[Adsorption of Cu2+ by xanthate-functionalized waste sludge].

Waste sludge from waste water treatment plants was treated with the carbon disulfide in alkaline medium to prepare xanth, aiming to explore an efficient way to recycle waste sludge. Fourier transform infrared spectroscopy (FTIR) was applied to characterize the sludge. Batch experiments were conducted to investigate the adsorption property of Cu2+ as well as effecting factors including pH and initial concentration of Cu2+ .

[Isolation, identification of two aerobic denitrifiers and bioaugmentation for enhancing denitrificaition of biofilm under oligotrophic conditions].

Two aerobic denitrifying bacteria were isolated from the sludge of municipal wastewater treatment plant by enrichment, preliminary screening with BTB culture medium and the denitrification potential test and identified through 16S rDNA sequence analysis. Then they were bioaugmented to oligotrophic biofilm system respectively, aiming to enhance the denitrification capacity. The two strains were identified as Pseudomonas aeruginosa and Pseudomonas putida respectively.

Comparative investigation on microbial community and electricity generation in aerobic and anaerobic enriched MFCs.

This study compared the difference in microbial community and power generation capacity of air-cathode MFCs enriched under anode aerobic and anaerobic conditions. Results showed that MFCs successfully started with continuous air inputting to anode chamber. The aerobic enriched MFC produced comparable and even more electricity with the fuels of acetate, glucose and ethanol compared to the anaerobic MFC when returning to anaerobic condition.

[Microbial ecology analysis of the biofilm from two biological contact oxidation processes with different performance].

This study investigated the performance of one-step aerobic biological oxidation process and anoxic/aerobic two-step biological oxidation process treating modeled river water containing low carbon and rich ammonia. Biofilm microbial ecology was analyzed with multiple molecular technologies including PCR-DGGE, FISH/CLSM and FISH/FCM to investigate the succession of bacteria community and space distribution along with abundance of the main functional bacteria, and to research the micro-influential factors and the mechanism of different biological contact oxidation processes for their performance. Results showed that two-step contact oxidation process achieved higher removal percentage than that of the one-step process, with COD and NH4(+) -N removal enhanced about 10% and 32%-59%, respectively.

Effects of gene-augmentation on the formation, characteristics and microbial community of 2,4-dichlorophenoxyacetic acid degrading aerobic microbial granules.

Development of 2,4-dichlorophenoxyacetic acid (2,4-D) degrading aerobic granular sludge was conducted in two sequencing batch reactors (SBR) with one bioaugmented with a plasmid pJP4 donor strain Pseudomonas putida SM1443 and the other as a control. Half-matured aerobic granules pre-grown on glucose were used as the starting seeds and a two-stage operation strategy was applied. Granules capable of utilizing 2,4-D (about 500 mg/L) as the sole carbon source was successfully cultivated in both reactors.

[Bioaugmentation of bioreactors with a pJP4 receiving transconjugant to enhance the removal of 2,4-D].

The paper first investigated horizontal transfer of a conjugative plasmid pJP4 to two pure strains of E. coli DH5alpha and Alcaligenes sp., and a mixed culture of aerobic granular sludge, respectively.

[Power generation from glucose and nitrobenzene degradation using the microbial fuel cell].

By constructing a dual-chamber microbial fuel cell (MFC), experiments were carried out using an initial glucose concentration of 1 000 mg/L with different nitrobenzene (NB) concentrations (0, 50, 150 and 250 mg/L) as the MFC's fuel. Results showed that with an external resistance of 1 000 omega, the initial glucose concentration of 1 000 mg/L and the initial NB concentrations of 0, 50, 150, 250 mg/L, the operation periods were 55.7, 51.

[Study on gfp labeling of a 2,4-D degrading strain and its detection in a wastewater biotreatment system].

A 2,4-dichlorophenoxyacetic acid (2,4-D) degrading special bacteria Achromobacter sp. was chromosomally labeled with a green fluorescent protein gene (gfp) using a mini-Tn7 transposon delivery system. The growth status, fluorescence expression and degradation ability of the strain before and after labeling were compared.

[Electricity generation and quinoline degradation of pure strains and mixed strains in the microbial fuel cell].

Microbial flora composition of microbial fuel cells (MFC) is important to the electricity generation. Four bacterium strains Q1, b, c and d which represent all different morphology of culturable bacterium were isolated from a MFC using 200 mg x L(-1) quinoline as the fuel and operating for at least 210 days. Strains Q1, c and d were Pseudomonas sp.

Bioaugmentation of aerobic sludge granules with a plasmid donor strain for enhanced degradation of 2,4-dichlorophenoxyacetic acid.

Aerobic sludge granules pre-grown on glucose were bioaugmented with a plasmid pJP4 carrying strain Pseudomonas putida SM1443 in a fed-batch microcosm system and a lab-scale sequencing batch reactor (SBR) to enhance their degradation capacity to 2,4-dichlorophenoxyacetic acid (2,4-D). The fed-batch test results showed that the bioaugmented aerobic granule system gained 2,4-D degradation ability faster and maintained a more stable microbial community than the control in the presence of 2,4-D. 2,4-D at the initial concentration of about 160 mg/L was nearly completely removed by the bioaugmented granule system within 62 h, while the control system only removed 26% within 66 h.

[Chemical forms and distribution of phosphorus in the sediment profiles of the Daliaohe River systems].

The Daliaohe river system in China has been seriously affected by long-term intensive industrial, urban and agricultural activities. The objective of this study was to determine the total phosphorus (TP) content and forms of phosphate in the sediments and investigate geochemical relationships between P forms and mineral matrix elements and P bioavailability. Four sediment profiles were taken in the Daliaohe river systems.

[Plasmid pJP4 mediated gene horizontal transfer in a biofilm system and its effect on 2, 4-D degradation].

With plasmid pJP4 (which contains functional gene cluster (tfd) encoding 2,4-D degradation) carrying genetic microorganism Pseudomonas putida SM1443:: gfp2x (pJP4:: dsRed) as the donor strain, events of plasmid mediated gene horizontal transfer and its effect on 2,4-D degradation was investigated in a biofilm system operated under fed-batch mode. The surviving status of the functional gene element in the gene-augmented system and effects of gene-augmentation on microbial community structure were also investigated. Results showed that introduction of pJP4 carrying strain to the biofilm system with 2, 4-D (initial concentration at 170 mg/L +/- 10 mg/L) as the sole carbon source could enhance the degradation of 2, 4-D.

[Plasmid pJP4 mediated gene-augmentation in different systems and its effect on 2,4-D biodegradation].

With pJP4 plasmid carrying genetic engineering bacteria Pseudomonas putida SM1443 :: gfp2x (pJP4 :: dsRed) as the donor, horizontal gene transfer of pJP4 plasmid in 4 isolated pure strains was investigated, and effects of the donor bacteria inoculation on the removal of the target pollutant 2,4-dichlorophenoxyacetic acid (2,4-D) was studied through conducting gene augmentation in activated sludge, biofilm, aerobic granular sludge and river sediment system, respectively. Results showed that plasmid pJP4 could transfer from Pseudomonas putida SM1443 to a broad spectrum of bacteria. Inoculation of pJP4 plasmid carrying donor bacterium apparently promoted the degradation of 2,4-D for all the above four systems.

[Factors influencing bacterial cell-surface hydrophobicity and bacterial adhesion ratio to activated sludge flocs].

With four different strains as the model, effects of different culture medium on cell-surface hydrophobicity (CSH) were investigated, and the relationship between CSH, contact time and adhesion of bacteria to activated sludge flocs was correlated. Results showed that culture medium, culture time and the characteristic of strain itself influenced the CSH of bacteria, and initial CSH, contact time was closely related to bacterial adhesion ratio in activated sludge system. When contact time was relatively short (< 14 h), initial CSH was the main factor influencing bacterial adhesion ratio.

[Distribution characteristics of organochlorine pesticides in river surface sediments in Song-Liao watershed].

With gas chromatography-electron capture detector (GC-ECD), this paper analyzed 13 kinds of organochlorinae pesticides (OCP) in surface sediments collected from 22 sites of Song-Liao water system. The results showed that the total concentration of OCP varied from 3.06 to 23.

[Study on the treatment of aromatic hydrocarbon containing wastewater by an anaerobic filter reactor under denitrifying condition].

With benzene, naphthalene and biphenyl as the model aromatic hydrocarbon, the treatment of aromatic hydrocarbon containing wastewater by an anaerobic filter (AF) reactor operated in continuous mode and under denitrifying condition were conducted. With glucose as the supplemented carbon, the influence of C/N ratio on the degradation of organic compounds was also investigated. Results showed that the AF reactor could degrade these aromatic hydrocarbons effectively under above mentioned conditions.

[Efficiency and characteristic of biological activated carbon fluidized bed for oil-field wastewater treatment].

In order to find method to improve biodegradation of oil-field wastewater, the biological activated carbon fluidized bed (BAC-FB) process for oil-field wastewater treatment in aerobic condition is studied. The results show that the process demonstrated highest removal rate with hull activated carbon (AC) as carrier and carrier concentration of 15%. The optimized HRT of the process is 5 h.

[Characteristic of the removal of 2,4-dichlorophenol by biological activated carbon].

The adsorption characteristics and kinetics of 2,4-Dichlorophenol (2,4-DCP) by biological activated carbon (BAC) was studied through contrast experiments with conventional activated sludge alone or quartz as the carrier. The advantage and disadvantage of removing 2,4-DCP using BAC and the mechanism of this process were investigated. The results show that the method of removing 2,4-DCP by BAC is applicable in practices, and the process of BAC demonstrates high removal rate than the process of suspended activated sludge and biofilm with quartz as the carrier.

[Enhancing resistance of a conventional activated sludge system against shock loading of 2,4-DCP through bioaugmentation with special culture].

In this study, conventional activated sludge (CAS) systems, which were generally used to treat municipal wastewater, were modeled to receive intermittent 2,4-dichlorophenol (2,4-DCP) shock loadings. The response and stability of the CAS system augmented with special culture and the non-bioaugmented control CAS system under shock loading conditions were compared. The capability of the bioaugmented CAS systems to degrade 2,4-DCP under long-term continuous operation was investigated.