Pathogenic role of C-FMS and FLT3 mutations in acute and chronic myeloproliferative disorders

Abu-Duhier, Faisel Mohammed

January 2003

No description available.

616

Clonal proliferation

Migration, ethnicity and conflict : the environment of insecurity and Turkish Kurdish international migration

Sirkeci, Ibrahim

January 2003

This thesis examines the motivations, mechanisms and prospects of Turkish Kurdish international migration in relation to the Environment of Insecurity as a set of combined socio-economic and political factors triggered by an ethnic conflict. The analysis focuses on three different, but complementary, levels of analysis. The research comprises first, the analysis of the environment of insecurity in Turkey emphasising its broader socio-economic, legal-political, and demographic aspects; second, the patterns and processes of international migration involving Turkish Kurds investigating the motivations, the mechanisms, and the future migration potentials; third, the role of the expression of ethnicity and of ethnic conflict. A mixed method approach combining qualitative and quantitative methods to address different levels of analysis and different aspects of migration is adopted. The analysis of Turkish Demographic Health Survey data examines the extent to which an environment of insecurity exists for Turkish Kurds. The findings of the Turkish International Migration Survey data outline the patterns of individual migration motives, mechanisms and future intentions. Finally, semi-structured in-depth interviews examine the role of the ethnic conflict and the expression of ethnicity to clarify the relationship between Turkish Kurdish international migration and the ethnic environment of insecurity while also presenting a live account of migration motivations and mechanisms. The research shows that the environment of insecurity is an issue of ethnic conflict and it constitutes the major facilitating factor in Turkish Kurdish international migration resulting in large asylum migration flows. Due to the armed ethnic conflict between the PKK and the Turkish Army in Turkey during the last two decades of the last century, recent migration patterns of Turkish Kurds are dominated by clandestine migration. Along with legal migrations (e.g. economic, family, education), irregular migration appears as a strong trend involving asylum migration and illegal migration. Tightening immigration controls in Europe also prompts this. The conflict situation also serves as an opportunity framework for some who wanted to migrate. While migration is appearing as a liberating event for Turkish Kurdish ethnicity it is found that Kurdish immigrants have not fully exploited the opportunities for exercising their ethnicity. However, for many, migration from Turkey to Germany is an act of escape and so is an expression of ethnicity.

304

Clonal proliferation

Patterns and processes of exotic plant invasions in Riding Mountain National Park, Manitoba, Canada

Otfinowski, Rafael

10 September 2008

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. / October 2008

biological invasions

risk analysis

climate-matching model

biological traits

smooth brome

Bromus inermis

plant dispersal

inverse power function

spatial patterns

disturbance

invasion resistance

community diversity

clonal proliferation

physiological integration

soilborne pathogens

negative feedback

natural area

northern fescue prairie

Patterns and processes of exotic plant invasions in Riding Mountain National Park, Manitoba, Canada

Otfinowski, Rafael

10 September 2008

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.

biological invasions

risk analysis

climate-matching model

biological traits

smooth brome

Bromus inermis

plant dispersal

inverse power function

spatial patterns

disturbance

invasion resistance

community diversity

clonal proliferation

physiological integration

soilborne pathogens

negative feedback

natural area

northern fescue prairie

Patterns and processes of exotic plant invasions in Riding Mountain National Park, Manitoba, Canada

Otfinowski, Rafael

10 September 2008

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.

biological invasions

risk analysis

climate-matching model

biological traits

smooth brome

Bromus inermis

plant dispersal

inverse power function

spatial patterns

disturbance

invasion resistance

community diversity

clonal proliferation

physiological integration

soilborne pathogens

negative feedback

natural area

northern fescue prairie