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521	Vandens kokybės indeksas Šventosios upės baseinui / Water quality index for the Šventoji river basin, eastern Lithuania Zareckas, Mindaugas 16 June 2014 (has links) Vandens tarša išlieka viena pagrindinių aplinkosaugos problemų. Upių ir ežerų vandens kokybė Lietuvoje yra nuolat stebima, vykdomas valstybinis monitoringas. Siekiant išaiškinti Šventosios baseino upių vandens kokybę ir jų kaitą, darbe buvo pritaikytas vandens kokybės indeksas. Šiam tikslui buvo panaudoti Šventosios baseino valstybinio monitoringo 1992 – 2012 m duomenys. Vandens kokybės indekso įvertinimui panaudoti šie parametrai: skendinčių medžiagų kiekis, pH, ištirpęs O2, BDS7, NO3-N, N bendras, P04-P, P bendras, Ca, Mg, SO4, Pb, Hg ir koliforminės bakterijos. Nustatyta, kad praeityje Šventosios upę ir jos intakus daugiausia teršė koliforminės bakterijos, tuo tarpu pastaruoju metu vyrauja fosforo ir azoto junginių tarša. Blogiausi vandens kokybės indeksų vidurkis nustatytas Vyžuonos upėje žemiau Utenos – 53,1 balo, o geriausias Šventojoje ties Sabaliūnais - 83,5 balai. / Water pollution is one of the most important problems in environmental protection. Water quality of Lithuanian rivers and lakes is constantly observed and national monitoring is being performed. In order to find out the Šventoji river basin water quality and its long-term changes, water quality index was applied in the work. To reach this goal, the Šventoji river basin national monitoring data of 1992-2012 years were used. To evaluate water quality index, the following parameters were applied: suspended substance, pH, dissolved O2, BDS7, NO3-N, N total, PO4-P, P total, Ca, Mg, SO4, Pb, Hg and coliform bacterias. Results of the research revealed that the Šventoji river and its tributaries had been polluted with coliform bacterias in the past, while recently pollution of phosphorus and nitrogen have dominated. The worst water quality indexes average determined in the Vyžuona below Utena – 53,1 points, and the best is in the Šventoji at Sabaliūnai – 83,5 points. Civil Enginering Vandens kokybė Vandens kokybės indeksas Upė Šventoji Water quality Water quality index Šventoji river
522	Development, Validation, and Evaluation of a Continuous, Real-time, Bivalve Biomonitoring System Allen, H. Joel 12 1900 (has links) A biological monitoring tool to assess water quality using bivalve gape behavior was developed and demonstrated. The purpose of this work was to develop methodologies for screening water quality appropriate to the goals of the watershed paradigm. A model of bivalve gape behavior based on prediction of behavior using autoregressive techniques was the foundation of the bivalve biomonitoring system. Current technology was used in developing the system to provide bivalve gape state data in a continuous real-time manner. A laboratory version of the system, including data collection and analysis hardware and software, was developed for use as a toxicological assay for determination of effective concentrations of toxicant(s) or other types of stress on bivalve gape behavior. Corbicula fluminea was monitored and challenged with copper, zinc, and chlorpyrifos using the system. Effective concentrations of 176±23µg/L copper, 768±412µg/L zinc, and 68µg/L chlorpyrifos were observed using a natural water with high dissolved organic carbon concentrations. A rugged field version of the bivalve biomonitoring system was developed and deployed in two locations. The field systems were fitted with a photovoltaic array, a single board computer, and a CDPD telemetry modem for robust remote operation. Data were telemetered at a time relevant rate of once every ten minutes. One unit was deployed in Lake Lewisville, Denton County, TX in February 2000. Data were telemetered and archived at a 92% success rate. Bivalve gape data demonstrated significant behavioral deviations on average 5 times per month. A second unit was deployed in Pecan Creek, Denton, TX in June 2001. Data from this site were telemetered and archived at a 96% success rate. Over the months of June-August 2001, 16 significant behavioral deviations were observed, 63% of which were correlated with changes in physical/chemical parameters. This work demonstrated the relative sensitivity of bivalve gape as a toxicological endpoint and the feasibility of its use in a continuous, real-time, bivalve biomonitoring system. Technical aspects of collecting, telemetering, and analyzing this type of data in a time-relevant manner were developed resulting in a system appropriate for use as a means of data collection within the watershed paradigm. Water quality biological assessment. Watersheds. Corbicula fluminea. Biomonitor watershed Corbicula fluminea bioassay water quality
523	Water Quality Mapping on Lake Texoma USA Mabe, Jeffrey A. 12 1900 (has links) The primary objective of this study was to develop and evaluate a system capable of rapid, continuous collection of water quality and locational data on Lake Texoma. Secondary objectives included developing monthly distribution maps for chlorophyll-a, turbidity, and specific conductivity in Lake Texoma and investigating the spatial and temporal relationships between these common water quality indicators. A modified YSI multiprobe was used to develop a system capable of surveying the lake within 4 days with samples at 330 to 400 meter intervals. Data generated with this system compared favorably with previous studies of Lake Texoma. Two sets of raster format maps were developed for the monthly distributions of chlorophyll-a, turbidity, and specific conductivity across the lake. Spatial and temporal relationships generally took the form of decreasing gradients running from the lake arms towards the Main Lake Zone in the case of chlorophyll-a and turbidity. Or, in the case of specific conductivity, a decreasing gradient from the Red River arm to the Washita River arm. All three water quality indicators were strongly influenced by river discharge levels. Mapping water quality Lake Texoma
524	Measuring water utility efficiency using fuzzy logic 06 November 2012 (has links) D.Ing. / Measuring the efficiency of water utilities has been a constant challenge to various stakeholders in the water sector. There are several factors that influence the efficiency of utilities. The following study examines the different factors and establishes a model to quantify the efficiency of water utilities using limited number of variables. It utilises Fuzzy Logic to develop the measurement model. The developed method can also be used to configure a new water utility for efficiency. In addition, the research highlights some possible imperfections in the water policies that can result in an inherent inefficiency of a water utility. The developed model can assist in setting ceiling levels for utility's water assets and labour, to ensure efficiency. The model is generic and can be applied to any country or community, and can be used to configure water utilities for the poor. The Model utilised "Matlab Fuzzy Tool Box student version 2009a" software as a tool to develop the Fuzzy Inference Engine for Utility Efficiency. The study is a contribution to the domain of knowledge of water engineering science. Fuzzy logic Water utilities - Evaluation Fuzzy systems Water quality measurement Water quality management
525	Determining the influences of land use patterns on the diatom, macroinvertebrate and riparian vegetation integrity of the Lower Harts/Vaal River systems 26 May 2010 (has links) M.Sc. / Water resources in South Africa are scarce and need to be protected and managed in a sustainable way for future generations. Food supply is a great priority worldwide and the pressure to produce enough food has resulted in the expansion of irrigation and the steadily increasing use of fertilizers and pesticides to achieve higher yields. Rivers are impacted by agriculture through increased suspended sediment loads (which affects primary production, habitat reduction and introduction of absorbed pollutants), elevated nutrient inputs (which may increase the abundances of algae and aquatic plants), salinization and pesticide runoff (which eliminates species intolerant to these conditions and therefore impacts on the normal production of the river system). Aquatic biota plays an integral part in the functioning of aquatic ecosystems. Biological monitoring is used to assess ecosystem health and integrity. Biological communities reflect the overall integrity of the river ecosystem by integrating various stressors and therefore provide a broad measure of their synergistic effects. The research area falls within the Lower Vaal Water Management Area (WMA), which lies in the North-West and Northern Cape Provinces. The lower Vaal River and the Harts River (one of the tributaries of the Vaal) are the river systems under investigation in this study. Farming activities ranges from extensive livestock production and rain fed cultivation to intensive irrigation enterprises at Vaalharts (such as maize, cotton and groundnuts). The Vaalharts is the largest irrigation scheme in South Africa. Salinity is of concern in the lower reaches of the Harts- and Vaal Rivers, due to saline leachate from the Vaalharts irrigation scheme. Agricultural inputs are known to affect aquatic communities and chemicals (e.g. pesticides, herbicides, fertilizers) are extensively used in the Vaalharts irrigation scheme. At present there are no data on the effect of these chemicals on the aquatic biota of the lower Harts- and Vaal Rivers. The aims of this study were to assess the diatom- and macroinvertebrate community structures, ecosystem integrity and macroinvertebrate feeding traits (functional feeding groups – FFGs) in relation to land use. Vaalharts Irrigation Scheme Water quality management Water quality biological assessment Effect of water pollution on diatoms
526	Land-use on water quality of the Bottelary River in Cape Town, Western Cape Itoba Tombo, Elie Fereche January 2010 (has links) Thesis (MTech (Environmental Management))--Cape Peninsula University of Technology, 2010 / Freshwater scarcity and river pollution has become a serious challenge for governments and scientists. Worldwide, governments have a responsibility to provide their populations with enough clean water for their domestic needs. Scientists will have an enormous task to find a way to purify polluted water, because of its vital role in human lives and an increasing demand for water consumption due to population growth. Although the water from the Bottelary River is used on a daily basis for farming activities, its pollution level as well as spatial distribution of effluents in the catchment is unknown. In the present study, I took monthly water samples from six sampling points for laboratory analysis. The laboratory determined concentration levels of phosphorous, chloride, nitrate, and nitrate nitrogen (N03N), as well as the chemical oxygen demand (COD) and suspended solids from the samples. On the same occasion's pH, dissolved oxygen, electrical conductivity and temperature were measured in-situ using a multi-parameter reader. The results were then compared with the South African Water Quality Guidelines for Aquatic Ecosystems and for irrigation (DWAF, 1996a, 1996c). The non-point pollution source (NPS) model was used to generate predictions of the pollution level from the land-uses and use the data obtained from the field to validate the model predictions. Finally, I performed a two-factorial A One-way Analysis of Variance (ANOVA) without replication to assess the spatial and temporal variation of the measured variables along the river. The findings of the study have shown that the concentration levels of some compounds are below the Target Water Quality Range (TWQR) set by the Department of Water Affairs and Forestry (DWAF, 1996a, 1996b, 1996c) while, the concentrations of chloride, total nitrogen and water quality variables such as electrical conductivity, suspended solids, are higher than the TWQR (DWAF, 1996a, 1996b, 1996c). Based on the above findings water of the Bottelary River can have negative effects on the environment and human lives because of the concentration level of these compounds. It was therefore recommended that, environmentally friendly measures and practices must be undertaken in order to decrease the pollution and avoid further pollution of the river. Water -- Pollution -- South Africa Water quality Water quality management -- South Africa Land use -- South Africa
527	Application of separable programming to regional water quality management Krishnan, Subramaniam January 2010 (has links) Digitized by Kansas Correctional Industries
528	Evaluation of the water quality of Lake Nsezi in Richards Bay Cimanga, Lukusa 04 1900 (has links) Freshwater of acceptable quality is crucial for certain needs and uses such as recreational, domestic and industrial activities (Bartram and Balance, 1996). Water contamination and excessive use and abuse of the fresh water environment, threaten development as well as a variety of other life aspects and make water assessment necessary for safe drinking water delivery. It has been proven that water of good quality is important to sustain development (Karolina et al., 2011). South African freshwater resources such as lakes, rivers and groundwater, undergo intense stress owing to a rapidly expanding population, a growing economy, severe pollution from various industries, a possible effect of global warming and an increase in droughts (Oberholster et al., 2008). A study done by Boyd (2010), further confirmed the decline in water quality of these resources due to excessive contamination caused by urban development, human activities, industrialisation, forest establishment, agriculture and mining operations. For this project, the analysis of physical, chemical and biological parameters of the water from Lake Nsezi was used to assess the water quality of the lake. Results from the analysis were compared to Target Water Quality Range (TWQR) of the Water Quality Guidelines for the Aquatic Environment (WQG/AE) and for Domestic Use (WQG/DU). A further comparison was done between data from the current study and available historical water quality data of Lake Nsezi. From the results for this project and historical data, it was evident that parameters such as total dissolved solids (TDS) and chloride, metals such as aluminium, cadmium, copper, lead and manganese, and total coliform counts were above the TWQR for the WQG/AE and WQG/DU at most of the sampling sites. / Environmental Sciences / M. Sc. (Environmental Science) Water quality Freshwater resources Lake Nsezi 628.161096843
529	Ecological water quality assessment and science-driven policy : investigating the EU Water Framework Directive and river basin governance in China Mao, Feng January 2015 (has links) No description available. 550
530	Optimal regional water quality management by at-source treatment and effluent charges Mital, Anil January 2011 (has links) Digitized by Kansas Correctional Industries Water quality management OhioMiami River

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