Effect of Solid Contamination on Stability of Model Oil-Water Emulsions

Khademi, Sima

Unknown Date

No description available.

solid contamination

emulsions

Viruses in foods.

Srivastava, Ayodhya Nath.

January 1973

No description available.

Viruses

Food contamination

Microbial and physico-chemical quality of some surface water resources in Durban, South Africa.

Naicker, Kovashnee.

January 2010

Microbial and chemical contamination of inland and coastal waters in Southern Africa is a major challenge facing the water industry and regulatory authorities. Increased stresses on these surface water resources through human and environmental influences have resulted in deteriorating water quality that has severely encumbered the country’s capability to provide sufficient water to meet its needs and to ensure environmental sustainability. In addition, indiscriminate use of antibiotics has resulted in widespread contamination of surface waters, leading to accelerated development of antibiotic resistance and proliferation of resistant water-borne diarrhoeal-related pathogens, such as Escherichia coli and Vibrio cholerae. Despite the high level of contamination of South African surface waters, the microbiological quality of rivers and beaches in Durban, South Africa, have not been adequately investigated. Therefore, the current study assessed the seasonal fluctuations of the microbial and physicochemical quality of two rivers (Umgeni River and Umdloti River) and six beaches (Virginia Aerodome, Beachwood, Umgeni South, Battery, Sunkist, Addington) in Durban, using several bacterial indicator organisms and physico-chemical parameters as indices. The antibiotic resistance profiles (ARPs) of E. coli and V. cholerae strains, recovered from the water samples, were determined and changes in the microbial community of the water samples were monitored over a seasonal cycle, using denaturing gradient gel electrophoresis (DGGE). Spatial and seasonal fluctuations of the physico-chemical parameters differed significantly (p < 0.05) among the water samples with high heavy metal concentrations detected across the seasonal cycle. Temperature profiles ranged from 13°C to 26.5°C for the Umgeni River, 13°C to 27°C for the beaches and 12°C to 26°C for the Umdloti River while pH ranged from 6.30 to 8.45 (Umgeni River), 6.37 to 8.30 (beaches) and 5.96 to 7.94 (Umdloti River). Turbidity ranged from 0.53 NTU to 15.6 NTU (Umgeni River); 0.57 NTU to 2.37 NTU (beaches) and 2.23 NTU to 18.8 NTU (Umdloti River). During spring and summer, all river and beach water samples had < 500 μg/L phosphate concentrations; however, these concentrations increased significantly (p < 0.05) during autumn and winter in both rivers. Majority of the samples had low concentrations of ammonia and nitrates. Sulphate concentrations for the beach samples ranged from 2355 mg/L (B5 – summer) to 2899 mg/L (B2 – winter) as compared to the Umgeni and Umdloti Rivers which ranged from 3.90 mg/L (A4 – autumn) to 2762 mg/L (A1 – summer) and 4.47 mg/L (C4 – winter) to 168 mg/L (C1 – winter), respectively. According to the South African Target Quality Range guidelines for the heavy metals (in surface waters), all river and beach water samples exceeded the set limits for lead (Pb2+), mercury (Hg2+) and cadmium (Cd2+) across all seasons. During spring and summer all water samples complied with the aluminium guideline of 0 – 0.15 mg/L. Bacterial population profiles indicated that all sampling points failed to comply with the set guidelines (domestic use) for presumptive total coliform (TC), faecal coliform (FC) and total heterotrophic bacterial (THB) counts during all four seasons. Estimated TC, FC and THB populations as high as 8.6 x 101, 3.7 x 101 and 2.15 x 105 cfu/100ml, respectively, were obtained for some of the samples with peak indicator levels and generally a higher microbial load observed during the summer season. High prevalence of resistance to ampicillin [67.82% (Umgeni River)] was encountered among the E. coli isolates from the water samples followed by amikacin [53.33% (Umdloti River)], augmentin [49.6% (Umdloti River)], tetracycline [42% (Umgeni River)], streptomycin [37.1% (beaches)] and cotrimoxazole [33% (Umgeni River)]. The most frequently encountered form of resistance among the V. cholerae isolates was against cotrimoxazole [93.34% (Umgeni River)], streptomycin [84% (beaches)], erythromycin [78.7% (Umgeni River)], trimethoprim [77.7% (Umdloti River)], rifampicin [70% (Umgeni River)] and cefoxitin [45% (Umdloti River)]. Multidrug resistance among the E. coli isolates was indicated by twenty nine (Umgeni River), twenty six (beaches) and fourteen (Umdloti River) different resistance patterns, while the V. cholerae isolates produced eighteen (Umgeni River), thirty five (beaches) and twenty nine (Umdloti River) different resistance patterns. In addition, proportional resistances of the E. coli and V. cholerae strains to the different classes of antibiotics ranged from six to eleven and four to eleven different antibiotic classes, respectively. The present study suggests that the bacterial communities detected in the water samples collected from the rivers and beaches in Durban, followed seasonal dynamics and could possibly be the consequence of fluctuations in certain environmental factors. A total of 87 different DGGE bands were detected among the Umgeni River water samples, 127 different DGGE bands among the six beach water samples and 107 bands in the Umdloti River samples, over the four seasons. Twenty one dominant bands were found among all sampling sites, indicating widespread phylotypes, whereas 14 bands were exclusively detected at only one sampling site (C1) potentially indicating unique phylotypes. Some bands appeared all year-round, whereas some other bands were specific to a particular season. Overall, the present study successfully demonstrated the poor microbiological quality of the investigated river and beach water resources which raise concerns over the management of these water resources and the subsequent deleterious effects these waters could have on the end users. This emphasizes the need for implementation of improved management strategies of these river catchments and beaches for continued sustainability. Furthermore, the high level of multi-antibiotic resistance demonstrated by the E. coli and V. cholerae strains, recovered from the water samples, reiterates the need to continuously monitor the changing trends in antimicrobial resistance patterns of these diarrhoeal-related bacterial pathogens. Therefore, continued surveillance of these surface waters used for recreational or domestic purposes and development of adequate prevention strategies are needed for public health reasons. Lastly, combining the use of conventional faecal indicators with molecular-based techniques, such as DGGE, can provide more information on the microbial load and diversity of surface waters. In addition, information regarding the effects of seasonal variations on microbial diversity as observed in this study is important for the sustainable management of surface water resources. / Thesis (M.Sc.)-University of KwaZulu-Natal, 2010.

Microbial contamination.

Theses--Biochemistry.

The soiling of materials in urban areas

Mansfield, Trudie A.

January 1989

This thesis considers the sources of airborne particulate matter and dark smoke in the UK and its implication in the soiling of materials. The role of particulate elemental carbon receives special consideration. Results of emission inventories reveal that diesel emissions are responsible for 60% of dark smoke in urban areas and 25% on a national level. Particulate emissions have been identified as being largely responsible for the soiling of building fabric in urban areas. It is now being increasingly accepted that vehicle exhaust emissions make major contributions to this fabric soiling as well as to the deterioration of atmospheric quality within the urban environment. Field work has been carried out at nine locations within metropolitan London, where a variety of materials was displayed. The materials' reflectance was measured at regular intervals together with pollution and meteorological conditions for alperiod of eighteen months. Soiling rates in the range of -0.02-4.5 yr were recorded. Particulate samples were collected by a variety of methods and soiling rates were measured in a traffic tunnel to assess the rate of sliling in the absence of rainfall. Soiling rates of -0.5-0.8 yr were recorded. Daily soiling rates for sheltered and exposed materials were measured in a third field study. A cost-benefit analysis of the building soiling problem was also undertaken. The costings were achieved by a survey of UK stone cleaning companies to identify their turnover, market characteristics, mode and cleaning frequencies. The benefits were obtained by interviewing typical clients of the stone cleaning companies to ascertain the amount they spent per annum on stone cleaning and the benefits accrued as a result of cleaning

333.7

Environmental contamination

Molecular detection and analysis of the diversity of bacterial dehalogenases

Lowe, Peter Richard

January 2001

The identification and isolation of bacteria capable of dehalogenating highly chlorinated aromatic compounds is currently a time consuming process, therefore the ability to predict the potential of a site to naturally remediate contamination is limited. This work has assessed a selection of modern molecular biological techniques to detect the presence of specific dehalogenase enzymes or the genes encoding them, as an indicator of a contaminated site's potential to perform remediation naturally. DNA and protein based detection strategies were tested in a variety of formats. DNA detection of dehalogenase genes was assessed by varieties of hybridisation probing and PCR detection. Protein based detection utilised specific antibody based detection of dehalogenases from bacterial proteomes. A combined technique exploiting the specificity of antibody detection and the sensitivity of PCR amplification was assessed by ribosomal display. DNA based detection techniques demonstrated a high sensitivity but lacked the required level of specificity for use in routine testing, with the exception of single specific primer PCR which was demonstrated to detect specific changes in a bacterial population following contamination. Protein based detection lacked the sensitivity necessary for a field based detection system but the potential for specifically fingerprinting bacterial species was observed. The ribosomal display technique, although combining sensitivity and specificity, could not be fully evaluated during the course of this work.

610.28

Contamination; Halogenated compounds

Long term operation of engineered anaerobic bioreactors and wetland cells treating zinc, arsenic and cadmium in seepage : results, longevity, cost and design issues.

Duncan, William Fredrick Alexander

30 May 2011

At the Trail Smelter, contaminated seepage water is collected and a portion is diverted for treatment to a large pilot-scale wetland system. The design, construction (in stages from 1997 to 2002) and long term sampling (1998-2007) of the wetland system treating high concentrations of zinc, arsenic and cadmium is presented. The final system configuration has been operating year-round since 2002 treating approximately 15,000 L/d. The system is comprised of two vertical upflow anaerobic (compost) bioreactors followed by three horizontal subsurface flow vegetated wetland cells, a slow sand filter and a final holding cell. Operational sampling was done for water quality (metals and various anions), bacterial communities (MPN, PFLA and DGGE) and vegetation (metals content). After several years of operation one of the anaerobic cells was taken apart and rebuilt in 2002. Extensive solid substrate sampling during deconstruction was analyzed for mineralization (SEM/EDS), metals and carbon content (Rock-Eval pyrolysis) to estimate the potential cell life. The system treats seepage with zinc up to 3800 mg/L (average ~ 260 mg/L), arsenic to 3600 mg/L (average ~ 150 mg/L) and Cd to 83 mg/L (average ~ 4.7 mg/L) which are reduced to <0.5 mg/L (<0.02 mg/L for Cd). Vegetation sampling showed variable uptake into exposed plants at much higher levels than control plants. Plant toxicity was experienced in the system. Evapotranspiration and rhizofiltration are the preferred use of plants as opposed to metal hyper-accumulating plants. Bacterial sampling indicated the presence of sulphate reducing bacteria and a diverse anaerobic microbial community throughout the system despite the high metals entering the system. The predicted life of the anaerobic cell by Rock Eval 6 was 18 years with a range from 17 to 21 years, while based on biomass calculations could range from 14 to 34 years. Where wetlands systems can be successfully used, their cost and environmental and social sustainability is very favourable when compared to chemical treatment systems (e.g. lime-dosing systems). Based on author‟s experience at the Trail and other sites, the design issues faced by full scale wetland systems are presented and recommendations made to ensure a successful system. / Graduate

Trail (B.C.)

wetlands

contamination

Spatial variation and behaviour of heavy metals (Pb and Zn) in the urban soils of north-central Newcastle, Tyneside

Dilks, Caroline Frances

January 2000

No description available.

628.44

Concentrations; Contamination; Mobility

Soil and plant contents of lead and other trace elements with special reference to the influences of parent rock and pollution

Ginnever, Rhoda C.

January 1985

No description available.

631.4

Heavy metal contamination

Estimation of shadow prices of undesirable outputs : an application to UK dairy farms

Hadley, David

January 1997

No description available.

338.1

Nitrate contamination; Biodiversity

Occurrence of Vibrio parahaemolyticus in and bacteriological quality of Oregon Dungeness crabmeat

Allen, Evelyn Carol

31 August 1971

Graduation date: 1972

Food contamination

Food -- Microbiology