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The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
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Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
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Showing 511 to 520 of 545 (0.022 seconds)| 511 |
Thickwood2015 September 1900 (has links)
My thesis is a novel-length work of historical fiction entitled Thickwood. The novel can be situated within the context of great/interior plains literature, given its substantial focus on the Thickwood Hills, the northern remnant of the Missouri Coteau. This transition zone between the plains and the mixed boreal forest is an area of geographical and cultural tension. Within this drainage system of the Saskatchewan Rivers, Europeans traded for food and furs with First Nations and Métis peoples, leading to the signing of Treaty 6 and the formation of First Nations Reserves. In Thickwood characters travel across the rugged landscape but also travel into their interior landscape to struggle with questions about belonging and place. During formative years of development, certain landscapes become places of significant attachment, laden with emotional connection and sentiment. This historical work, set in Saskatchewan in 1950, takes place during intense changes after World War Two. Many rural communities without power, good roads, and even telephone services struggled to keep up with post-war development. The cooperative movement, encouraged by Premier Tommy Douglas, was a means for rural people to pool resources to improve their communities. Beef prices were climbing to an all-time high, increasing demand for pastureland. Using close third-person point of view, the novel follows a young female character skilled in ranching, horses, and the sport of baseball. Willomena Swift struggles to find a future for herself after returning from two seasons pitching in the All-American Girls Professional Baseball League. The lease to her family ranch is about to end and her father sells the remaining land to the growing community pasture. After a rogue stallion kills Willo’s purebred foal, she begins a quest to control the stallion and avoid its villainous owner, who is also the pasture committee chairman. Willo uses wit and skill to survive the perils of the landscape and gains confidence to confront Nesteroff about taking over her home as the new pasture headquarters after her father’s death. The novel Thickwood explores personal connections to rugged homeland, spirited horses, and love.
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Feral Africanized honey bee ecology in a coastal prairie landscapeBaum, Kristen Anne 30 September 2004 (has links)
Honey bees, Apis mellifera, play an important role in many ecosystems, pollinating a wide variety of native, agricultural, and exotic plants. The recent decline in the number of feral and managed honey bee colonies in North America, as well as the arrival of Africanized honey bees, have caused concern about adequate pollination for agricultural crops and natural plant communities. However, little is known about feral colonies, and the feral population is the source for Africanized honey bees as they spread and infiltrate managed populations.
The goal of my dissertation was to examine the ecology of feral honey bee colonies, adding the spatial context necessary to understand the population ecology and patterns of resource use by feral honey bees on the Welder Wildlife Refuge. I defined the functional heterogeneity of feral honey bee habitat by identifying the suitability of different habitats for feral colonies based on the distribution and abundance of important resources (cavities, nectar, and pollen). I evaluated the distribution and abundance of feral colonies by examining nest site characteristics, population trends, and spatial and temporal patterns in cavity use. Lastly, I examined resource use by evaluating patterns in pollen collection and identifying where and when honey bees searched for resources.
Overall, the Welder Wildlife Refuge provided excellent habitat for feral honey bees, supporting a high density of feral colonies. The dense live oak habitat was the best overall source for cavities, nectar, and pollen. Nectar and pollen were abundant throughout the year, with the exception of December and January, when a large number of honey bees searched for resources. Cavities did not appear to vary in their suitability for feral colonies based on measured structural and environmental attributes, since no cavity attributes were correlated with indices of cavity quality. However, the cavity quality indices varied between cavities, suggesting some cavities were more suitable for feral honey bees than others. Colonies were aggregated within the study area, probably due to the distribution of resources. The invasion of Africanized honey bees appeared to fragment the existing European population, with Africanized colonies aggregated in distribution and European colonies random in distribution.
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Einfluß einwandernder Espen (Populus tremuloides) auf den Stickstoffhaushalt nordamerikanischer Prärieökosysteme / Influence of Invading Aspen (Populus tremuloides) on the Nitrogen Cycle of North-American Prairie EcosystemsKöchy, Martin 20 April 1994 (has links)
No description available.
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The Molecular Composition of Soil Organic Matter (SOM) and Potential Responses to Global Warming and Elevated CO2Feng, Xiaojuan 07 March 2011 (has links)
Soil organic matter (SOM) contains about twice the amount of carbon in the atmosphere. With global changes, the potential shifts in SOM quantity and quality are a major concern. Due to its heterogeneity, SOM remains largely unknown in terms of its molecular composition and responses to climatic events. Traditional bulk soil analysis cannot depict the structural changes in SOM. This thesis applies two complementary molecular-level methods, i.e., SOM biomarker gas chromatography/mass spectrometry (GC/MS) and nuclear magnetic resonance (NMR) spectroscopy, to examine the origin and degradation of various SOM components in grassland and temperate forest soils, and to investigate the shifts in microbial community and SOM composition with both laboratory- and field-simulated global changes, such as frequent freeze-thaw cycles, increasing soil temperatures, elevated atmospheric CO2 levels, and nitrogen (N) deposition.
This thesis has several major findings. First, as the most active component in soil, microbial communities were sensitive to substrate availability changes resulting from prolonged soil incubation, freeze-thaw-induced cell lyses, N fertilization and increased plant inputs under elevated CO2 or soil warming. Microbial community shifts have direct impacts on SOM decomposition patterns. For instance, an increased fungal community was believed to contribute to the enhanced lignin oxidation in an in situ soil warming experiment as the primary degrader of lignin in terrestrial environments. Second, contrast to the conventional belief that aromatic structure was recalcitrant and stable in SOM, ester-bond aliphatic lipids primarily originating from plant cutin and suberin were preferentially preserved in the Canadian Prairie grassland soil profiles as compared with lignin-derived phenols. Cutin- and suberin-derived compounds also demonstrated higher stability during soil incubation. With an increased litter production under elevated CO2 or global warming, an enrichment of alkyl structures that had strong contributions from leaf cuticles was observed in the Duke Forest Free Air CO2 Enrichment (FACE) and soil warming experiments, suggesting an accumulation of plant-derived recalcitrant carbon in the soil. These results have significant implications for carbon sequestration and terrestrial biogeochemistry. Overall, this thesis represents the first of its kind to employ comprehensive molecular-level techniques in the investigation of SOM structural alterations under global changes.
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The Molecular Composition of Soil Organic Matter (SOM) and Potential Responses to Global Warming and Elevated CO2Feng, Xiaojuan 07 March 2011 (has links)
Soil organic matter (SOM) contains about twice the amount of carbon in the atmosphere. With global changes, the potential shifts in SOM quantity and quality are a major concern. Due to its heterogeneity, SOM remains largely unknown in terms of its molecular composition and responses to climatic events. Traditional bulk soil analysis cannot depict the structural changes in SOM. This thesis applies two complementary molecular-level methods, i.e., SOM biomarker gas chromatography/mass spectrometry (GC/MS) and nuclear magnetic resonance (NMR) spectroscopy, to examine the origin and degradation of various SOM components in grassland and temperate forest soils, and to investigate the shifts in microbial community and SOM composition with both laboratory- and field-simulated global changes, such as frequent freeze-thaw cycles, increasing soil temperatures, elevated atmospheric CO2 levels, and nitrogen (N) deposition.
This thesis has several major findings. First, as the most active component in soil, microbial communities were sensitive to substrate availability changes resulting from prolonged soil incubation, freeze-thaw-induced cell lyses, N fertilization and increased plant inputs under elevated CO2 or soil warming. Microbial community shifts have direct impacts on SOM decomposition patterns. For instance, an increased fungal community was believed to contribute to the enhanced lignin oxidation in an in situ soil warming experiment as the primary degrader of lignin in terrestrial environments. Second, contrast to the conventional belief that aromatic structure was recalcitrant and stable in SOM, ester-bond aliphatic lipids primarily originating from plant cutin and suberin were preferentially preserved in the Canadian Prairie grassland soil profiles as compared with lignin-derived phenols. Cutin- and suberin-derived compounds also demonstrated higher stability during soil incubation. With an increased litter production under elevated CO2 or global warming, an enrichment of alkyl structures that had strong contributions from leaf cuticles was observed in the Duke Forest Free Air CO2 Enrichment (FACE) and soil warming experiments, suggesting an accumulation of plant-derived recalcitrant carbon in the soil. These results have significant implications for carbon sequestration and terrestrial biogeochemistry. Overall, this thesis represents the first of its kind to employ comprehensive molecular-level techniques in the investigation of SOM structural alterations under global changes.
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Patterns and processes of exotic plant invasions in Riding Mountain National Park, Manitoba, CanadaOtfinowski, Rafael 10 September 2008 (has links)
Invasive exotic species threaten the biodiversity and function of native ecosystems. Existing models, attempting to predict and control successful invaders, often emphasize isolated stages of in their life history and fail to formalize interactions between exotic species and recipient environments. In order to elucidate key mechanisms in the success of select invaders, I investigated the role of dispersal, establishment, proliferation, and persistence in their threat to natural areas. Focusing on Riding Mountain National Park, Manitoba, Canada, I integrated the native climatic range and biological traits of 251 exotic vascular plants reported inside and outside the park. Based on their climatic range in Europe, 155 among 174 exotic plant species absent from the Park were predicted to establish within its boundaries; among these, 40 clonal perennials were considered the highest threat to the Park’s biodiversity. Focusing on smooth brome (Bromus inermis Leyss.), a Eurasian perennial, threatening the structure and function of native prairies throughout the Great Plains, I extended my research to investigate the role of dispersal, establishment, proliferation, and persistence in characterizing its threat to the endemic diversity of northern fescue prairies, protected within Riding Mountain National Park. Patterns of smooth brome invasions were contingent on the type of propagules dispersed. The shallow dispersal gradient of individual florets combined with the steeper gradient of panicles and spikelets suggested that smooth brome is capable of simultaneously invading along dense fronts as well as by establishing isolated foci. While low correlations between the number of dispersed seeds and their recruitment suggested post-dispersal transport, seedling establishment remained contingent on prairie diversity. Seedling biomass increased with declining plant diversity, however, its impact depended on the availability of soil nitrogen. As a result, disturbed areas, preserving the root function of native plants, resisted smooth brome establishment. Even though low nitrogen contributed to a decline in seedling biomass, physiological integration between ramets facilitated their vegetative proliferation in low resource environments. Despite its rapid establishment and proliferation, smooth brome productivity declined at the center of invading clones. Although field and greenhouse observations failed to implicate soilborne pathogens, reasons for the observed decline remain unresolved. My research demonstrates that while Riding Mountain National Park and other natural areas in western Canada will continue to be impacted by exotic plants, integrating key stages in their life history provides an important conceptual framework in predicting their threat to natural areas and prioritizing management.
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Hétérogénéité de la végétation et du pâturage : conséquences fonctionnelles en praireis naturelleRossignol, Nicolas 12 December 2006 (has links) (PDF)
Le pâturage influence la production primaire et la qualité de la végétation et peut, ainsi, avoir un impact sur les flux d'éléments et les cycles biogéochimiques. La conséquence de cette interaction entre herbivores, plantes et sol sur le fonctionnement d'un écosystème peut être variée car l'impact du pâturage sur les fonctions de la végétation dépend des communautés végétales ainsi que de l'intensité du pâturage. L'objectif de cette thèse est d'analyser l'impact d'un gradient d'intensité de pâturage sur le fonctionnement d'une prairie humide. Le modèle biologique de cette étude est une prairie du Marais Poitevin, pâturée depuis le Xe siècle. Trois communautés végétales coexistent au sein de cette prairie, et les variations spatiales de l'intensité du pâturage ont conduit à la création d'une mosaïque de patchs de végétation au sein de chacune de ces communautés. Le gradient spatial d'intensité de pâturage conduit, au sein de chaque communauté, à une hétérogénéité spatiale des processus fonctionnels de la prairie en lien avec l'hétérogénéité de la végétation. De façon générale, on observe le long du gradient croissant d'intensité de pâturage, une diminution de la production primaire, une augmentation de la qualité de végétation ainsi qu'une augmentation du taux de minéralisation nette de l'azote du sol. Au sein de chaque communauté végétale, l'amplitude des variations spatiales du cycle de l'azote apparaît liée à l'amplitude des variations des fonctions de la végétation. L'impact de l'intensité du pâturage sur les fonctions de la végétation découle de deux mécanismes principaux. L'effet à long terme du pâturage influence la composition floristique de la végétation et se répercute sur les fonctions de la végétation. Le gradient croissant d'intensité de pâturage conduit à une modification importante de la composition floristique des communautés végétales. L'impact de ce gradient sur les fonctions de la végétation est plus important lorsque les types fonctionnels dominants en situation non pâturés, des graminoïdes pérennes, sont remplacés par d'autres types fonctionnels, des annuelles et des dicotylédones. En situation pâturée, les fonctions de la végétation sont modulées par une réponse de la végétation à la coupe. La défoliation stimule le taux de croissance de la végétation des patchs. L'intensité de cette stimulation est maximale pour une fréquence de coupe faible et permet une compensation plus ou moins forte de l'impact négatif de la coupe sur la production primaire. Cette réponse est caractéristique de chaque composition floristique. L'interaction entre les effets de la fréquence de défoliation et de la composition floristique conduit à observer, le long du gradient de pâturage, une diminution de production primaire beaucoup plus importante au sein de la communauté méso-hygrophile qu'au sein de la communauté mésophile. L'impact du gradient de pâturage sur les fonctions de la végétation détermine la qualité et la quantité des entrées de matière organique vers le sol et conduit à un impact sur le processus de minéralisation nette de l'azote. En particulier, la quantité de carbone en provenance de la litière végétale apparaît soutenir la croissance microbienne et stimuler le taux d'immobilisation de l'azote par les microorganismes ce qui diminue la quantité d'azote minéral disponible pour la végétation. En conséquence, la réduction des entrées de litières le long du gradient de pâturage conduit à une stimulation du taux de minéralisation nette de l'azote du sol. La stabilité ou la modifications des fonctions de production primaire et de qualité de végétation le long du gradient de pâturage conditionne donc l'impact du pâturage sur les cycles biogéochimiques.
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Impacts d'une canicule sécheresse sur le fonctionnement et la structure des communautés végétales de l'écosystème prairialZwicke, Marine 19 December 2013 (has links) (PDF)
En Europe, les prairies permanentes représentent l'une des principales formes d'utilisation des terres. La durabilité des services rendus par ces écosystèmes est étroitement liée à la structure et au fonctionnement des communautés végétales qui les composent. La stabilité des processus écosystémiques, sous l'impact des fluctuations environnementales, va alors dépendre des mécanismes de résistance et de récupération propres à ces communautés. Les risques d'apparition d'extrêmes climatiques liés à l'évolution du climat, rendent nécessaire une adaptation des agro-écosystèmes à cette fluctuation climatique accrue. Cela implique de mieux comprendre les mécanismes par lesquels la variabilité du climat influe sur le fonctionnement et la structure des communautés végétales, et comment les pratiques agricoles impactent ces réponses. Cette thèse à pour objectif d'évaluer la vulnérabilité des prairies permanentes à un extrême climatique combinant une canicule et une sécheresse, dans un contexte de changement climatique. Afin d'identifier et de caractériser les mécanismes intrinsèques de la résistance à la sécheresse des communautés végétales, une démarche expérimentale mobilisant les concepts de l'écologie fonctionnelle a été développée. Les effets de la variabilité climatique sur la structure (diversité, composition) et le fonctionnement des communautés végétales ont d'abord été analysés in situ pendant 3 ans, après simulation d'une canicule-sécheresse dans les conditions climatiques actuelles et sous climat modifié (réchauffement et réduction des précipitations). Pour évaluer l'influence de la gestion sur la réponse des communautés végétales aux perturbations climatiques, deux fréquences de fauches ont été appliquées. Ce travail présente l'originalité d'avoir étudié conjointement le fonctionnement aérien et souterrain de la végétation. Sont considérées la production de biomasse, la démographie et la durée de vie des racines, afin de déterminer le rôle du système racinaire dans la résistance et la récupération des communautés végétales après une canicule sécheresse. Nous montrons un effet direct de l'extrême climatique sur la sénescence aérienne et la croissance racinaire dans les deux régimes de fauches. En réponse à un déficit hydrique modéré, la stratégie d'évitement au stress par le maintien de la croissance racinaire a été favorisée par des fauches non fréquentes. A l'automne suivant, les précipitations ont permis un reverdissement rapide de la couverture végétale et la production de nouvelles racines. Une baisse significative de la production de biomasse aérienne annuelle sous climat modifié, et suite à l'application de l'extrême climatique, a été observée pendant les 3 années d'expérimentation. En revanche, la production racinaire n'a pas été significativement affectée. Néanmoins une acclimatation de la croissance racinaire a été mise en évidence un an après l'extrême, en particulier dans les communautés de fauches non fréquemment. Ces changements de fonctionnement aériens et souterrains peuvent s'expliquer en partie par des modifications de la composition botanique. De plus, en réponse aux perturbations climatiques, la mortalité racinaire a été interrompue. Ces résultats inattendus ont donc entrainé une augmentation de la durée de vie des racines et suggèrent un effet négatif sur le turnover racinaire et les cycles biogéochimiques. Une expérimentation complémentaire à l'étude in situ a été menée en conditions semicontrôlées pour déterminer les mécanismes intrinsèques de la résistance à la sécheresse de la prairie permanente. Des traits morphologiques et physiologiques, aériens et souterrains, ont été mesurés sur des monocultures de sept populations prairiales en conditions optimales, puis en conditions de sécheresse afin de caractériser leurs stratégies de survie. Les résultats ont mis en évidence le rôle du système racinaire dans la survie des plantes. (...)
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Patterns and processes of exotic plant invasions in Riding Mountain National Park, Manitoba, CanadaOtfinowski, Rafael 10 September 2008 (has links)
Invasive exotic species threaten the biodiversity and function of native ecosystems. Existing models, attempting to predict and control successful invaders, often emphasize isolated stages of in their life history and fail to formalize interactions between exotic species and recipient environments. In order to elucidate key mechanisms in the success of select invaders, I investigated the role of dispersal, establishment, proliferation, and persistence in their threat to natural areas. Focusing on Riding Mountain National Park, Manitoba, Canada, I integrated the native climatic range and biological traits of 251 exotic vascular plants reported inside and outside the park. Based on their climatic range in Europe, 155 among 174 exotic plant species absent from the Park were predicted to establish within its boundaries; among these, 40 clonal perennials were considered the highest threat to the Park’s biodiversity. Focusing on smooth brome (Bromus inermis Leyss.), a Eurasian perennial, threatening the structure and function of native prairies throughout the Great Plains, I extended my research to investigate the role of dispersal, establishment, proliferation, and persistence in characterizing its threat to the endemic diversity of northern fescue prairies, protected within Riding Mountain National Park. Patterns of smooth brome invasions were contingent on the type of propagules dispersed. The shallow dispersal gradient of individual florets combined with the steeper gradient of panicles and spikelets suggested that smooth brome is capable of simultaneously invading along dense fronts as well as by establishing isolated foci. While low correlations between the number of dispersed seeds and their recruitment suggested post-dispersal transport, seedling establishment remained contingent on prairie diversity. Seedling biomass increased with declining plant diversity, however, its impact depended on the availability of soil nitrogen. As a result, disturbed areas, preserving the root function of native plants, resisted smooth brome establishment. Even though low nitrogen contributed to a decline in seedling biomass, physiological integration between ramets facilitated their vegetative proliferation in low resource environments. Despite its rapid establishment and proliferation, smooth brome productivity declined at the center of invading clones. Although field and greenhouse observations failed to implicate soilborne pathogens, reasons for the observed decline remain unresolved. My research demonstrates that while Riding Mountain National Park and other natural areas in western Canada will continue to be impacted by exotic plants, integrating key stages in their life history provides an important conceptual framework in predicting their threat to natural areas and prioritizing management.
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Investigating landscape change and ecological restoration: an integrated approach using historical ecology and GIS in Waterton Lakes National Park, AlbertaLevesque, Lisa Marie 02 September 2005 (has links)
This thesis examines landscape change from 1889 to the present within the foothills-parkland ecoregion of Waterton Lakes National Park (WLNP) in southwestern Alberta, Canada. Land cover dynamics are explored qualitatively and quantitatively using Geographical Information Systems and a combination of historical and contemporary data sources including: (1) Dominion Land Survey (DLS) transect records (1889), (2) repeat oblique photographs (1914 and 2004) and repeat aerial photography (1939 and 1999). Results indicate a consistent increase in woody vegetation cover, particularly aspen forest cover, within the foothills-parkland since 1889, largely at the expense of native grasslands. The primary drivers of these changes likely include: climatic influences, changes to the historical grazing regime, the suppression of natural fire cycles and the cessation of First Nations’ land management practices. This research illustrates the value of integrating multiple historical data sources for studying landscape change in the Canadian Rockies, and explores the implications of this change for ecological restoration in the foothills-parkland of WLNP.
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