Global ETD Search

321	Comparison of geoenvironmental properties of caustic and noncaustic oil sand fine tailings Miller, Warren Gregory 11 1900 (has links) A study was conducted to evaluate the properties and processes influencing the rate and magnitude of volume decrease and strength gain for oil sand fine tailings resulting from a change in bitumen extraction process (caustic versus non-caustic) and the effect of adding a coagulant to caustic fine tailings. Laboratory flume deposition tests were carried out with the objective to hydraulically deposit oil sand tailings and compare the effects of extraction processes on the nature of beach deposits in terms of geometry, particle size distribution, and density. A good correlation exists between flume deposition tests results using oil sand tailings and the various other tailings materials. These comparisons show the reliability and effectiveness of flume deposition tests in terms of establishing general relationships and can serve as a guide to predict beach slopes. Fine tailings were collected from the various flume tests and a comprehensive description of physical and chemical characteristics of the different fine tailings was carried out. The characteristics of the fine tailings is presented in terms of index properties, mineralogy, specific surface area, water chemistry, liquid limits, particle size distribution and structure. The influence of these fundamental properties on the compressibility, hydraulic conductivity and shear strength properties of the fine tailings was assessed. Fourteen two meter and one meter high standpipe tests were instrumented to monitor the rate and magnitude of self-weight consolidation of the different fine tailings materials. Consolidation tests using slurry consolidometers were carried out to determine consolidation properties, namely compressibility and hydraulic conductivity, as well as the effect of adding a coagulant (calcium sulphate [CaSO4]) to caustic fine tailings. The thixotropic strength of the fine tailings was examined by measuring shear strength over time using a vane shear apparatus. A difference in water chemistry during bitumen extraction was concluded to be the cause of substantial differences in particle size distributions and degree of dispersion of the comparable caustic and non-caustic fine tailings. The degree of dispersion was consistent with predictions for dispersed clays established by the sodium adsorption ratio (SAR) values for these materials. The biggest advantage of non-caustic fine tailings and treating caustic fine tailings with coagulant is an increased initial settlement rate and slightly increased hydraulic conductivity at higher void ratios. Thereafter, compressibility and hydraulic conductivity are governed by effective stress. The chemical characteristics of fine tailings (water chemistry, degree of dispersion) do not have a significant impact on their compressibility behaviour and have only a small influence at high void ratio (low effective stress). Fine tailings from a caustic based extraction process had relatively higher shear strengths than comparable non-caustic fine tailings at equivalent void ratios. However, shear strength differences were small and the overall impact on consolidation behaviour, which also depends on compressibility and hydraulic conductivity, is not expected to be significant. oil sands fine tailings water chemistry compressibility hydraulic conductivity consolidation large strain void ratio settlement effective stress dispersion coagulant sodium adsorption ratio caustic noncaustic shear strength vane shear thixotropy thixotropic strength particle size distribution fines content structure flocculation index properties specific surface area hydraulic deposition flume tests beach slope flow rate slurry concentration self weight consolidation geoenvironmental properties bitumen extraction
322	Competitive Groundwater Usage from the Navajo Sandstone Doye, F. H., Roefs, T. G. 05 May 1973 (has links) From the Proceedings of the 1973 Meetings of the Arizona Section - American Water Resources Assn. and the Hydrology Section - Arizona Academy of Science - May 4-5, 1973, Tucson, Arizona / Groundwater modeling is used to theoretically relate mining pumpage of the Navajo Sandstone to declines in the potentiometric surface at Navajo and Hopi Indian community, domestic, and stock usage locations. The shallow wells on top of Black Mesa are shown to be part of a perched water table condition which is dependent upon the hydraulic conductivity of an aquatard known as the Mancos Shale. The isolation of the aquatard allows the shallow wells to be treated as a problem separate from that of the artesian and recharge areas. Computer modeling of the groundwater system is concerned only with those Indian wells which directly tap the Navajo Sandstone in either artesian or free water table areas. The computer simulation developed is a modified version of the basic artesian aquifer routine used by the Illinois State Water Survey. Computer results correspond with the low percentage of storage withdrawal calculated for the artesian area under Black Mesa. Hydrology -- Arizona. Water resources development -- Arizona. Hydrology -- Southwestern states. Groundwater Pumping Computer models Sandstones Drawdown Arizona Aquifers Wells Water table Hydraulic conductivity Artesian aquifers Groundwater recharge Potentiometric level Artesian head Simulation analysis Navajo sandstone groundwater (Ariz) Slurry pumping
323	Experimentelle Untersuchung der Wasseraufnahme und der hydraulischen Eigenschaften des Wurzelsystems von sechs heimischen Baumarten / Experimental investigation of water uptake and hydraulic properties of the root system of six European tree species Korn, Sandra 25 June 2004 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Wurzel Saftfluss Wasseraufnahme in situ-Saftflussmessung Altbäume Mischwald hydraulische Leitfähigkeit root sap flow water uptake in situ-sap flow measurement old-growth trees mixed forest hydraulic conductivity 42.44 42.41
324	Effects of experimental drought on hydraulic properties and leaf traits of upper canopy and understory tree species in a perhumid tropical forest in Central Sulawesi, Indonesia / Über den Einfluss experimenteller Trockenheit auf hydraulische Eigenschaften und Blattmerkmale von über- und unterständigen Baumarten in einem immerfeuchten tropischen Primärwald in Zentral Sulawesi, Indonesien Schuldt, Bernhard 28 October 2010 (has links) No description available. 570 Biowissenschaften, Biologie Biology (incl. Psychology) Tropischer Regenwald Austrocknungsexperiment Trockenstress hydraulische Leitfähigkeit hydraulische Architektur Blattmorphologie Saftfluss Baumhöhe Gefäßanatomie Holzdichte Tropical primary forest throughfall displacement experiment drought stress hydraulic conductivity hydraulic architecture leaf morphology sap flow tree height vessel anatomy wood density 42 W 000
325	Comparison of geoenvironmental properties of caustic and noncaustic oil sand fine tailings Miller, Warren Gregory Unknown Date No description available. oil sands fine tailings water chemistry compressibility hydraulic conductivity consolidation large strain void ratio settlement effective stress dispersion coagulant sodium adsorption ratio caustic noncaustic shear strength vane shear thixotropy thixotropic strength particle size distribution fines content structure flocculation index properties specific surface area hydraulic deposition flume tests beach slope flow rate slurry concentration self weight consolidation geoenvironmental properties bitumen extraction
326	Intra- and interspecific variation of functional traits, growth performance and belowground competition in <i>Populus</i> species Hajek, Peter 27 March 2014 (has links) No description available. 333 577 Populus tremula Populus tremuloides Fine root morphology Genetic variation Intraspecific variation Relative growth rate Root tissue density Specific root area Asymmetric competition Pioneer roots Root age Fine root morphology Root order Genetic variability Vulnerability to cavitation P50 Hydraulic conductivity High conductivity roots Coarse root anatomy Branch xylem anatomy Vessel diameter Relative growth rate Poplar Ökologie {Biologie} (PPN619463619)
327	The dynamic interplay of mechanisms governing infiltration into structured and layered soil columns Carrick, Sam January 2009 (has links) Worldwide there is considerable concern over the effects of human activities on the quantity and quality of freshwater. Measurement of infiltration behaviour will be important for improving freshwater management. This study identifies that New Zealand has a sporadic history of measuring soil water movement attributes on a limited number of soil types, although the current practical demand should be large for management of irrigation, dairy farm effluent disposal, as well as municipal / domestic waste- and storm-water disposal. Previous research has demonstrated that infiltration behaviour is governed by the interplay between numerous mechanisms including hydrophobicity and preferential flow, the latter being an important mechanism of contaminant leaching for many NZ soils. Future characterisation will need to recognise the dynamic nature of these interactions, and be able to reliably characterise the key infiltration mechanisms. Since macropores are responsible for preferential flow, it is critical that infiltration studies use a representative sample of the macropore network. The aim of this project was to study the mechanisms governing the infiltration behaviour of a layered soil in large (50 x 70 cm) monolith lysimeters, where the connectivity of the macropore network remains undisturbed. Four lysimeters of the Gorge silt loam were collected, a structured soil with four distinct layers. On each lysimeter there were four separate infiltration experiments, with water applied under suctions of 0, 0.5, 1, and 1.5 kPa by a custom-built tension infiltrometer. Each lysimeter was instrumented with 30 tensiometers, located in arrays at the layer boundaries. There was also a field experiment using ponded dye infiltration to visually define preferential flowpaths. Analysis of dye patterns, temporal variability in soil matric potential (Ψm), and solute breakthrough curves all show that preferential flow is an important infiltration mechanism. Preferential flowpaths were activated when Ψm was above -1.5 kPa. During saturated infiltration, at least 97% of drainage was through the ‘mobile’ pore volume of the lysimeter (θm), estimated among the lysimeters at 5.4 – 8.7 % of the lysimeter volume. Early-time infiltration behaviour did not show the classical square-root of time behaviour, indicating sorptivity was not the governing mechanism. This was consistent across the four lysimeters, and during infiltration under different surface imposed suctions. The most likely mechanism restricting sorptivity is weak hydrophobicity, which appears to restrict infiltration for the first 5 – 10 mm of infiltration. Overall, the Gorge soil’s early-time infiltration behaviour is governed by the dynamic interaction between sorptivity, hydrophobicity, the network of air-filled pores, preferential flow and air encapsulation. Long-time infiltration behaviour was intimately linked to the temporal dynamics of Ψm, which was in turn controlled by preferential flow and soil layer interactions. Preferential flowpaths created strong inter-layer connectivity by allowing an irregular wetting front to reach lower layers within 2 – 15 mm of infiltration. Thereafter, layer interactions dominate infiltration for long-time periods, as Ψm in soil layers with different K(Ψm) relationships self-adjusts to try to maintain a constant Darcy velocity. An important finding was that Ψm rarely attained the value set by the tension infiltrometer during unsaturated infiltration. The results show that ‘true’ steady-state infiltration is unlikely to occur in layered soils. A quasi-steady state was identified once the whole column had fully wet and layer interactions had settled to where Ψm changes occurred in unison through each soil layer. Quasi-steady state was difficult to identify from just the cumulative infiltration curve, but more robustly identified as when infiltration matched drainage, and Ψm measurements showed each layer had a stable hydraulic gradient. I conclude that the in-situ hydraulic conductivity, K(Ψm), of individual soil layers can be accurately and meaningfully determined from lysimeter-scale infiltration experiments. My results show that K(Ψm) is different for each soil layer, and that differences are consistent among the four lysimeters. Under saturated flow the subsoil had the lowest conductivity, and was the restricting layer. Most interestingly this pattern reversed during unsaturated flow. As Ψm decreased below -0.5 to -1 kPa, the subsoil was markedly more conductive, and the topsoil layers became the restricting layers. All four soil layers demonstrate a sharp decline in K(Ψm) as Ψm decreases, with a break in slope at ~ -1 kPa indicating the dual-permeability nature of all layers. infiltration layered soil preferential flow sorptivity hydraulic conductivity hydrophobicity dual-permeability mobile water content lysimeter tension infiltrometer
328	Sistema pedológico em um ambiente antropizado da depressão central do RS Uhde, Leonir Terezinha 28 August 2009 (has links) The present work was accomplished in a slope with a pedological system composed of Red Argisol/Gleysol, in a pasture area located in an unit of agricultural production in the municipal district of Santa Maria - RS. It aimed at the characterization morphologic and the physic-hydrical and the discretization of the variability of the loss of soil of the slope. Thirteen aligned profiles were selected in a toposequency, of a total of 57, reconstituted by the polls method. After description the approach of the pedologic system in the thirteen profiles, considering the vertical and lateral succession of the verified horizons, the samples were collected for the chemical and physical-hydrical determinations in laboratory (texture, densities, porosities, retention hydrical and availability of water, saturated hydraulic conductivity and permeability to the air), in three sampling orientations. Furthermore, the soil losses were estimated through the coupling of the Universal Equation of Loss of the Soil - RUSLE, in SIG atmosphere. In the toposequency, three profiles were classified as Gleysol and the others as Red Argisol. Argisols and Gleysols presented variated chemical and physical limitations, producing strong use limitation. The horizons Bt in Argissolos are found in different depths in the studied profiles, implicating different behaviors, depending on the thickness of the horizons upper (suprajacente) The physical-hydrical dynamics of the system is marked by a different behavior among the surface (loam) and the subsurface (clayer), and it should be understood, considering the group of the horizons of each profile, to predict the physical-hydrical behavior of the soil. The saturated hydraulic conductivity of the soil presented a variation along the horizons of the soil profiles in different positions of the landscape, with great differences among the values observed in surface in relation to the ones of the subsurface, identifying the existence of a lateral flow of water in the soil, mainly in the portion of the hillside and its space variation in a topographical sequence. In the podzolic cover, the blockade of vertical drainage occurs in the top of the horizon Bt, generating a more humid zone above. The smallest retention of water in all the profiles occured in the loam horizons, Ap and A1, in all the tensions, while in the deepest horizons, Bt1 and Bt2, there was a larger retention as a consequence of the decrease of the sand tenor and increase of the clay tenor. The transition horizons, AB and BA, presented an intermediate behavior. The available water in the soil for the plants was influenced directly by the texture, which increased with the increment of the sand fraction and it decreases with the increase of the clay fraction. With the drier of the soil the permeability to the air tends to increase due to the drainage of the water of the pores which start to conduct air, being highly dependent of the macroporosity. The animal trampling and the preparation operations promoted an increase of the soil density, resulting in the reduction of the total porosity and of the macroporosity and consequently an increase in the microporosity in the horizons Ap and A1, which suffer the direct effects of the anthropic activity. The methodology application that engagement RUSLE in atmosphere SIG, allowed the discretization of the space variability of the factors that determine the losses, as well as the soil losses in a slope of the Central Depression of RS. / O presente trabalho foi realizado em uma vertente com sistema pedológico composto de Argissolo/Gleissolo, em área de pastagem, localizada em uma unidade de produção agropecuária, no município de Santa Maria RS. Objetivou-se, a caracterização morfológica e físico-hídrica e a discretização da variabilidade das perdas de solo da vertente. Foram selecionados treze perfis alinhados em uma topossequência, de um total de 57, descritos pelo método de tradagem. Após abordagem morfológica do sistema pedológico nos treze perfis, considerando a sucessão vertical e lateral, dos horizontes constatados, procederam-se as coletas de amostras para as determinações químicas e análise granulométricas, e em três orientações de amostragem as determinações físicohídricas (densidades, porosidades, retenção hídrica, condutividade hidráulica do solo saturado e permeabilidade ao ar). Além disso, foi estimada as perdas de solo através do acoplamento da Equação Universal de Perda do Solo RUSLE, em ambiente SIG. Na topossequência, três perfis foram classificados como Gleissolo e os demais como Argissolo Vermelho. Os Gleissolos apresentaram limitações variadas decorrentes do excesso de água e os Argissolos limitações químicas e físicas. O horizonte Bt nos Argissolos, encontra-se em profundidades variadas nos perfis estudados, implicando comportamentos distintos, dependendo da espessura do (s) horizontes (s) suprajacente (s). A dinâmica físico-hídrica do sistema, caracteriza-se por um comportamento distinto entre a superfície (textura média) e a subsuperfície (textura argilosa) devendo ser compreendida, considerando o conjunto dos horizontes de cada perfil, para predizer o comportamento físico-hídrico do solo. A condutividade hidráulica do solo apresentou variação ao longo dos horizontes dos perfis de solo em diferentes posições da paisagem, ocorrendo grandes diferenças entre os valores observados em superfície em relação a subsuperfície, identificando-se a existência de fluxo lateral de água no solo, principalmente, na porção da encosta e a sua variação espacial em uma sequência topográfica. Na cobertura argissólica, o bloqueio de drenagem vertical ocorre no topo do horizonte Bt, originando acima deste uma zona mais úmida. A menor retenção de água em todos os perfis ocorreu nos horizontes com textura média, Ap e A1, em todas as tensões, enquanto que nos horizontes mais profundos, Bt1 e Bt2, houve maior retenção, como consequência da diminuição do teor de areia e aumento do teor de argila. Os horizontes de transição, AB e BA, apresentaram um comportamento intermediário. A água disponível no solo para as plantas foi influenciada diretamente pela granulometria, aumentando nos horizontes com maior percentual de areia e diminuindo com o aumento da fração argila. Com o secamento do solo a permeabilidade ao ar tende a aumentar devido à drenagem da água dos poros os quais passam a conduzir maior quantidade de ar, sendo altamente dependente dos macroporos. O pisoteio animal e as operações de preparo promoveram aumento da densidade do solo, resultando na redução da porosidade total e da macroporosidade e consequentemente um aumento na microporosidade nos horizontes Ap e A1, os quais sofrem os efeitos diretos das atividades antrópicas. A aplicação de metodologia que acopla a RUSLE em ambiente SIG, permitiu a discretização da variabilidade espacial dos fatores que influenciam as perdas, bem como as perdas de solo de uma vertente da Depressão Central do RS. Pastagem Propriedades físico-hídricas Fluxos hídricos Retenção de água no solo Permeabilidade ao ar RUSLE Pasture Physical-hydrical properties Water fluxes Soil water retention Permeability to the air RUSLE
329	Etude de la variabilité des propriétés physiques et hydrodynamiques d'un sol argileux sous l'effet de conduites en protection intégrée contre les adventices / Study of the variability of physique and hydrodynamique properties of a clayey soil under the effect of Integrated Weed Management in cropping systems Ugarte Nano, Claudia Carolina 03 March 2015 (has links) Les systèmes de culture en Protection Intégrée de Cultures contre les adventices (systèmes PIC-adventices) sont d’un grand intérêt pour réduire significativement l’utilisation des herbicides en les substituant par une combinaison complexe de différentes techniques culturales. L’objectif principal de notre travail a été de contribuer au volet environnemental de l’évaluation multicritère des systèmes PIC-adventices mis en place depuis 2000 sur le domaine expérimental de l’INRA à Bretenière (21). La variabilité des propriétés physiques et hydrodynamiques qui interviennent dans le transfert de l’eau dans le sol a été étudiée dans les 5 systèmes de culture présents sur le site (1 système de référence et 4 systèmes PIC-adventices). Le premier volet du travail a consisté à étudier la rétention de l’eau dans la couche du sol travaillée dans les 5 systèmes de culture. La rétention de l’eau a été comparée dans des échantillons de sol dont la structure a été soit « conservée », soit « remaniée » afin d’identifier la part de la variabilité liée aux caractéristiques physiques intrinsèques du sol de celle induite par les pratiques culturales. Les résultats ont montré que le sol du système de culture avec suppression totale des herbicides, associant une teneur élevée en argile, une teneur moyenne en C organique et un travail superficiel intensif, présentait les valeurs les plus élevées de rétention de l’eau dans la couche de sol travaillée. Le second volet a porté sur l’étude de la variabilité de la conductivité hydraulique proche de la saturation, K(h), aux échelles de l’année culturale et du profil du sol. Pour cette étude, 3 systèmes PIC-adventices (système de culture en semis direct et systèmes de culture avec travail du sol modéré à intensif) ont été caractérisés pendant 2 ou 3 années culturales consécutives, en considérant 3 profondeurs de sol incluant la couche du sol travaillée et l’horizon sous-jacent. Les résultats n’ont montré aucune variabilité de K(h) à l’échelle verticale. Par contre, ils ont mis en évidence les effets à long terme des systèmes PIC-adventices sur les valeurs de K(h). Enfin, le dernier volet a étudié la dynamique de l’eau dans le sol de 2 systèmes PIC-adventices contrastés (système avec conduite du sol en semis direct et système sans herbicide avec travail du sol intensif) en suivant une approche d’hydraulique agricole et par le biais de la caractérisation in situ du potentiel matriciel de l’eau dans le sol et de la mesure des quantités d’eau collectée au moyen de lysimètres à mèche. L’approche utilisée a permis la description de la dynamique de l’eau du sol pendant la période de drainage, la validation du fonctionnement des lysimètres à mèche et le calcul de la surface de sol équivalente qui contribuait au transfert de l’eau dans ces dispositifs. Ces premiers résultats prometteurs nécessiteront néanmoins d’être validés au cours de prochaines campagnes de mesure. L’ensemble des résultats recueillis constituent une première évaluation du fonctionnement physique et hydrodynamique du sol des systèmes PIC-adventices présents sur le dispositif expérimental. La base de données constituée permettra ultérieurement la poursuite du travail engagé en modélisant le transfert de l’eau, de solutés, de pesticides ou d’autres polluants dans le sol de ces systèmes PIC-adventices. / Integrated weed management (IWM)-based cropping systems are of great interest due to their significant reduction of herbicide inputs by using a complex combination of agricultural techniques. The main objective of our work was to contribute to the environmental dimension of the multi-criteria evaluation of IWM-based cropping systems which were set up since 2000 on the experimental domain of the National Institute for Agronomical Research (INRA) to Bretenière (France). The variability of physical and hydrodynamic soil properties involved in the transfer of water through the vadose zone was studied for the 5 cropping systems present on the experimental site (1 reference cropping system and 4 IWM-based cropping systems). The first section of our study consisted in studying the water retention of the tilled soil layers for the 5 cropping systems. Water retention values were compared between undisturbed and repacked soil samples in order to distinguish the part of the variability due to the intrinsic soil properties from the one induced by the agricultural practices. Our results show that the soil from cropping system without any herbicides, associating high clay content, average organic C content and intensive superficial tillage, may increase soil water retention in the tilled soil layer. The second section carried on the study of the annual and vertical variability of the near-saturated hydraulic conductivity, K(h). For this study, 3 IWM-based cropping systems (no-tilled cropping system and moderate to intensive tilled cropping systems) were characterized during 2 or 3 consecutive years and considering 3 depths including the soil tilled layer and the underlying no-tilled layer. The results showed no vertical variability of K(h). However, they highlighted the long-term effect of IWM-based cropping systems on K(h). Finally, the third section studied the soil water dynamics of 2 contrasted IWM-based cropping systems (no-tilled and zero herbicide cropping systems with intensive tillage) by using ,a hydraulic agricultural approach and by the means of the in situ characterization of soil matric potential and the measure of the amounts of water collected with wick lysimeters. This approach allowed the description of the water dynamics during the drainage season, the validation of the wick lysimeters functioning and the calculation of the surface contributing to water flows collected by the wick lysimeters. These promising results will need to be validated during forthcoming campaigns of measurement. All data collected provided constitute a first evaluation of the soil physical and hydraulic functioning of IWM-based cropping systems present on the experimental site. The established database will allow later the pursuit of work by modeling the water transfer and the transport of solutes, pesticides or other pollutants through the vadose zone of these IWM-based cropping systems. Système de culture Sol argilo-limoneux gonflant Travail du sol Caractérisation in situ Rétention de l’eau Potentiel matriciel Conductivité hydraulique Dynamique de l’eau Profil hydrique Variabilité spatiale et temporelle Cropping system Integrated weed management Silty clay loam soil Swelling soil Tillage In situ characterization Water retention Hydraulic potential Hydraulic conductivity Water dynamics Soil hydraulic profile Spatial and temporal variability 570 632 577.3
330	Účinky hospodaření s půdou na kvalitu půdy v blízkosti obce Šardičky / Effects of soil management on soil quality near Šardičky village Schneiderová, Šárka January 2019 (has links) This diploma thesis is focused on influence of reduced tillage technology of soil processing on it´s near-surface soil layer (0 to 10 cm). The research was carried out on agricultural land near Šardičky village, where company ZEMO spol. s r.o. provides long-term use of reduced tillage technology. In 2016 the soil quality in this site was evaluated by using physical and hydrophysical parameters, results are presented in the previous bachelor thesis "Selected hydrophysical parameters as indicators of soil quality.". In diploma thesis in addition chemical and other hydrophysical properties have been evaluated to provide a comprehensive assessment of soil quality. In 2016, poppy seed was grown on this site and spring barley was grown in 2017 and 2018. Grab samples and intact soil cores were taken during the vegetation period of the crop. After three years of experimental research, in which I participated, it is possible to assess the development of individual parameters and the influence of reduced tillage technology on near-surface soil layer. The theoretical part of the diploma thesis deals with the description of the reduced tillage technology and problematics of the determination of soil parameters, which are used for evaluation of the quality of the near-surface layer. The practical part deals with evaluation of these parameters according to various authors and describes the development of soil quality during years 2016, 2017 and 2018.

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