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

Gathering Kilburn : the everyday production of community in a diverse London neighbourhood

Samanani, Farhan

January 2017

This thesis presents an ethnographic account of the everyday meanings and processes associated with the idea of ‘community’ within the London neighbourhood of Kilburn. In policy and popular discourse, community is cast both as somehow able to unite people across difference, and as under threat from the proliferation of difference, which is seen as impeding mutual understanding, cooperation and belonging. Within scholarly writing, ‘community’ is often challenged as too archaic, too rigid or too ambiguous a concept to provide sufficient analytical leverage or to work as a normative ideal. Against this background, my PhD takes a look the neighbourhood of Kilburn, where amidst significant diversity, tropes of community are still widely used. I investigate how residents imagine various forms of community in relation to diversity, as well as the connections and discontinuities between these various imaginings. I draw on 16 months of ethnographic fieldwork, following over a dozen community projects and groups, tracing informal local networks and getting to know residents individually. My ethnography ranges from community cafes, to religious youth groups, to urban ‘gangs’, to government-led urban regeneration projects. Despite the variation in how different individuals imagined ‘community’, there was a shared view of community as a space which facilitated the bridging of difference and the construction of shared moral projects. These spaces did not exist sui generis. Rather they were opened up through the balancing of two traits: fixity and fluidity. Fixity involved defining community in terms of a clearly identifiable and familiar set of boundary markers, which serve to give it an ‘objective’ existence. Fluidity involved suspending this attempt to define community in terms of the familiar, once people were involved, in order to allow for new, shared understandings and values to emerge. The first two chapters unpack this balancing of fixity and fluidity. Chapter 1, traces inclusion and exclusion in a range of community projects, and Chapter 2 looks at tropes of race and ethnicity, examining how such ideas might be treated as simultaneously fixed and fluid. . The two chapters unpack the transformational power of community. Chapter 3 looks at a community centre for young Muslims, as well as at a local community radio station, and argues that community spaces have the potential to foster an ethic of continual openness to difference. Chapter 4 looks at a group of ‘street youth’ and their diverse views of success, and argues that community can act as a collective repository of future potential, allowing community members to transform their ethical trajectory within their own lives. The final two chapters look at contestations over community. Chapter 5 looks at clashing uses of public spaces and argues that such spaces are often read in highly fixed ways, and as lacking the potential for community-like negotiations. Chapter 6 looks at local regeneration projects and contrasts the ways in which community is valued locally, to the ways in which it is valued by state and market actors. The thesis concludes by emphasizing the necessarily plural, dynamic, contested and grounded nature of the idea of community described here.

The Effect of Aluminium Industry Effluents on Sediment Bacterial Communities

Gill, Hardeep

19 October 2012

The goal of this project was to develop novel bacterial biomarkers for use in an industrial context. These biomarkers would be used to determine aluminium industry activity impact on a local ecosystem. Sediment bacterial communities of the Saguenay River are subjected to industrial effluent produced by industry in Jonquière, QC. In-situ responses of these communities to effluent exposure were measured and evaluated as potential biomarker candidates for exposure to past and present effluent discharge. Bacterial community structure and composition between control and affected sites were investigated. Differences observed between the communities were used as indicators of a response to industrial activity through exposure to effluent by-products. Diversity indices were not significantly different between sites with increased effluent exposure. However, differences were observed with the inclusion of algae and cyanobacteria. UniFrac analyses indicated that a control (NNB) and an affected site (Site 2) were more similar to one another with regard to community structure than either was to a medially affected site (Site 5) (Figure 2.4). We did not observe a signature of the microbial community structure that could be predicted with effluent exposure. Microbial community function in relation to bacterial mercury resistance (HgR) was also evaluated as a specific response to the mercury component present in sediments. Novel PCR primers and amplification conditions were developed to amplify merP, merT and merA genes belonging to the mer-operon which confers HgR (Table 5.6). To our knowledge, the roles of merP and merT have not been explored as possible tools to confirm the presence of the operon. HgR gene abundance in sediment microbial communities was significantly correlated (p < 0.05) to total mercury levels (Figure 3.4) but gene expression was not measurable. We could not solely attribute the release of Hg0 from sediments in bioreactor experiments to a biogenic origin. However, there was a 1000 fold difference in measured Hg0 release between control and affected sites suggesting that processes of natural remediation may be taking place at contaminated sites (Figure 3.7). Abundance measurements of HgR related genes represent a strong response target to the mercury immobilized in sediments. Biomarkers built on this response can be used by industry to measure long term effects of industrially derived mercury on local ecosystems. The abundance of mer-operon genes in affected sites indicates the presence of a thriving bacterial community harbouring HgR potential. These communities have the capacity to naturally remediate the sites they occupy. This remediation could be further investigated. Additional studies will be required to develop biomarkers that are more responsive to contemporary industrial activity such as those based on the integrative oxidative stress response.

bacteria

heavy metal resistance

mercury

mer operon

sediment

biomarker

community diversity

mercuric reductase

sediment metagenome

environmental microbiology

industry

bauxite

alumina

red mud

Saguenay River, QC

PCR

qPCR

bioreactor

gene

merT

merP

merA

rpoB

katG

glnA

river system

environmental DNA

aluminum industry

Bayer Process

Hall–Héroult Process

16S rRNA

UniFrac

sediment wash buffer

community richness

mothur

ribosomal database project

DNA sequencing

aluminum

aluminium

RNA

metatranscriptome

ecotoxicology

environmental contaminants

industrial effluent

The Effect of Aluminium Industry Effluents on Sediment Bacterial Communities

Gill, Hardeep

19 October 2012

The goal of this project was to develop novel bacterial biomarkers for use in an industrial context. These biomarkers would be used to determine aluminium industry activity impact on a local ecosystem. Sediment bacterial communities of the Saguenay River are subjected to industrial effluent produced by industry in Jonquière, QC. In-situ responses of these communities to effluent exposure were measured and evaluated as potential biomarker candidates for exposure to past and present effluent discharge. Bacterial community structure and composition between control and affected sites were investigated. Differences observed between the communities were used as indicators of a response to industrial activity through exposure to effluent by-products. Diversity indices were not significantly different between sites with increased effluent exposure. However, differences were observed with the inclusion of algae and cyanobacteria. UniFrac analyses indicated that a control (NNB) and an affected site (Site 2) were more similar to one another with regard to community structure than either was to a medially affected site (Site 5) (Figure 2.4). We did not observe a signature of the microbial community structure that could be predicted with effluent exposure. Microbial community function in relation to bacterial mercury resistance (HgR) was also evaluated as a specific response to the mercury component present in sediments. Novel PCR primers and amplification conditions were developed to amplify merP, merT and merA genes belonging to the mer-operon which confers HgR (Table 5.6). To our knowledge, the roles of merP and merT have not been explored as possible tools to confirm the presence of the operon. HgR gene abundance in sediment microbial communities was significantly correlated (p < 0.05) to total mercury levels (Figure 3.4) but gene expression was not measurable. We could not solely attribute the release of Hg0 from sediments in bioreactor experiments to a biogenic origin. However, there was a 1000 fold difference in measured Hg0 release between control and affected sites suggesting that processes of natural remediation may be taking place at contaminated sites (Figure 3.7). Abundance measurements of HgR related genes represent a strong response target to the mercury immobilized in sediments. Biomarkers built on this response can be used by industry to measure long term effects of industrially derived mercury on local ecosystems. The abundance of mer-operon genes in affected sites indicates the presence of a thriving bacterial community harbouring HgR potential. These communities have the capacity to naturally remediate the sites they occupy. This remediation could be further investigated. Additional studies will be required to develop biomarkers that are more responsive to contemporary industrial activity such as those based on the integrative oxidative stress response.

bacteria

heavy metal resistance

mercury

mer operon

sediment

biomarker

community diversity

mercuric reductase

sediment metagenome

environmental microbiology

industry

bauxite

alumina

red mud

Saguenay River, QC

PCR

qPCR

bioreactor

gene

merT

merP

merA

rpoB

katG

glnA

river system

environmental DNA

aluminum industry

Bayer Process

Hall–Héroult Process

16S rRNA

UniFrac

sediment wash buffer

community richness

mothur

ribosomal database project

DNA sequencing

aluminum

aluminium

RNA

metatranscriptome

ecotoxicology

environmental contaminants

industrial effluent

The Effect of Aluminium Industry Effluents on Sediment Bacterial Communities

Gill, Hardeep

January 2012

The goal of this project was to develop novel bacterial biomarkers for use in an industrial context. These biomarkers would be used to determine aluminium industry activity impact on a local ecosystem. Sediment bacterial communities of the Saguenay River are subjected to industrial effluent produced by industry in Jonquière, QC. In-situ responses of these communities to effluent exposure were measured and evaluated as potential biomarker candidates for exposure to past and present effluent discharge. Bacterial community structure and composition between control and affected sites were investigated. Differences observed between the communities were used as indicators of a response to industrial activity through exposure to effluent by-products. Diversity indices were not significantly different between sites with increased effluent exposure. However, differences were observed with the inclusion of algae and cyanobacteria. UniFrac analyses indicated that a control (NNB) and an affected site (Site 2) were more similar to one another with regard to community structure than either was to a medially affected site (Site 5) (Figure 2.4). We did not observe a signature of the microbial community structure that could be predicted with effluent exposure. Microbial community function in relation to bacterial mercury resistance (HgR) was also evaluated as a specific response to the mercury component present in sediments. Novel PCR primers and amplification conditions were developed to amplify merP, merT and merA genes belonging to the mer-operon which confers HgR (Table 5.6). To our knowledge, the roles of merP and merT have not been explored as possible tools to confirm the presence of the operon. HgR gene abundance in sediment microbial communities was significantly correlated (p < 0.05) to total mercury levels (Figure 3.4) but gene expression was not measurable. We could not solely attribute the release of Hg0 from sediments in bioreactor experiments to a biogenic origin. However, there was a 1000 fold difference in measured Hg0 release between control and affected sites suggesting that processes of natural remediation may be taking place at contaminated sites (Figure 3.7). Abundance measurements of HgR related genes represent a strong response target to the mercury immobilized in sediments. Biomarkers built on this response can be used by industry to measure long term effects of industrially derived mercury on local ecosystems. The abundance of mer-operon genes in affected sites indicates the presence of a thriving bacterial community harbouring HgR potential. These communities have the capacity to naturally remediate the sites they occupy. This remediation could be further investigated. Additional studies will be required to develop biomarkers that are more responsive to contemporary industrial activity such as those based on the integrative oxidative stress response.

bacteria

heavy metal resistance

mercury

mer operon

sediment

biomarker

community diversity

mercuric reductase

sediment metagenome

environmental microbiology

industry

bauxite

alumina

red mud

Saguenay River, QC

PCR

qPCR

bioreactor

gene

merT

merP

merA

rpoB

katG

glnA

river system

environmental DNA

aluminum industry

Bayer Process

Hall–Héroult Process

16S rRNA

UniFrac

sediment wash buffer

community richness

mothur

ribosomal database project

DNA sequencing

aluminum

aluminium

RNA

metatranscriptome

ecotoxicology

environmental contaminants

industrial effluent

Zur Rekonstruktion historischer Biodiversität aus archivalischen Quellen: Das Beispiel des Oderbruchs (Brandenburg) im 18. Jahrhundert / The reconstruction of historical biodiversity by archival sources: the example of the Oderbruch floodplain (Brandenburg) in the 18th century

Jakupi, Antje

05 July 2007

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

historische Biodiversität

Archiv

archivalische Quellen

Fluss

Oder

Oderbruch

Überschwemmung

18. Jahrhundert

Rekonstruktion

Sammlungen

Hecht

Esox lucius

Top-Predator

Grünland

Grünlandgesellschaften

Wiese

Hütung

Weide

Artenreichtum

Artendiversität

Diversität Artgemeinschaften

Flussaue

Eindeichung

Melioration;Fischartengemeinschaft

Indikatorart

Charakterart

Bewirtschaftung

Heu

Heuertrag

Besatzdichte

Weidevieh

Ertrag

Biomasse

Süßwasser

historical biodiversity

archive

archival sources

river

Odra

Oderbruch

inundation

18th century

reconstruction

collections

pike

Esox lucius

top predator

grassland

grassland communities

meadow

pasture

species richness

species diversity

community diversity

floodplain

embankment

land improvement

fish community

indicator species

character species

farming style

hay

hay-yield

stocking rate

livestock

yield

biomass

freshwater

42.90 Ökologie: Allgemeines