negligible and indirect methanogenesis from acetate was dominant. Since acetate oxidation is a rate limiting step and a higher temperature favors the hydrolysis and acid formation, a two stage fermentation process, acidogenic and methanogenic fermentation stages operated under different temperatures, should be more suitable for the thermophilic anaerobic treatment at temperatures above 65°C.
hyperthermophilic,, methane fermentation,, microbial community,, glucose
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汤岳琴, Yue-Qin Tanga, Yoji Koikeb, Kai Liua, Ming-Zhe Ana, Shigeru Morimuraa, *, Xiao-Lei Wuc, Kenji Kidaa
BIOMASS AND BIOENERGY 32(2008)1037-1045,-0001,():
-1年11月30日
A process for producing ethanol from kitchen waste was developed in this study. The process consists of freshness preservation of the waste, saccharification of the sugars in the waste, continuous ethanol fermentation of the saccharified liquid, and anaerobic treatment of the saccharification residue and the stillage. Spraying lactic acid bacteria (LCB) on the kitchen waste kept the waste fresh for over 1 week. High glucose recovery (85.5%) from LCB-sprayed waste was achieved after saccharification using Nagase N-40 glucoamylase. The resulting saccharified liquid was used directly for ethanol fermentation, without the addition of any nutrients. High ethanol productivity (24.0gl-1•h-1) was obtained when the flocculating yeast strain KF-7 was used in a continuous ethanol fermentation process at a dilution rate of 0.8h 1. The saccharification residue was mixed with stillage and treated in a thermophilic anaerobic continuous stirred tank reactor (CSTR); a VTS loading rate of 6 g l-1•d-1 with 72% VTS digestion efficiency was achieved. Using this process, 30.9g ethanol, and 65.2 l biogas with 50% methane, was produced from 1 kg of kitchen waste containing 118.0 g total sugar. Thus, energy in kitchen waste can be converted to ethanol and methane, which can then be used as fuels, while simultaneously treating kitchen waste.
Kitchen waste Ethanol fermentation Methane fermentation Saccharomyces cerevisiae Flocculating yeast
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汤岳琴, Yue-Qin Tang, Yutaka Fujimura, Toru Shigematsu, § Shigeru Morimura, and Kenji Kida*
JOURNAL OF BIOSCIENCE AND BIOENGINEERING Vol. 104, No.4, 281-287. 2007,-0001,():
-1年11月30日
Distillery wastewater from awamori making was anaerobically treated for one year using thermophilic upflow anaerobic filter (UAF) reactors packed with pyridinium group-containing nonwoven fabric material. The microbial structure and spatial distribution of microorganisms on the support material were characterized using molecular biological methods. The reactor steadily achieved a high TOC loading rate of 18 g/l/d with approximately 80% TOC removal efficiency when nondiluted wastewater was fed. The maximum TOC loading rate increased to 36 g/l/d when treating thrice-diluted wastewater. However, the TOC removal efficiency and gas evolution rate decreased compared with that when non-diluted wastewater was used. Methanogens closely related to Methanosarcina thermophila and Methanoculleus bourgensis and bacteria in the phyla Firmicutes and Bacteroidetes were predominant methanogens and bacteria in the thermophilic UFA reactor, as indicated by 16S rRNA gene clone analysis. Fluorescence in situ hybridization (FISH) results showed that a large quantity of bacterial cells adhered throughout the whole support, and Methanosarcina-like methanogens existed mainly in the relative outside region while Methanoculleus cells were located in the relative inner part of the support. The support material used proved to be an excellent carrier for microorganisms, and a UAF reactor using this kind of support can be used for high-rate treatment of awamori/shochu distillery wastewater.
distillery wastewater,, thermophilic wastewater treatment,, upflow anaerobic filter (, UAF), reactor,, phylogenetic analysis,, fluorescence in situ hybridization
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汤岳琴, Yue-Qin Tang & Toru Shigematsu & Shigeru Morimura & Kenji Kida
Appl Microbiol Biotechnol (2007)75: 451-465,-0001,():
-1年11月30日
We constructed two mesophilic anaerobic chemostats that were continuously fed with synthetic wastewater containing butyrate as the sole source of carbon and energy. Steady-state conditions were achieved at dilution rates between 0.025 and 0.7 day-1. Butyrate, fed into the chemostat, was almost completely mineralized to CH4 and CO2 at dilution rates below 0.5 day-1. The butyratedegrading methanogenic communities in the chemostats at dilution rates between 0.025 and 0.7 day-1 were monitored based on the 16S rRNA gene, using molecular biological techniques including clone library analysis, denaturing gradient gel electrophoresis, and quantitative real-time polymerase chain reaction. The aceticlastic methanogen Methanosaeta and the hydrogenotrophic methanogen Methanoculleus dominated in methanogens at low dilution rates, whereas the aceticlastic methanogen Methanosaeta, Methanosarcina, the hydrogenotrophic methanogen Methanoculleus, and Methanospirillum dominated at high dilution rates. Bacteria affiliated with the family Syntrophaceae in the phylum Proteobacteria predominated at the low dilution rate of 0.025 day-1, whereas bacteria affiliated with the phylum Firmicutes and Candidate division OP3 predominated at high dilution rates. A significant quantity of bacteria closely related to the genus Syntrophomonas was detected at high dilution rates. Dilution rate showed an apparent effect on archaeal and bacterial communities in the butyrate-fed chemostats.
Microbial community., Butyrate., Dilution rate
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汤岳琴, Yueqin Tang, Minzhe An, Kai Liu, Saki Nagai, Toru Shigematsu, Shigeru Morimura, Kenji Kida *
Process Biochemistry 41(2006)909-914,-0001,():
-1年11月30日
An ethanol production process using the flocculating yeast Saccharomyces cerevisiae strain KF-7 with acid hydrolysate of wood biomass as feed was investigated. Corn steep liquor (CSL) supplemented with KH2PO4, MgSO4, and CaCl2 was used as the source of nitrogen and mineral nutrients. Using a tower-type reactor (working volume (WV), 0.45 L), continuous fermentation with a high ethanol productivity of over 20 g/(L h) was achieved at a dilution rate of 0.3h-1 with a pH of 4.5 at 35 8C. A continuous fermentation process using two tower-type reactors (WV, 4.5 Leach) connected in series was then constructed to decrease the concentration of residual sugars (except for xylose). The contamination of bacteria was effectively repressed and an ethanol productivity of over 12.6 g/(L h) was achieved at an overall dilution rate of 0.2h-1 with a pH of 4.0 at 35 8C. Strain KF-7 was thus demonstrated to be suitable for the production of ethanol from acid hydrolysate of wood biomass.
Fuel ethanol production, Wood biomass, Continuous ethanol fermentation, Flocculating yeast
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汤岳琴, YUEQIN TANG, TORU SHIGEMATSU, * SHIGERU MORIMURA, AND KENJI KIDA,
JOURNAL OF BIOSCIENCE AND BIOENGINEERING Vol. 99, No.2, 150-164. 2005,-0001,():
-1年11月30日
Two mesophilic anaerobic chemostats, one without added Ni2+ and Co2+ (chemostat 1) and the other with added Ni2+ and Co2+ (chemostat 2), were supplied with synthetic wastewater containing bovine serum albumin (BSA) as the sole carbon and energy source in order to study the capacity of protein degradation, microbial community structure and the effects of the addition of trace metals. Volatile fatty acids and ammonia were the main products of chemostat 1, while methane, CO2 and ammonia were the main products of chemostat 2, and critical dilution rates of 0.15 d-1 and 0.08 d-1 were obtained, respectively. Fluorescence in situ hybridization (FISH) with archaeal and bacterial domain-specific probes showed that archaeal cells were very limited in chemostat 1 while large populations of several types of archaeal cells were present in chemostat 2. Phylogenetic analyses based on 16S rRNA gene clonal sequences, DGGE, and quantitative real-time polymerase chain reaction (PCR) showed that, within the domain Archaea, methanogens affiliated with the genera Methanosaeta and Methanoculleus were predominant in chemostat 2. Within the domain Bacteria, rRNA genes obtained from chemostat 1 were affiliated with the three phyla; Firmicutes (43%), Bacteroidetes (50%) and Proteobacteria (7%). A total of 56% of rRNA genes obtained from chemostat 2 was affiliated with the three phyla, Firmicutes (32%), Bacteroidetes (11%) and Proteobacteria (13%) while 44% of rRNA genes remained unclassified. Phylogenetically distinct clones were obtained in these two chemostats, suggesting that different protein degradation pathways were dominant in the two chemostats: coupled degradation of amino acids via the Stickland reaction in chemostat 1 and uncoupled degradation of amino acids via syntrophic association of amino acid degraders and hydrogenotrophic methanogens in chemostat 2.
bovine serum albumin (, BSA), ,, anaerobic degradation,, methane fermentation,, phylogenetic analysis
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汤岳琴, Yueqin Tanga, Toru Shigematsua, *, Ikbalb, Shigeru Morimuraa, Kenji Kidaa, c
Water Research 38(2004)2537-2550,-0001,():
-1年11月30日
We demonstrated previously that micro-aeration allows construction of an effective thermophilic methanefermentation system for treatment of municipal solid waste (MSW) without production of H2S. In the present study, we compared the microbial communities in a thermophilic MSW digester without aeration and with micro-aeration by fluorescence in situ hybridization (FISH), denaturing gradient gel electrophoresis (DGGE), phylogenetic analysis of libraries of 16S rRNA gene clones and quantitative real-time PCR. Moreover, we studied the activity of sulfatereducing bacteria (SRB) by analysis of the transcription of the gene for dissimilatory sulfite reductase (dsr). Experiments using FISH revealed that microorganisms belonging to the domain Bacteria dominated in the digester both without aeration and with micro-aeration. Phylogenetic analysis based on 16S rRNA gene and analysis of bacteria by DGGE did not reveal any obvious difference within the microbial communities under the two aeration conditions, and bacteria affiliated with the phylum Firmicutes were dominant. In Archaea, the population of Methanosarcina decreased while the population of Methanoculleus increased as a result of micro-aerations as revealed by the analysis of 16S rRNA gene clones and quantitative real-time PCR. Reverse transcription and PCR (RT-PCR) demonstrated the transcription of dsrA not only in the absence of aeration but also in the presence of micro-aeration, even under onditions where no H2S was detected in the biogas. In conclusion, micro-aeration has no obvious effects on the phylogenetic diversity of microorganisms. Furthermore, the activity of SRBs in the digester was not repressed even though the concentration of H2S in the biogas was very low under the micro-aeration conditions.
Methane fermentation, Hydrogen sulfide, Sulfate-reducing bacteria, Phylogenetic analysis, Municipal solid waste
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