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Showing 321 to 330 of 345 (0.026 seconds)Spelling suggestions: "subject:"[een] SURFACE WATER"" "subject:"[enn] SURFACE WATER""
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Anthropogenic impacts on the integrity of the Blesbokspruit catchment : a case study of surface water pollutionPhaleng, Dipitseng Maropeng 09 1900 (has links)
Water Quality Management is one of the critical challenges currently facing South Africa.
The triad of water resource management, socio- economic development and
environmental sustainability are key issues that require balance and compromise. The
effects of anthropogenic activities on the Blesbokspruit catchment were examined. Water
samples were collected from nine strategically selected sites along the stream for a period
of ten months in six weekly intervals and analysed for physio-chemical, selected trace
metals and microbial entities. Results revealed that variables of concern were Electrical
Conductivity (EC), Total Suspended Solids (TSS), Nitrates, Phosphates, Sulphates and
Chemical Oxygen Demand (COD). Mean levels of these parameters in this order ranged
from 93.0-146.63mS/m; 11.25-39mg/L; 0.16-2.01mg/L; 0.5-0.96mg/L; 118.63-379.5mg/L
and 15.0-34.0mg/L respectively. Levels of E. coli and F. coliforms also ranged from 19.13-
43999.125 cfu/100mL and 20.63-16878.5 cfu/100mL respectively which were of concern.
Levels of analysed trace metals were tolerable except for Fe with a range of 0.04-
0.73mg/L. Generally, the results from this study indicate that the river is contaminated and
therefore not suitable for direct human consumption as well as for irrigation purposes.
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Quantification des échanges nappe-rivière au sein de l’hydrosystème Seine par modélisation multi-échelle / Quantizing stream-aquifer fluxes at regional scale by multi-scale modelling of the Seine hydrosystemLabarthe, Baptiste 29 March 2016 (has links)
Compte tenu de l’évolution démographique et climatique planétaire, la gestion de la ressource en eau constitue un défi majeur auquel la communauté internationale devra faire face au cours du XXIème siècle. A cet effet, l'identification de la continuité hydrique entre les eaux de surface et les eaux souterraines permet l'introduction de la notion de gestion intégrée de la ressource. L'application de ce principe de gestion au bassin de la Seine, à travers l'estimation des échanges nappe-rivière, est rendue possible par la mise en pratique du concept d'interface nappe-rivière emboitées au sein de travaux de modélisation. Pour cela une procédure de modélisation multi-échelles peut être mise en place. Elle vise à intégrer des informations locales au sein de modélisation à une échelle supérieure. Dans ce mémoire, une procédure de modélisation multi-échelles est mise en œuvre. Ce protocole de modélisation est initié par une estimation des flux d'eau régionaux au sein de l'hydrosystème Seine. La cohérence globale de ces flux est garantie par le développement d'une méthodologie de calibration de modèles couplés en deux étapes. Ensuite les informations locales, que sont les hétérogénéités de la plaine alluviale de la Bassée et de la représentation des interfaces nappe-rivière du réseau secondaire, sont intégrées au modèle régional par une procédure de modélisation emboitée et de changement d'échelle des paramètres hydrauliques. La mise en place de cette procédure a finalement permis l'estimation fine des échanges nappe-rivière sur la quasi-totalité (83%) du réseau hydrographique naturel du bassin de la Seine et ainsi de répondre aux recommandations de gestion intégrée de la ressource faites par la directive cadre sur l'eau. / Given the current climate and anthropogenic evolutions, water management becomes one of the greatest challenges of the 21st Century. For that purpose, by identifying hydraulic continuity between surface and subsurface water, the concept of integrated water management can be introduced. In this work this management concept is applied on the Seine basin by quantizing hydrological processes occuring at the nested stream-aquifer interface. The implementatin of the nested interface concept can bedone through multi-scale modeling. This modelling procedure, aimed at embody the local characteristics of the interfaces (such as structural or hydrodynamic heterogeneities) in large scale models. A multi-scale modelling procedures is applied to the regional Seine basin model (70000 km²) in order, to study the hydrodynamic behaviour of the Bassée alluvial plain, and to quantify the stream-aquifer exchanged fluxes at the basin scale. The modelling protocol is initiated with regionals fluxes estimation over Seine hydrosystem. Regional fluxes consistency are assured by a two-step calibration procedure of fully coupled models. Then, the local characteristics of the Bassée alluvial plain, are implemented in the regional model by nested modelling methodology associated with upscaling procedure of hydraulics properties. Finally, the multi-scale modelling procedure lead to quantify distributed stream-aquifer exchanged water fluxes over 83% of the natural river network of the Seine basin, and thus, achieve to answer the integrated water resources management recommandations of the water framework directive.
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Groundwater-Surface Water Interactions in a Eutrophic Lake – Impacts of Lacustrine Groundwater Discharge on Water and Nutrient BudgetsMeinikmann, Karin 04 September 2017 (has links)
Die Arbeit besteht aus mehreren Studien zur Quantifizierung des Grundwasserstroms in Seen (Exfiltration; engl.: lacustrine groundwater discharge, LGD) und damit verbundener Nährstoffeinträge. In zwei einleitenden Kapiteln dieser Arbeit werden eine Gründe für die Vernachlässigung der Grundwasserexfiltration (LGD) in Seen und der daran gekoppelten Nährstoffeinträge identifiziert. Diese Literaturstudien fassen den aktuellen Kenntnisstand zum Einfluss des Grundwassers auf die Hydrologie von Seen und ihre Nährstoffhaushalte zusammen.
Den Kern der vorliegenden Arbeit bilden zwei empirische Studien, die sich mit der Quantifizierung der grundwasserbürtigen Phosphor (P)-Fracht in den Arendsee in Deutschland befassen. Das Gesamtvolumen des Grundwasserzustroms wird basierend auf der Grundwasserneubildung im Einzugsgebiet des Sees ermittelt. Lokale Muster der Grundwasserexfiltration werden anhand von Temperaturtiefenprofilen des Seesediments bestimmt. Eine Kombination der Ergebnisse ermöglicht es, die quantitativen Daten mit lokalen Informationen zu unterstützen. Die Untersuchung der Grundwasserqualität zeigt, dass die P-Konzentrationen im Grundwasser im besiedelten Bereich teilweise stark erhöht sind. Als Konsequenz daraus haben die grundwasserbürtigen P-Frachten einen Anteil von mehr als 50% an der gesamten externen P-Last des Arendsees. Das Grundwasser ist damit eine maßgebliche Ursache für die Eutrophierung des Gewässers.
Drei weitere Studien widmen sich der Entwicklung und Optimierung von Ansätzen zur qualitativen und quantitativen Bestimmung der Grundwasserexfiltration in Seen. Die kritische Auseinandersetzung mit den Ergebnissen der Studien zeigt die Notwendigkeit weiterer Forschung zur Verbesserung und Standardisierung der Methoden zur Bestimmung von LGD und damit verbundenen Stofftransporten auf. Der Fall des Arendsees sollte alle, Wissenschaftler und Praktiker, dazu motivieren, das Grundwasser als relevante Eutrophierungsquelle in Betracht zu ziehen. / The present work is a collection of studies on lacustrine groundwater discharge (LGD) and groundwater-borne phosphorus (P) loads. For a number of reasons, groundwater exfiltration (i.e., LGD) is often not considered in water and nutrient budgets of lakes. This is also and especially true for P which was often regarded to be immobile in groundwater until recently. Two chapters review the scientific literature regarding the impacts of groundwater on hydrology and nutrient budgets of lakes, respectively. They present mechanisms and processes of LGD as well as techniques and methods to measure LGD and related nutrient transports. Moreover, numbers of LGD volumes and loads reported in literature are presented.
The core of the present work is represented by two case studies dealing with the quantification of P loads from LGD to a lake in Germany. A combination of different methods is applied to overcome the problem of quantitative large scale LGD determination without losing local spatial information. P concentrations in groundwater and LGD are investigated by detailed spatial water sampling. The results reveal that P is actually present in concentrations far above natural background concentrations in the urban groundwater. LGD-derived P loads account for more than 50% of the overall external P loads to the lake and by that contribute significantly to lake eutrophication.
Three further studies are devoted to the development and improvement of approaches to determine LGD. Critical reviews of the above mentioned studies reveal the need for further research in order to standardize and improve methods for LGD and mass load determination. It is found that the appropriate method for LGD determination depends on the spatial scale of interest. The identification of P introduced by LGD as a main driver of lake eutrophication is an important finding which should encourage scientists, policy makers, and lake managers to consider groundwater as a relevant P source for lakes.
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Thermal stability of sub-Arctic highways : impacts of heat advection triggered by mobile water flow under an embankmentChen, Lin 09 1900 (has links)
Les infrastructures de transport est essentielle au maintien et à l'expansion des activités sociales et économiques dans les régions circumpolaires. À mesure que le climat se réchauffe, la dégradation du pergélisol sous les remblais a entraîné de graves dommages structuraux à la route, entraînant une augmentation importante des coûts d'entretien et une réduction de la durée de vie des infrastructures. Pendant ce temps, l'advection de chaleur déclenchée par les écoulements d’eau souterrains peut altérer le bilan énergétique du remblai et du pergélisol sous-jacent et modifier le régime thermique des remblais routiers. Cependant, peu de recherches ont été effectuées pour comprendre la synergie entre les processus thermiques de surface et souterrains des remblais routiers des régions froides. L'objectif de cette recherche était de comprendre les interactions thermiques entre l'atmosphère, le remblai routier, les écoulements d’eau et le pergélisol dans le contexte du changement climatique. Cette base, de connaissances est nécessaire pour la conception technique, l'entretien des routes et l'évaluation de la vulnérabilité des infrastructures.
Les travaux de recherche ont permis de développer de nouvelles méthodes d'analyse thermique pour caractériser et identifier le rôle de l'advection thermique sur le changement de température d'un remblai routier expérimental au Yukon (Canada) en termes d’intensité, de vitesse et de profondeur de l'impact thermique. Les résultats montrent que l'augmentation de la température due aux flux de chaleur advectifs déclenchés par l’écoulement d'eau peut être jusqu'à deux ordres de grandeur plus rapide qu'en raison du seul réchauffement atmosphérique.
La recherche a ensuite présenté un bilan énergétique de surface pour quantifier la quantité d'énergie entrant dans le centre et la pente du remblai avec des épaisseurs et des propriétés de neige variables. Le tout a été appuyé par des observations géothermique de plusieurs années et une grande quantité de données météorologiques. Les résultats illustrent que le bilan énergétique de surface est principalement contrôlé par le rayonnement net et moins par le flux de chaleur sensible. Le flux de chaleur transmis à la pente du remblai diminue de façon exponentielle avec l'augmentation de l'épaisseur de la neige et diminue de façon linéaire avec l’installation du couvert de neige et la longueur de la période d’enneigement.
De plus, un modèle de bilan énergétique de surface et un modèle cryohydrologique entièrement couplé ont été développés pour étudier l'impact thermique de l'advection de chaleur associée à l'écoulement de l'eau souterraine sur le dégel du pergélisol et le développement de taliks (c.-à-d. zone perpétuellement non gelée dans les zones de pergélisol). Le modèle couplé a réussi à reproduire la tendance à la hausse du plafond du pergélisol (erreur absolue moyenne <0,2 m) au cours de la période 1997-2018. Les résultats montrent que l'advection de chaleur a fourni une source d'énergie supplémentaire pour accélérer le dégel du pergélisol et a doublé le taux d’augmentation de l’épaisseur de la couche active 0,1 m·a-1 à 0,19 m·a-1, par rapport au scénario où aucun écoulement d'eau ne se produit. Le talik s'est initialement formé et développé en fonction du temps sous l’effet combiné des écoulement d’eau, de l'isolation de la neige, de la construction de la route et du réchauffement climatique. Le débit d'eau souterraine a relié des corps isolés de talik et a amené le remblai de la route dans un état thermique irréversible, en raison de la rétroaction de l'eau liquide (effet de chaleur latente) piégée dans le talik.
Ces résultats montrent l'importance de l'advection de chaleur induite par l'écoulement d'eau sur le régime thermique de la sous-couche (c.-à-d. la couche de matériau de remblai) et du sous-sol (c.-à-d. le matériau natif sous un remblai) du remblai lorsque le remblai routier intercepte le drainage local. De plus, les résultats obtenus soulignent la nécessité de coupler les processus thermiques de surface et souterrains dans le but d'évaluer la stabilité thermique des routes subarctiques. / Transportation infrastructure is crucial to maintaining and expanding the social and economic activities in circumpolar regions. As the climate warms, degradation of the permafrost causes severe structural damages to the road embankment, leading to large increases in maintenance costs and reductions in its lifespan. Meanwhile, heat advection triggered by mobile water flow can alter energy balance of the embankment and underlying permafrost and modify the thermal regime of road embankments. However, little research has been done to understand the synergy between surface and subsurface thermal processes of cold region road embankments. The overall goal of this research was to elucidate thermal interactions between the atmosphere, the road embankment, mobile water flow, and permafrost within the context of climate change. This knowledge is needed for engineered design, road maintenance, and infrastructure vulnerability assessment.
The research first used new thermal analysis to characterize and identify the role of heat advection on temperature change of an experimental road embankment, Yukon, Canada in terms of magnitude, rate and thermal impact depth. It shows that soil temperature increase due to advective heat fluxes triggered by mobile water flow can be up to two orders of magnitude faster than due to atmospheric warming only.
The research then presented a novel surface energy balance to quantify the amount of ground heat flux entering the embankment center and slope with varying snow depth and properties, supported by multi-year thermal and meteorological observations. My results illustrate that the surface energy budget is mainly controlled by net radiation, and less by the sensible heat flux. The ground heat flux released at embankment slope exponentially decreased with the increase of snow depth, and was linearly reduced with earlier snow cover and longer snow-covered period.
A fully integrated surface energy balance and cryohydrogeological model was implemented to investigate the thermal impact of heat advection associated with subsurface water flow on permafrost thaw and talik (i.e., perennially unfrozen zone in permafrost areas) development. The integrated model successfully reproduced the observed increasing trend of the active layer depth (mean absolute error < 0.2 m) over the 1997-2018 period. The results show that heat advection provided an additional energy source to expedite permafrost thaw, doubling the increasing rate of permafrost table depth from 0.1 m·a-1 to 0.19 m·a-1, compared with the scenario where no water flow occurs. Talik formation and development occurred over time under the combined effect of subsurface water flow, snow insulation, road construction and climate warming. Subsurface water flow connected isolated talik bodies and triggered an irreversible thermal state for the road embankment, due to a local feedback mechanism (latent heat effect) of trapped, unfrozen water in talik.
These findings elucidate the importance of heat advection induced by mobile water flow on the thermal regime of embankment subbase (i.e., a layer of fill material) and subgrade (i.e., the native material under an embankment) when the road embankment intercepts the local drainage. Furthermore, the obtained results emphasize the need to couple surface and subsurface thermal processes to evaluate the thermal stability of sub-Arctic roads.
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Hyperspectral Image Generation, Processing and AnalysisHamid Muhammed, Hamed January 2005 (has links)
<p>Hyperspectral reflectance data are utilised in many applications, where measured data are processed and converted into physical, chemical and/or biological properties of the target objects and/or processes being studied. It has been proven that crop reflectance data can be used to detect, characterise and quantify disease severity and plant density.</p><p>In this thesis, various methods were proposed and used for detection, characterisation and quantification of disease severity and plant density utilising data acquired by hand-held spectrometers. Following this direction, hyperspectral images provide both spatial and spectral information opening for more efficient analysis.</p><p>Hence, in this thesis, various surface water quality parameters of inland waters have been monitored using hyperspectral images acquired by airborne systems. After processing the images to obtain ground reflectance data, the analysis was performed using similar methods to those of the previous case. Hence, these methods may also find application in future satellite based hyperspectral imaging systems.</p><p>However, the large size of these images raises the need for efficient data reduction. Self organising and learning neural networks, that can follow and preserve the topology of the data, have been shown to be efficient for data reduction. More advanced variants of these neural networks, referred to as the weighted neural networks (WNN), were proposed in this thesis, such as the weighted incremental neural network (WINN), which can be used for efficient reduction, mapping and clustering of large high-dimensional data sets, such as hyperspectral images.</p><p>Finally, the analysis can be reversed to generate spectra from simpler measurements using multiple colour-filter mosaics, as suggested in the thesis. The acquired instantaneous single image, including the mosaic effects, is demosaicked to generate a multi-band image that can finally be transformed into a hyperspectral image.</p>
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Salvaging Wasted Waters for Desert-Household GardeningFink, D. H., Ehrler, W. L. 15 April 1978 (has links)
From the Proceedings of the 1978 Meetings of the Arizona Section - American Water Resources Assn. and the Hydrology Section - Arizona Academy of Science - April 14-15, 1978, Flagstaff, Arizona / With the objective of determining if sufficient water would be salvaged by a typical desert, urban-household from normally wasted sources associated with the lot and household to adequately irrigate a garden and orchard, a 2000 sq ft house on a typical one fifth acre lot in three cities having climates similar to Phoenix, Tucson, or Prescott, Arizona was hypothesized and the amount of water available for yard watering calculated, provided that (1) only rainfall was available, (2) rainfall-runoff from covered areas associated with or adjacent to the lot was salvaged (roof, street, alley etc.), (3) gray-water from the household was utilized, (4) a portion of the lot was waterproofed to concentrate the runoff on the untreated portion, and (5) various combinations of the above were utilized to increase the amount of available water. It is demonstrated that these sources could be used singly or in combination to obtain the required amount of water with the actual amount available depending upon the precipitation, runoff and runon areas, runoff efficiency of the contributing area, and the number of people in the household. A number of horticultural plants are suggested that should best fit such an irregular irrigation scheme.
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Développement de techniques analytiques pour la détermination des agents anti-infectieux dans les eaux environnementalesSegura, Pedro A. 08 1900 (has links)
Les agents anti-infectieux sont utilisés pour traiter ou prévenir les infections chez les humains, les animaux, les insectes et les plantes. L’apparition de traces de ces substances dans les eaux usées, les eaux naturelles et même l’eau potable dans plusieurs pays du monde soulève l’inquiétude de la communauté scientifique surtout à cause de leur activité biologique.
Le but de ces travaux de recherche a été d’étudier la présence d’anti-infectieux dans les eaux environnementales contaminées (c.-à-d. eaux usées, eaux naturelles et eau potable) ainsi que de développer de nouvelles méthodes analytiques capables de quantifier et confirmer leur présence dans ces matrices.
Une méta-analyse sur l’occurrence des anti-infectieux dans les eaux environnementales
contaminées a démontré qu’au moins 68 composés et 10 de leurs produits de
transformation ont été quantifiés à ce jour. Les concentrations environnementales varient
entre 0.1 ng/L et 1 mg/L, selon le composé, la matrice et la source de contamination. D’après cette étude, les effets nuisibles des anti-infectieux sur le biote aquatique sont possibles et ces substances peuvent aussi avoir un effet indirect sur la santé humaine à cause de sa possible contribution à la dissémination de la résistance aux anti-infecteiux chez les bactéries.
Les premiers tests préliminaires de développement d’une méthode de détermination
des anti-infectieux dans les eaux usées ont montré les difficultés à surmonter lors de
l’extraction sur phase solide (SPE) ainsi que l’importance de la sélectivité du détecteur.
On a décrit une nouvelle méthode de quantification des anti-infectieux utilisant la SPE en tandem dans le mode manuel et la chromatographie liquide couplée à la spectrométrie de masse en tandem (LC-MS/MS). Les six anti-infectieux ciblés (sulfaméthoxazole, triméthoprime, ciprofloxacin, levofloxacin, clarithromycin et azithromycin) ont été quantifiés à des concentrations entre 39 et 276 ng/L dans les échantillons d’affluent et d’effluent provenant d’une station d’épuration appliquant un traitement primaire et physico-
chimique. Les concentrations retrouvées dans les effluents indiquent que la masse
moyenne totale de ces substances, déversées hebdomadairement dans le fleuve St. Laurent,
était de ~ 2 kg.
En vue de réduire le temps total d’analyse et simplifier les manipulations, on a travaillé sur une nouvelle méthode de SPE couplée-LC-MS/MS. Cette méthode a utilisé une
technique de permutation de colonnes pour préconcentrer 1.00 mL d’échantillon dans une
colonne de SPE couplée. La performance analytique de la méthode a permis la
quantification des six anti-infectieux dans les eaux usées municipales et les limites de
détection étaient du même ordre de grandeur (13-60 ng/L) que les méthodes basées sur la
SPE manuelle.
Ensuite, l’application des colonnes de SPE couplée de chromatographie à débit
turbulent pour la préconcentration de six anti-infectieux dans les eaux usées a été explorée pour diminuer les effets de matrice. Les résultats obtenus ont indiqué que ces colonnes sont une solution de réchange intéressante aux colonnes de SPE couplée traditionnelles.
Finalement, en vue de permettre l’analyse des anti-infectieux dans les eaux de surface
et l’eau potable, une méthode SPE couplée-LC-MS/MS utilisant des injections de grand
volume (10 mL) a été développée. Le volume de fuite de plusieurs colonnes de SPE
couplée a été estimé et la colonne ayant la meilleure rétention a été choisie. Les limites de détection et de confirmation de la méthode ont été entre 1 à 6 ng/L. L’analyse des échantillons réels a démontré que la concentration des trois anti-infectieux ciblés (sulfaméthoxazole, triméthoprime et clarithromycine) était au dessous de la limite de détection de la méthode. La mesure des masses exactes par spectrométrie de masse à temps d’envol et les spectres des ions produits utilisant une pente d’énergie de collision inverse
dans un spectromètre de masse à triple quadripôle ont été explorés comme des méthodes de confirmation possibles. / Anti-infectives are used to treat or prevent infections in humans, animals, insects and
plants. The occurrence of traces of these substances in wastewaters, natural waters and even drinking water has caused concern among the scientific community especially because of their biological activiy.
The goal of this research was to study the occurrence of anti-infectives in contaminated
environmental waters (wastewaters, natural waters, and drinking water) and to develop new analytical methods able to quantitate and confirm their presence in these matrices.
A meta-analysis on the occurrence of anti-infectives in contaminated environmental
waters demonstrated that at least 68 parent compounds and 10 transformation products have
been quantified to date. Environmental concentrations vary between 0.1 ng/L and 1 mg/L depending on the compound, the matrix and the source of contamination. According to this study, detrimental effects of anti-infectives on aquatic biota are possible and these substances could also affect indirectly human health because of their possible contribution to the dissemination of antibiotic resistance in bacteria.
Preliminary tests on the development of a method of determination of anti-infectives in
wastewaters showed the main difficulties to overcome during solid-phase extraction (SPE)
as well as the importance of the detector selectivity.
A novel method of determination of anti-infectives was described using off-line
tandem SPE and liquid chromatography-tandem mass spectrometry (LC-MS/MS). Six
target anti-infectives (sulfamethoxazole, trimethoprim, ciprofloxacin, levofloxacin,
clarithromycin and azithromycine) were quantitated at concentrations between 39 and 276 ng/L in samples of influent and effluent collected from a primary and physico-chemical
wastewater treatement plant. Reported effluent concentrations indicate that the mean mass of these substances discharged daily in the St. Lawrence River was ~ 2 kg.
In order to reduce total analysis time and simplify sample preparation, a new on-line
SPE-LC-MS/MS was presented. This method used a column-switching technique to preconcentrate 1.00 mL of sample in an on-line SPE column. Method analytical
performance allowed the quantitation of six anti-infectives in municipal wastewaters and
limits of detection were of the same magnitude (13-60 ng/L) than methods based in offline SPE.
Next, the application of turbulent flow chromatography on-line SPE columns for the
preconcentration of six anti-infectives in wastewaters was explored. Results showed that
these columns are an interesting alternative to traditional on-line SPE columns.
Finally, in order to allow analysis of anti-infectives in surface and drinking water, we
developed an on-line SPE-LC-MS/MS method using large-volume injections (10 mL).
Breakthrough volumes of several on-line SPE columns were estimated and the column
having the best retention, Strata-X, was chosen. Method detection and confirmation limits were between 1 and 6 ng/L. Analysis of real samples indicated that the concentration of the three target anti-infectives (sulfamethoxazole, trimethoprim and clarithromycin) was lower that the method detection limits. Accurate mass measurement by time-of-flight mass spectrometry and product ion spectra obtained by a reversed-energy ramp in a triple quadrupole mass spectrometer were explored as alternative confirmation methods.
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Hyperspectral Image Generation, Processing and AnalysisHamid Muhammed, Hamed January 2005 (has links)
Hyperspectral reflectance data are utilised in many applications, where measured data are processed and converted into physical, chemical and/or biological properties of the target objects and/or processes being studied. It has been proven that crop reflectance data can be used to detect, characterise and quantify disease severity and plant density. In this thesis, various methods were proposed and used for detection, characterisation and quantification of disease severity and plant density utilising data acquired by hand-held spectrometers. Following this direction, hyperspectral images provide both spatial and spectral information opening for more efficient analysis. Hence, in this thesis, various surface water quality parameters of inland waters have been monitored using hyperspectral images acquired by airborne systems. After processing the images to obtain ground reflectance data, the analysis was performed using similar methods to those of the previous case. Hence, these methods may also find application in future satellite based hyperspectral imaging systems. However, the large size of these images raises the need for efficient data reduction. Self organising and learning neural networks, that can follow and preserve the topology of the data, have been shown to be efficient for data reduction. More advanced variants of these neural networks, referred to as the weighted neural networks (WNN), were proposed in this thesis, such as the weighted incremental neural network (WINN), which can be used for efficient reduction, mapping and clustering of large high-dimensional data sets, such as hyperspectral images. Finally, the analysis can be reversed to generate spectra from simpler measurements using multiple colour-filter mosaics, as suggested in the thesis. The acquired instantaneous single image, including the mosaic effects, is demosaicked to generate a multi-band image that can finally be transformed into a hyperspectral image.
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Dagvattnets föroreningar som potentiellt hot för en god ekologisk och kemisk status i ytvattnet : En kartläggning av Vallentuna tätorts dagvattenhantering utifrån dess tillsynsbehovWimmer, Ulrich January 2014 (has links)
The EU's Water Framework Directive aims to a long-term and sustainable use of our water resources and wants to ensure good water quality in Europe's water bodies. Discharge of polluted stormwater into receiving waters can be a threat to their ecological and chemical status. Municipalities are responsible for supervision of the environmental quality standards (EQS) and therefore need to gain knowledge of current stormwater management, the expected level of pollution emissions and possible appropriate purification steps to ensure that the goal of good water quality is achieved. This master thesis aims to provide this knowledge in the example case of Vallentunas urban area and wants to prepare future oversight so that it can be assessed how much the discharge of polluted stormwater into the local receiving water is a threat to its status. With the help of maps, aerial photographs, site observations and individual discussions those areas are mapped where appearance of moderate to highly polluted stormwater could be suspected. The degree of pollution at the discharge points is determined based on land use upstream and uses standard values according to the administrators assistance "Tillsyn av dagvatten" (MSL 2014). The study identifies 100 areas in need of supervision regarding their stormwater management. The information is digitized and made available to all affected departments in the municipality via the internal GIS. Through literature review this thesis highlights even the legal provisions for the supervision and its importance to the environmental quality standards and also consider the importance of the expected climate change for the stormwater pollution. The work emphasizes the importance of increased information flow and communication between the different actors that are significant for surface water management and environmental quality standards for water. For being able to look at the examination area from an international perspective the essay does a simpler comparison of the municipal supervision of stormwater management between Sweden and the state of Schleswig Holstein in Germany. / EU:s ramdirektiv för vatten syftar till ett långsiktigt och hållbart utnyttjande av våra vattenresurser och ska säkra en god vattenkvalitet i Europas vattenförekomster. Utsläpp av förorenat dagvatten till recipienterna kan vara ett hot för deras ekologiska och kemiska status. Kommunerna har tillsynsansvar för miljökvalitetsnormerna (MKN) och därför behov att få kunskap om nuvarande dagvattenhantering, förväntad föroreningsgrad av utsläppen och eventuella lämpliga reningsåtgärder för att säkerställa att målet med en god vattenkvalitet uppnås. Arbetets syfte är att hjälpa till att skaffa denna kunskap i exempelfallet Vallentuna tätort och förbereda framtida tillsyn så att det kan göras en bedömning av hur pass mycket utsläppet av förorenat dagvatten till den lokala recipienten är ett hot för dess status. Med hjälp av kartor, flygbilder, platsobservationer och enskilda samtal kartläggs områden där man kan förvänta sig uppkomsten av måttligt till starkt förorenat dagvatten. Föroreningsgraden vid utsläppspunkterna bestäms utifrån markanvändning uppströms och använder schablonvärden enligt handläggarstödet "Tillsyn av dagvatten" (MSL 2014). Undersökningen pekar ut 100 områden som har behov av tillsyn rörande deras dagvattenhantering. Informationen digitaliseras och görs tillgänglig för alla berörda enheter i kommunen via det interna GIS-systemet. Genom granskning av litteraturen belyses bl.a. även de rättsliga bestämmelserna för tillsynen och dess betydelse för miljökvalitetsnormerna samt att det tas hänsyn till förväntad klimatförändring. Arbetet betonar vikten av ett ökat informationsflöde och kommunikation mellan de olika aktörerna som har betydelse för dagvattenhanteringen och miljökvalitetsnormerna för vatten. För att se på uppsatsens undersökningsområde ur ett internationellt perspektiv görs även en enklare jämförelse av tillsynen för dagvattenhanteringen mellan Sverige och förbundslandet Schleswig Holstein i Tyskland.
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Groundwater chemistry and hydrological processes within a Quaternary coastal plain: Pimpama, Southeast QueenslandHarbison, John Edwin January 2007 (has links)
The Pimpama estuarine plain in subtropical southeast Queensland is comprised of Quaternary sediments infilling older bedrock. These multilayered unconsolidated sediments have various depositional origins, and are highly heterogeneous. The plain is low-lying and the surface drainage is controlled by flood mitigation measures including tidal gates and channelised streams. The control of surface drainage potentially affects the shallow water table. This modification of hydrology has implications for future viability of agriculture and also the environmental health of waterways. Increased landscape modification and water management is likely in the coming years. The combination of sediment heterogeneity, low hydraulic gradients, and artificial drainage modification result in the plain being hydrogeologically complex. In order to understand hydrologic processes in this setting, a multi-disciplinary research programme was conducted which included a drilling program, overland electromagnetic induction and other geophysical surveys (downhole gamma log, electromagnetic induction and magnetic susceptibility) to initially establish the geologic framework. These surveys were followed by hydrogeochemical testing which includes for major and minor ions and also stable isotopes, and mineralogical analysis of drillhole material. Underlying basement rock occurs at up to 60 m depth. Unconsolidated gravel and sand deposits occur within incised paleo-valleys and are overlain by predominantly low-permeability fluvial sandy clays and estuarine and lagoonal muds. Fine-grained delta sands occur in the top 15 m of the sub-surface. Within the unconsolidated sediments, hydrodynamic trends clearly discriminated between upper unconfined and lower semi-confined aquifer systems. A comparison of surface water and shallow groundwater levels indicate limited interaction of groundwater and surface water. Hydrogeochemical analysis effectively distinguished between groundwater bodies, and also distinguished saline groundwater from seawater. Trends in major ion chemistry in the semi-confined system (particularly Na/Cl and Ca/Cl ratios) showed ion exchange accompanying saline intrusion. However, due to factors such as mineral dissolution, major ion chemistry does not clearly identify solute flux trends in the shallow aquifer system. Water stable isotope analysis (δ18O and δ2H) indicated the provenance of fresh and saline groundwater and also the relative importance of the principal hydrologic processes, i.e. evaporation and water uptake by plants. Groundwater exhibited a wide range in salinity, from very fresh to hypersaline. The formation of hypersaline groundwater was attributed largely to uptake of water by mangrove forests. Since mangrove forests were more extensive at the time of the Holocene maximum sea level (approximately 6,000 years ago) than at present, some of this groundwater may represent relict salinity from this earlier time. The relationship of relict salinity to low permeability sediments, particularly at intermediate depths, and their depositional history was examined. Vertical salinity gradients and hydrogeochemistry within these sediments varied according to position within the plain, suggesting deposition under various hydrological and sea level regimes. A preliminary investigation using analysis of stable sulfate isotopes (δ34S and δ18OSO4) was made. This study shows substantial potential for the application of this technique for quantification of solute flux and sulfur chemical transformations within settings such as this coastal plain. To establish shallow groundwater flow processes, a MODFLOW-based numerical model was used to inversely estimate aquifer parameters under various recharge scenarios. The model was designed to examine the relative importance of evapotranspiration and discharge to surface waters. However, largely due to the complexity of the drainage network and non-uniform surface water flows, the quantification of surface water- groundwater interaction by consideration of hydrodynamics is problematic. Therefore, the chemistry of groundwater and surface water was compared. While the estimated contribution of rainfall to groundwater level fluctuations was significant (46%), high evapotranspiration rates reduced net recharge and it was concluded that baseflow to drains and creeks during dry periods was insignificant, and groundwater velocities in the shallow aquifer are low. The study illustrates the value of both hydrodynamic and hydrogeochemical analyses in estuarine settings where relict salinity and groundwater-aquifer interactions impact significantly on water quality. Saline groundwater is chemically distinct from theoretical mixtures of seawater and freshwater. The study also demonstrates the value of particular chemical parameters, e.g. Na/Cl and SO4/Cl ratios and stable water isotopes, for identifying hydrologic processes in this setting.
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