Spelling suggestions: "subject:"urban catchment""
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Geospatial Analysis to Site Urban AgricultureParece, Tammy E. 17 March 2016 (has links)
The rapid expansion of urban systems in both area and population represents the most significant landuse/landcover change occurring in the world today. Urbanization is often accompanied by increasing environmental degradation. This degradation is related to stormwater runoff, air temperatures greater than surrounding rural areas, increased air and water pollution, losses of vegetated lands, and lack of access to sufficient and healthy foods in lower-income areas. Urban agriculture (UA), a practice long established in previous eras but neglected for many decades, can mediate such concerns by providing greenspaces to improve ecosystem services. Successful practice of UA requires recognition of interactions between social and environmental patterns. Neglect of these interactions leads to failure in spatially integrating social and environmental dimensions of the urban landscape, limiting the success of UA. This study investigates siting of UA within Roanoke, Virginia, a compact urban region characterized by social and environmental conditions that can be addressed by effective siting and practice of UA.
This research takes a broader perspective than prior studies on UA and urban greenspaces. It proposes innovative applications of geospatial technologies for urban assessment. Studies on UA have typically focused on food insecurity, while studies on greenspaces focus on parks and tree canopy cover, without investigating interactions that promote synergies between these two efforts. Research over the past few years is now recognizing potential contributions for urban agriculture to alleviate environmental issues such as stormwater runoff, soil infertility, and the urban heat island effect. Little of this research has been devoted to the actual siting of urban agriculture to specifically alleviate both socio-economic and environmental issues. This research applies geospatial technologies to evaluate spatial patterns characterizing both environmental and socio-economic disparities within the City of Roanoke, Virginia. This approach has identified specific locations that are open and available for urban agriculture, and has appraised varying levels of socio-economic and environmental parameters. This research identified, at the census block group level, areas with varying levels of degradation. Thus, those locations in which a new urban agriculture greenspace can contribute to both socio-economic and environmental reparation. This research has identified spatial dimensions in which UA will assist in restoring ecosystem services to guide various food production activities. These results can be generalized to other urban locations and contribute to efficient use of urban land and space, improving the three pillars of worldwide sustainability – economic, environment, and social. / Ph. D.
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Identification of Hydrologic Models, Inputs, and Calibration Approaches for Enhanced Flood ForecastingAwol, Frezer Seid January 2020 (has links)
The primary goal of this research is to evaluate and identify proper calibration approaches, skillful hydrological models, and suitable weather forecast inputs to improve the accuracy and reliability of hydrological forecasting in different types of watersheds. The research started by formulating an approach that examined single- and multi-site, and single- and multi-objective optimization methods for calibrating an event-based hydrological model to improve flood prediction in a semi-urban catchment. Then it assessed whether reservoir inflow in a large complex watershed could be accurately and reliably forecasted by simple lumped, medium-level distributed, or advanced land-surface based hydrological models. Then it is followed by a comparison of multiple combinations of hydrological models and weather forecast inputs to identify the best possible model-input integration for an enhanced short-range flood forecasting in a semi-urban catchment. In the end, Numerical Weather Predictions (NWPs) with different spatial and temporal resolutions were evaluated across Canada’s varied geographical environments to find candidate precipitation input products for improved flood forecasting.
Results indicated that aggregating the objective functions across multiple sites into a single objective function provided better representative parameter sets of a semi-distributed hydrological model for an enhanced peak flow simulation. Proficient lumped hydrological models with proper forecast inputs appeared to show better hydrological forecast performance than distributed and land-surface models in two distinct watersheds. For example, forcing the simple lumped model (SACSMA) with bias-corrected ensemble inputs offered a reliable reservoir inflow forecast in a sizeable complex Prairie watershed; and a combination of the lumped model (MACHBV) with the high-resolution weather forecast input (HRDPS) provided skillful and economically viable short-term flood forecasts in a small semi-urban catchment. The comprehensive verification has identified low-resolution NWPs (GEFSv2 and GFS) over Western and Central parts of Canada and high-resolution NWPs (HRRR and HRDPS) in Southern Ontario regions that have a promising potential for forecasting the timing, intensity, and volume of floods. / Thesis / Doctor of Philosophy (PhD) / Accurate hydrological models and inputs play essential roles in creating a successful flood forecasting and early warning system. The main objective of this research is to identify adequately calibrated hydrological models and skillful weather forecast inputs to improve the accuracy of hydrological forecasting in various watershed landscapes. The key contributions include: (1) A finding that a combination of efficient optimization tools with a series of calibration steps is essential in obtaining representative parameters sets of hydrological models; (2) Simple lumped hydrological models, if used appropriately, can provide accurate and reliable hydrological forecasts in different watershed types, besides being computationally efficient; and (3) Candidate weather forecast products identified in Canada’s diverse geographical regions can be used as inputs to hydrological models for improved flood forecasting. The findings from this thesis are expected to benefit hydrological forecasting centers and researchers working on model and input improvements.
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Pour une analyse des impacts du changement climatique sur l’hydrologie urbaine : Modélisation hydro-microclimatique de deux bassins versants expérimentaux de l'agglomération nantaise / For an impact analysis of climate change on urban hydrology : Hydro-microclimate modelling on two experimental catchments in the urban area of NantesStavropulos-Laffaille, Xenia 31 January 2019 (has links)
L'adaptation des villes au changement climatique constitue un enjeu majeur des politiques d’aménagement. Promouvoir l'intégration des infrastructures vertes et bleues dans l'environnement urbain entant que stratégies d'adaptation implique ainsi de comprendre leurs impacts sur les bilans en eau et en énergie. Un modèle hydro microclimatique,TEB-Hydro, a préalablement été développé en tenant compte du couplage détaillé des deux bilans. Cependant, des études récentes ont mis en cause la représentation des processus hydrologiques en sous-sol urbain. Ainsi, ce travail de thèse consiste à améliorer la composante hydrologique du modèle (drainage de l’eau du sol par les réseaux, écoulements souterrains vertical et latéral). Après calage,une évaluation hydrologique est réalisée sur deux bassins versants urbains de Nantes. Dans les deux cas, le calage fait ressortir la même configuration de simulation, malgré des morphologies différentes, ce qui est encourageant pour des applications du modèle en projection climatique. L’évaluation hydrologique met en avant les paramètres clés du modèle et démontre une amélioration du processus de l’infiltration de l’eau du sol dans le réseau d’assainissement. L’évaluation hydro-énergétique du modèle démontre une représentation satisfaisante des flux de chaleur sensible et latente. Le fonctionnement du modèle vis-à-vis de l’évapotranspiration est discuté via le prisme de la végétation et de la morphologie urbaine. Une première application de TEB-Hydro en contexte de changement climatique permet d’évaluer une méthode statistique existante de désagrégation et soulève la problématique de la représentation de la dynamique pluviométrique dans ce contexte. / Adapting growing cities to climate change is a major challenge in planning policy. Promoting the integration of green and blue infrastructures in the urban environment as adaptation strategies implies understanding their impacts on both the urban hydrological and energy balance. A hydro-microclimate model,TEB-Hydro, was developed previously, taking into account detailed coupling between the two balances. However, first model evaluation studies on different urban catchments have questioned the representation of the hydrological processes in the urban subsoil. This PhD work consists of performing new developments on the models hydrological component (soil-water drainage by sewer networks, vertical and lateral subsoil flows). After calibration a hydrological evaluation is performed on two urban catchments in Nantes. In both cases, the calibration brings out the same simulation configuration, despite different catchment related properties. This is encouraging for applying the model on climate projection. The hydrological evaluation highlights the model key parameters as well as shows improvements concerning sewer soilwater infiltration processes. In addition, a hydro-energetic evaluation shows a satisfactory representation of sensible and latent heat fluxes. The model operation vis-à vis evapotranspiration processes is discussed through vegetation and urban morphology. A first application of TEB-Hydro in climate change context enables evaluating an existing statistical disaggregation method as well as raises the problematic in representing rainfall dynamics for climate projection purposes.
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Caracterização da qualidade das águas fluviais em meios peri-urbanos: o caso da bacia hidrográfica do Rio Morto - RJ. / Fluvial water quality characterization in peri-urban environments: the case study of Morto River catchment, RJ, Brazil.Ivan Santos Mizutori 27 March 2009 (has links)
Esta dissertação apresenta os resultados do estudo de monitoramento da qualidade de água na região hidrográfica da Baixada de Jacarepaguá através de coletas e posterior análise laboratorial realizadas na bacia hidrográfica experimental e representativa do Rio Morto. A bacia possui características predominantes peri-urbanas. / This thesis presents the results of the monitoring study of water quality in the river basin district of Jacarepagua marshland through collections and further laboratory analysis conducted in experimental and representative basin of the Dead River. The basin has peri- urban predominant features .
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Caracterização da qualidade das águas fluviais em meios peri-urbanos: o caso da bacia hidrográfica do Rio Morto - RJ. / Fluvial water quality characterization in peri-urban environments: the case study of Morto River catchment, RJ, Brazil.Ivan Santos Mizutori 27 March 2009 (has links)
Esta dissertação apresenta os resultados do estudo de monitoramento da qualidade de água na região hidrográfica da Baixada de Jacarepaguá através de coletas e posterior análise laboratorial realizadas na bacia hidrográfica experimental e representativa do Rio Morto. A bacia possui características predominantes peri-urbanas. / This thesis presents the results of the monitoring study of water quality in the river basin district of Jacarepagua marshland through collections and further laboratory analysis conducted in experimental and representative basin of the Dead River. The basin has peri- urban predominant features .
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