52 research outputs found

    MOCCASIN ECONOMICS: ENTANGLED MUSEUM STORIES OF NIITSITAPI WOMEN, LABOR, AND FOOTWEAR

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    This dissertation emphasizes how anthropologists can use museum collections as anthropological data banks (Sturtevant 1973) to uncover the unwritten histories of objects, people, and cultures. I show how museum collections are repositories for the untold stories of Native women’s economic histories and how objects embody women’s critical contributions to the economic, spiritual, and cultural survival of their communities throughout time. To reveal the complex, hidden labor processes involved in historical and contemporary moccasin-making, I draw on interviews with contemporary Niitsitapi moccasin-makers, as well as object-based analyses of 109 pairs of moccasins from five museum collections and numerous archival documents and photographs. Analyses revealed that most of the Niitsitapi moccasins in these five museum collections are outgrowths of production for tourist markets. Additionally, I show how moccasin production has historically been influenced by the colonial policies of the United States government and how moccasins’ stories are influenced by museum categorization tools

    A multidisciplinary study of human exposure to arsenic and other trace elements.

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    Arsenic (As) is a carcinogenic agent that is present in varying levels in environmental matrices including water and food. Long term As exposure can lead to skin lesions, peripheral neuropathy, diabetes, renal system effects and cardiovascular diseases. Bio-monitoring of human urine, toenail, serum and cerebrospinal fluid was carried out in this thesis to assess the exposure to arsenic and other trace elements. A multidisciplinary approach based on Inductively Coupled Plasma Mass Spectrometry (ICP-MS), HPLC-ICP-MS and Proton-Nuclear Magnetic Resonance Spectroscopy (1H-NMR) in conjunction with a questionnaire based survey was employed. The impact of rice consumption (a well-known vector of arsenic in the general population) on human urinary As levels was assessed. Results obtained show that the Bangladeshi (UK-B) community in the United Kingdom, who consume ca. 30-fold more rice than the white Caucasians (UK-C), are exposed to a higher level of arsenic. ICP-MS and HPLC-ICP-MS revealed a significant increase in dimethylarsinic acid (DMA) and inorganic arsenic (iAs) species in UK-B compared to UK-C, while cationic compounds were lower in UK-B than in UK-C. DMA and iAs levels in the Bangladeshis were positively correlated to rice consumption. Rice is likely to be responsible for the increase in levels of DMA and iAs in urine of UK-B. The link between this and the disproportional occurrence of diabetes and cardiovascular diseases (CVD) in UK-B needs to be investigated. Another important finding of this study is that the DMA to monomethyl arsenic (MA) ratio, which is often used as an indication of arsenic methylation capacity, should be applied with caution in populations consuming large quantities of rice because variation in the quantity and type of rice eaten may alter the urinary DMA levels and thereby the DMA/MA ratio. Urinary arsenic, selenium, copper and zinc were monitored for a group of Bangladeshis, Pakistanis, Indians and Caucasians living in the UK. The most striking finding was the increase in urinary copper in the UK-B group compared to other ethnicities and to reference values reported for the general UK population. Among the possible reasons for this could include dietary exposure via ethnic food consumption or a change in copper metabolism in the Bangladeshis. High serum copper levels have been correlated to CVD in the US population. In this context, further work is recommended to investigate if there is a relationship between urinary copper and the disproportionately high incidence of CVD in UK Bangladeshis. An approach based on 1H-NMR was used to detect changes in human urinary metabolomic profile as a function of As exposure through different routes. For this, the urine of UK-B, UK-C and a group residing in Bangladesh (BD-B) were monitored. The effects of other factors were explored, including arsenic urinary profile, chewing pan, ethnicity, rice consumption, selenium and diabetes. The three populations show distinctive metabolomic profiles. Urinary arsenic speciation was used in evaluating the effects of arsenic on the metabolomic profile for the UK group. This revealed that the %DMA positively correlates to %N,N-dymethylglycine, %alanine and %betaine. Comparative analysis of the 1H NMR spectra revealed that the BD-B urinary profiles were depleted in the number and quantity of metabolites. Visible signs of lower protein intake and undernourishment emerged from the urinary metabolomic profile of BD-B including a 2.5 decrease in creatinine levels compared to UK-B. Urinary creatinine and the metabolomic profile provide evidence for undernourishment in the BD-B population group that was not evident from previous studies on dietary protein intake in this population performed using food frequency questionnaires. Public health officials might consider also using bio-monitoring studies for nutrient intake rather than solely relying on estimations from food frequency questionnaires. The results reveal the complexity of the subject and pave the way for future studies, highlighting the need for awareness about diet and other specific confounding factors. Multiple Sclerosis (MS) is considered a multifactorial disease and its cause remains unknown. A case-control study on a MS cluster from the volcanic region of Mt. Etna (a natural emitter of geogenic trace elements in the environment) was undertaken. Urine and toenails were monitored for trace elements along with food consumption and life-style habits. Levels of a range of trace elements were reported for the first time for a population living in the Mt. Etna region. No significant differences were found in trace element levels in urine and toenails of MS patients and controls. However, urinary levels of nickel, manganese and selenium were higher than those reported in the literature for the general population from Italy, Germany and the UK. These findings and observations might suggest a role for nickel in the pathology of MS. However, larger studies on the possible role of nickel on MS, and trace elements in general, should be performed. Cerebrospinal fluid (CSF) and some serum from MS patients and controls from the Mt. Etna region were also monitored in this study using ICP-MS. There were significant differences in the trace elemental profile of CSF of MS volunteers and controls, including an increase in arsenic and zinc in the CSF of MS patients. Lead, aluminium, cadmium and molybdenum were significantly increased in the CSF of MS patients as well. In contrast, selenium was lower in MS patients compared to controls. The enrichment of certain trace elements in the CSF of MS patients could be the result of an impairment of the blood brain barrier and tight junction disruption due to MS and its progression, resulting in serum protein leakage and trace elements across the blood–brain barrier. Studies are necessary in the future to identify the chemical species present in the CSF and also determine their role in biological processes including their harmful effects on the brain.Marie Curie Actions Contract No: MRTN-CT-2006-03542

    The Health Impact of Pesticide Exposure in a Cohort of Outdoor Workers

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    This thesis describes a study undertaken between 1992 and 2001 to explore the possible health impacts of human exposure to pesticides. The study followed the health outcomes of approximately 4000 outdoor workers over a period of up to sixty-one years. These workers comprised two subcohorts of approximately even size, one composed of agricultural workers with high insecticide exposures, and the other made up of outdoor staff from local councils in the same area with little or no occupational exposure to insecticides. Mortality and morbidity were compared between the two groups, and with the general Australian community. The study identifies significantly increased mortality among both exposed and control subjects when compared to the Australian population. The major cause of this increase was mortality from smoking related diseases. The study also identifies significant increases in mortality among exposed subjects for a number of conditions that do not appear to be the result of smoking patterns, both when compared to the control group and the Australian population. These include pancreatic cancer in some DDT exposed subjects and asthma, diabetes, and leukaemia in subjects working with more modern chemicals. There was also an increase in self reported chronic illness and asthma, and lower neuropsychological functioning scores among surviving exposed subjects when compared to controls. Diabetes was also reported more commonly by subjects reporting occupational use of herbicides

    Drinking Water Quality and Human Health

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    The quality of drinking water is paramount for public health. Despite important improvements in the last decades, access to safe drinking water is not universal. The World Health Organization estimates that almost 10% of the population in the world do not have access to improved drinking water sources. Among other diseases, waterborne infections cause diarrhea, which kills nearly one million people every year, mostly children under 5 years of age. On the other hand, chemical pollution is a concern in high-income countries and an increasing problem in low- and middle-income countries. Exposure to chemicals in drinking water may lead to a range of chronic non-communicable diseases (e.g., cancer, cardiovascular disease), adverse reproductive outcomes, and effects on children’s health (e.g., neurodevelopment), among other health effects. Although drinking water quality is regulated and monitored in many countries, increasing knowledge leads to the need for reviewing standards and guidelines on a nearly permanent basis, both for regulated and newly identified contaminants. Drinking water standards are mostly based on animal toxicity data, and more robust epidemiologic studies with accurate exposure assessment are needed. The current risk assessment paradigm dealing mostly with one-by-one chemicals dismisses the potential synergisms or interactions from exposures to mixtures of contaminants, particularly at the low-exposure range. Thus, evidence is needed on exposure and health effects of mixtures of contaminants in drinking water. Finally, water stress and water quality problems are expected to increase in the coming years due to climate change and increasing water demand by population growth, and new evidence is needed to design appropriate adaptation policies.This Special Issue of International Journal of Environmental Research and Public Health (IJERPH) focuses on the current state of knowledge on the links between drinking water quality and human health

    Evolution of Water Supply Through the Millennia

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    Evolution of Water Supply Through the Millennia presents the major achievements in the scientific fields of water supply technologies and management throughout the millennia. It provides valuable insights into ancient water supply technologies with their apparent characteristics of durability, adaptability to the environment, and sustainability. A comparison of the water technological developments in several civilizations is undertaken. These technologies are the underpinning of modern achievements in water engineering and management practices. Naturally, intensification of unresolved problems led societies to revisit the past and to reinvestigate the successful past achievements. To their surprise, those who attempted this retrospect, based on archaeological, historical, and technical evidence were impressed by two things: the similarity of principles with present ones and the advanced level of water engineering and management practices

    Reports of explorations and surveys, to ascertain the most practicable and economical route for a railroad from the Mississippi River to the Pacific Ocean. Made under the direction of the Secretary of War, in 1853-4, according to Acts of Congress of March 3, 1853, May 31, 1854, and August 5, 1854

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    Explorations of Railroad Routes from the Mississippi to the Pacific. 14 Feb. SED 78, 33-2, v13 (pts. 1-11), 6211 p. [758-768] or HED 91, 33-2, vll (pts. 1-11), 6211p. [791-801] Journals of expeditions, including descriptions of Indians; a northern route from Minnesota, along the Upper Missouri, to Washington: a central route from Missouri, across the Great Basin, to California; a southern route from the Red River, along the Rio Grande and Colorado Rivers, to southern California; a report on Indian tribes of the Southwest is ineluded in pt. 3 (Serials 760 and 793). (Serial 791

    Multimetal smithing : An urban craft in rural settings?

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    Multimetal smithing should be defined as the use of more than one metal and/or different metalworking techniques within thesame crafts-milieu. This complex metalworking has long been linked to centrality, central places and urbanity in Scandinavia.It has been extensively argued that fine casting and smithing, as well as manufacture utilizing precious metals was exclusivelyundertaken within early urban settings or the “central places” pre-dating these. Furthermore, the presence of complex metalcraftsmanship has been used as a driving indicator of the political, social and economic superiority of certain sites, therebyenhancing their identity as “centralities”.Recent research has come to challenge the universality of this link between urbanity, centrality and complex metalworkingas sites in rural settings with evidence of multimetal smithing are being identified. This shows that the relationship between thecraft and centrality (urbanity) must be nuanced and that perhaps multimetal craftsmanship should be reconsidered as an urbanindicator.The thesis project “From Crucible and onto Anvil” started in 2015 and focuses on sites housing remains of multimetalcraftsmanship dating primarily from 500-1000 AD. Within the project a comprehensive survey of sites will be used to evaluate thepresence of multimetal craftsmanship in the landscape. Sites in selected target areas will also be subject to intra-site analysisfocusing on workshop organisation, production output, metalworking techniques and chronological variances.A key aim in the project is to elucidate the conceptual aspects of complex metalworking. The term multimetality is used toanalytically frame all the societal and economic aspects of multimetal craftsmanship. Through this inclusive perspective both thecraftsmanship and the metalworkers behind it are positioned within the overall socioeconomic framework. The metalworkers,their skills and competences as well as the products of their labour are viewed as dynamic actors in the landscape and on thearenas of political economy of the Late Iron Age.The survey has already revealed interesting aspects concerning multimetal smithing and urbanity. Although the multimetalsites do cluster against areas of early urban development there are also other patterns emerging. Multimetal craftsmanship – both as practice and concept – was well represented in both rural peripheral settings and urban crafts-milieus. This means that therole of multimetality as part of an “urban conceptual package” is crucial to investigate. Such an approach will have the dual endsof properly understanding the craft and its societal implications, but also further the knowledge of the phenomenon of urbanityas a whole. Was multimetal smithing part of an “urban package” that spread into the rural landscape? Did the multimetality differbetween urban and rural crafts-milieus? How does early urbanity relate to the chronology of multimetal craftsmanship?This paper aims to counter these questions using examples from the survey of multimetal sites conducted within the thesisproject. A comparison between selected sites will be presented. The purpose of this is to evaluate the role of multimetality withinthe “urban package” and discuss the role of complex metalworking in the establishment of urban arenas of interaction in LateIron Age Scandinavia

    Ecological assessment of salmonid populations in a country undergoing rapid environmental and socioeconomic transitions (Mongolia)

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    Mongolia is currently undergoing a rapid socioeconomic transition with extensive development driven by increased mineral resource extraction and large scale agriculture and pastoral expansion. There has also been unprecedented urbanisation and continued population growth that has placed added pressure on the ageing public infrastructure including power stations and waste water treatment plants. As a result, the country’s pristine landscapes, including its vast freshwater ecosystems, are now facing widespread degradation, contamination and species losses in the most impacted regions. The proposed large-scale dams and imminent climate change effects will further damage these fragile ecosystems. With a number of rivers and lakes deteriorating, resident aquatic communities, including unique fish species, have suffered significant population declines. However, a more substantial threat currently facing these fish populations is the rapid and largely unregulated rise in fishing activities within an emerging recreational fishery. Although historically fish capture and consumption has not been a traditional part of the Mongolian diet or culture, this is changing rapidly. Therefore a comprehensive set of research projects were developed and implemented across Mongolia, to gather essential information on this new fishery, while also addressing existing knowledge gaps regarding the spatial ecology and genetic structure of the main target species. In addition, a potential human health risk was evident due to the increased consumption of locally caught fish species from a heavily impacted river basin, and thus this was also investigated. Overall, the collective aim of this fisheries research was to increase the scientific understanding and knowledge across a range of issues and ultimately advise authorities on improving current management regulations and conservation strategies. It is hoped that the recommendations can assist in safeguarding the future sustainability and resilience of the threatened fish populations and the emerging recreational fishery across Mongolia for the future. A total of five fisheries related research projects were completed between 2011 and 2014, with the results from each used to formulate the conservation and management recommendations presented in this thesis. Due to the lack of knowledge regarding the emerging recreational fishery, roving creel surveys were conducted across three river basins and covered five key topics including angler demographics, fishing practices, current fishing trip data, fishing gear and costs, and angler knowledge and opinions. Fifty-eight fishing groups (n = 154 anglers) were interviewed and two angler types were identified: rural anglers with no or low incomes, who reside in the basin, fish alone or in smaller groups, fish frequently for shorter periods, and consumed fish more regularly; and urban anglers who have medium to high incomes, live in larger cities, spent more money on fishing gear / trips and fished for multiple days at a time. B. lenok was identified as the most targeted and caught species in the fishery. The results of the creel surveys confirmed increased fish consumption in the Kharaa River basin, which was identified as a potential human health risk due to the widespread heavy metal contamination from both past and present mining activities. Thus heavy metal contaminates in river water, sediment and five consumed fish species were examined at 11 sites across the basin. Heavy metals were evident in all five sampled species, with maximum muscle contents of chromium (Cr), arsenic (As), mercury (Hg) and lead (Pb) detected in fish from the middle and lower reaches, while zinc (Zn) was highly elevated in B. lenok from the upper tributaries. Elevated median contents of Cr, copper (Cu), Hg and Pb increased with trophic level, with the bioaccumulation of Hg posing the greatest threat to human health with over 10 % of all fish sampled exceeded the internationally recommended threshold for Hg in consumable fish tissue (> 0.5 µg g-1 ww). This bioaccumulation in resident fish species could lead to chronic toxicity in people who consume them regularly and have additional exposure to other sources of contamination e.g. gold mining. A further two projects were conducted that utilised passive acoustic telemetry to describe the spatial and temporal autecology, habitat use and behaviour of B. lenok in the Eroo River and H. taimen in the Onon/Balj rivers under Mongolia’s extreme seasonal conditions. The maximum longitudinal movements (home ranges) detected were more extensive than previously reported for both species with 45.3 km for B. lenok and 126.1 km for H. taimen. Increased movements were recorded in spring and summer, with individuals entering surrounding tributaries and remaining there for between four and 85 days before returning to the main river channel. The results highlighted the importance of maintaining the integrity and connectivity of tributary habitats for spawning, feeding and overwintering, as well as hydrological and thermal refuges, which will be increasingly important for these species in the region with the pending impacts of climate change. This increased knowledge relating to the spatial ecology of these threatened species can guide the design and implementation of new protective measures such as the introduction of Freshwater Protected Areas (FPAs) across Mongolia. Further research was conducted to gain a broader, multigenerational understanding of the interconnectedness between conspecific populations of H. taimen, B. lenok and T. baicalensis across the major river basins. Both molecular and nuclear markers were used to demarcate the population’s genetic structure and define Evolutionary Significant Units (ESUs) and priority populations for these species across their Mongolian distributions. Across all species, the most prominent pattern was a strong differentiation among major basins with low differentiation and weak patterns of isolation by distance within basins, which indicates high within-basin connectivity between populations, although exact patterns were not completely concordant among species. The extensive results produced from the current scientific research has facilitated the development of a comprehensive set of key recommendations for implementing new, and enhancing existing, management and conservation measures relating to Mongolia’s threatened salmonid species and its emerging recreational fishery. These recommendations include: 1. Establishing a series of Freshwater Protected Areas (FPAs) throughout Mongolia’s major river basins, with their design and location based upon the spatial ecology and genetic population structure determined by the current research results; 2. Shifting the opening date of the fishing season to encompass the entire spawning period of B. lenok (the fishery’s main target species), which appears to currently not be the case; 3. Adding the blunt-snouted lenok (B. sp.) to the prohibited species list, as it has been genetically proven to be an independent species and has a restricted distribution and low abundance in Mongolia; and 4. Introducing minimum (and potentially maximum) size limits for B. lenok and T. baicalensis, to better protect immature and pre-spawning individuals from being removed from the population. In addition, it is highly recommended to commence fisheries dependent and independent assessments in key river basins and conduct biomonitoring programs (using a bioindicator species) to track toxic heavy metal contamination and identify potential human health risks associated with consuming resident fish species from the more heavily impacted regions. The lack of knowledge of the current fishing regulations by anglers as well as the observed and reported widespread illegal fishing activities demands a wide-ranging angler education program to improve understanding and compliance within the fishery. The future survival of these threatened salmonids and the sustainability of the emerging recreational fishery in Mongolia currently hangs in the balance. However, if these scientifically based recommendations are implemented in full, and can be adequately enforced, then the responsible authorities can take a huge step forward towards reversing the current trends and preserving the country’s imperilled freshwater fish populations and their valuable aquatic ecosystems. Mongolia can be a model for freshwater species conservation and management throughout the region and the world.:DECLARATION OF CONFORMITY I TABLE OF CONTENTS II ACKNOWLEDGMENTS V LIST OF ABBREVIATIONS VI LIST OF FIGURES VII LIST OF TABLES VIII SUMMARY IX SUMMARY IN GERMAN / ZUSAMMENFASSUNG AUF DEUTSCH XII SUMMARY IN MONGOLIAN / ХУРААНГУЙ XVI INTRODUCTION 1 1 RESEARCH OBJECTIVES AND HYPOTHESES 1 1.1 OVERALL THESIS OBJECTIVES 6 2 MONGOLIA’S NATURAL ENVIRONMENT 7 2.1 GEOGRAPHIC ECOREGIONS 7 2.2 CLIMATIC CONDITIONS 7 2.3 HYDROLOGICAL NETWORKS 8 2.4 FRESHWATER FISH FAUNA 9 3 ANTHROPOGENIC FORCINGS 11 3.1 CURRENT SOCIOECONOMIC TRANSITIONS 11 3.2 INTENSIFYING FISHING ACTIVITIES 11 3.3 CONTAMINATION OF AQUATIC ECOSYSTEMS 12 3.4 IMMINENT THREATS 15 RESEARCH CHAPTERS 17 4 AN EMERGING RECREATIONAL FISHERY IN MONGOLIA’S URBANISING SOCIETY: A THREAT TO ITS PRISTINE FISH STOCKS? 17 4.1 ABSTRACT 17 4.2 INTRODUCTION 18 4.3 MATERIALS AND METHODS 20 4.4 RESULTS 22 4.5 DISCUSSION 29 5 REGIONAL PATTERNS OF HEAVY METAL EXPOSURE AND CONTAMINATION IN THE FISH FAUNA OF THE KHARAA RIVER BASIN (MONGOLIA) 36 5.1 ABSTRACT 36 5.2 INTRODUCTION 37 5.3 MATERIALS AND METHODS 39 5.4 RESULTS 43 5.5 DISCUSSION 49 6 MOVEMENTS AND BEHAVIOUR OF AN ARCHAIC TROUT, BRACHYMYSTAX LENOK (PALLAS, 1773) UNDER EXTREME ENVIRONMENTAL CONDITIONS IN MONGOLIA 57 6.1 ABSTRACT 57 6.2 INTRODUCTION 57 6.3 MATERIALS AND METHODS 60 6.4 RESULTS 64 6.5 DISCUSSION 71 7 SEASONAL HOME RANGE SHIFTS OF THE SIBERIAN TAIMEN (HUCHO TAIMEN; PALLAS, 1773): EVIDENCE FROM PASSIVE ACOUSTIC TELEMETRY IN THE ONON RIVER AND BALJ TRIBUTARY (AMUR RIVER BASIN, MONGOLIA) 78 7.1 ABSTRACT 78 7.2 INTRODUCTION 79 7.3 MATERIALS AND METHODS 81 7.4 RESULTS 84 7.5 DISCUSSION 88 8 FISH CONSERVATION IN THE LAND OF STEPPE AND SKY: EVOLUTIONARY SIGNIFICANT UNITS OF THREATENED SALMONID SPECIES IN MONGOLIA MIRROR MAJOR RIVER BASINS 95 8.1 ABSTRACT 95 8.2 INTRODUCTION 95 8.3 MATERIALS AND METHODS 98 8.4 RESULTS 101 8.5 DISCUSSION 108 DISCUSSION 115 9 SOLUTIONS FOR SUSTAINABLE FISHERIES IN MONGOLIA 115 9.1 OVERVIEW AND LINKAGES OF KEY RESEARCH FINDINGS 115 9.2 FRESHWATER FISH CONSERVATION IN A TRANSITIONAL SOCIETY 118 9.3 ADDRESSING MANAGEMENT SHORTFALLS TO CURB INTENSIFYING FISHING ACTIVITIES 119 9.4 BIOMONITORING TO MITIGATE HUMAN HEALTH RISKS 122 9.5 IMPROVING ANGLER COMPLIANCE WITH INCREASED EDUCATION 123 9.6 PRESERVING HYDROLOGICAL CONNECTIVITY AND RIVER INTEGRITY IN THE FACE OF IMMINENT THREATS 124 9.7 MANAGEMENT AVOIDANCES 127 9.8 TRANSFERABILITY OF RESEARCH METHODS, RESULTS AND RECOMMENDATIONS 127 9.9 FUTURE RESEARCH AND MANAGEMENT PRIORITIES 129 10 REFERENCES 132 APPENDIX 1 I APPENDIX 2 II APPENDIX 3 VI APPENDIX 4 VIII APPENDIX 5 XXI APPENDIX 6 XXII APPENDIX 7 XXIV 11 REFERENCES TO OWN PUBLISHED / SUBMITTED MANUSCRIPT IN THE PRESENT THESIS XXV 12 INDIVIDUAL CONTRIBUTIONS TO THE CURRENT THESIS XXVI 13 NOTE ON THE COMMENCEMENT OF THE DOCTORAL PROCEDURE XXVIII 14 CURRICULUM VITAE XXIX 15 LIST OF PUBLICATIONS XXXIDie Mongolei befindet sich derzeit in einem rasanten sozioökonomischen Übergang mit tiefgreifenden Veränderungen, die v.a. durch eine Zunahme bergbaulicher Aktivitäten sowie einen Ausbau ackerbaulicher Nutzungen wie auch der Viehwirtschaft angetrieben werden. Derzeit vollzieht sich eine noch nie dagewesene Urbanisierung und ein weiteres Bevölkerungswachstum, das auf die alternde öffentliche Infrastruktur, einschließlich Kraftwerke und Abwasserbehandlungsanlagen, einen zusätzlichen Druck ausübt. Infolgedessen zeigen sich in den weitgehend unberührten Landschaften des Landes, einschließlich seiner riesigen Süßwasser-Ökosysteme, deutliche Anzeichen von Übernutzung natürlicher Ressourcen, Umweltverschmutzung und Artenverlusten. Zukünftig geplante große Staudämme werden neben den bevorstehenden Auswirkungen des Klimawandels die Hydrologie deutlich verändern. So sind bereits deutliche Beeinträchtigungen der Fluss-und See-Ökosysteme erkennbar, insbesondere in Hinblick auf ihre aquatischen Lebensgemeinschaften. Einige der weltweit einzigartigen Fischarten haben bereits erhebliche Bevölkerungsrückgänge erlitten. Eine weitere existenzielle Bedrohung für diese Fischpopulationen ist der rasche und weitgehend un-regulierte Anstieg der Fischereitätigkeiten aus einer aufstrebenden Freizeitfischerei. Obwohl Fischfang und -konsum keine traditionellen Elemente der mongolischen Ernährung oder Kultur darstellen, vollziehen sich diesbezüglich derzeit tiefgreifende Veränderungen. Daher wurden in der Mongolei umfangreiche Forschungsprojekte geplant und durchgeführt, um wesentliche Informationen über diese neue Art der Fischerei zu sammeln und gleichzeitig bestehende Wissenslücken in Bezug auf die räumliche Ökologie und die Metapopulationsstruktur der wichtigsten Zielarten zu schließen. Darüber hinaus zeigten Untersuchungen, dass sich aufgrund des erhöhten Konsums von lokal gefangenen Fischarten aus einem stark beeinträchtigten Einzugsgebiet ein potenzielles Risiko für die menschliche Gesundheit ergibt. Insgesamt ist das übergeordnete Ziel dieser Fischereiforschung, das wissenschaftliche Verständnis und Wissen zu erweitern und letztlich die derzeitigen Managementinstrumente zu verbessern und neue Erhaltungsmaßnahmen zu ergreifen, um die Nachhaltigkeit und Widerstandsfähigkeit der bedrohten Fischartenpopulationen und die aufkommende Erholung zu sichern. Insgesamt wurden zwischen 2011 und 2014 insgesamt fünf fischereibiologische Forschungsprojekte abgeschlossen, wobei die Ergebnisse dieser Arbeiten in Erhaltungs- und Managementempfehlungen münden. Wegen des Mangels an Wissen über die aufkommende Freizeitfischerei wurden Anglerbefragungen in drei Einzugsgebieten durchgeführt, welche fünf wichtige Themen wie Angler-Demographie, Fischereipraktiken, Reisetätigkeiten, Fanggeräte und Kosten sowie Anglerwissen und Meinungen umfassten. Fünfundsechzig Angelgruppen (n = 154 Angler) wurden interviewt und zwei Anglertypen identifiziert: ländliche Angler ohne oder niedrige Einkommen, die in dem Becken wohnen, alleine oder in kleineren Gruppen fischen, häufig für kürzere Zeiten fischen und regelmäßig Fisch verzehren; und städtische Angler, die mittlere bis hohe Einkommen haben, in größeren Städten leben, mehr Geld für Fanggeräte / Ausflüge ausgegeben und typischerweise für mehrere Tage am Stück fischen. B. lenok wurde als die bevorzugte und am meisten gefangene Zielarten der Fischerei identifiziert. Die Ergebnisse der Anglerbefragungen bestätigten den erhöhten Fischkonsum im Kharaa-Einzugsgebiet, das aufgrund der weit verbreiteten Schwermetallverunreinigung aus der Vergangenheit und den gegenwärtigen Bergbauaktivitäten als potenzielles Risiko für die menschliche Gesundheit identifiziert wurde. So wurden Schwermetallverunreinigungen im Flusswasser, Sediment und fünf konsumierten Fischarten an 11 Standorten im Einzugsgebiet untersucht. Schwermetalle zeigten sich in allen fünf Stichprobenarten, wobei der maximale Muskelgehalt von Cr, As, Hg und Pb in Fischen aus dem Mittel- und Unterlauf festgestellt wurde, während Zn in B. lenok in den Oberlaufregionen stark erhöht war. Der erhöhte mediane Gehalt an Cr, Cu, Hg und Pb nahm mit trophischer Ebene zu, wobei die Bioakkumulation von Hg die größte Bedrohung für die menschliche Gesundheit darstellte, wobei über 10% aller Fischproben den international empfohlenen Schwellenwert für Hg im verzehrbaren Fischgewebe überstiegen (> 0,5 μg g-1 ww). Diese Bioakkumulation in residenten Fischarten könnte zu chronischen Intoxikationen bei Menschen führen, die sie regelmäßig konsumieren und zusätzliche Exposition gegenüber anderen Kontaminationsquellen haben, z.B. im Goldbergbau. Es wurden weitere zwei Projekte durchgeführt, die eine passive akustische Telemetrie zur Beschreibung der räumlichen und zeitlichen Autökologie, des Lebensraumnutzens und des Verhaltens von B. lenok im Eroo River und H. taimen in den Flüssen Onon und Balj unter den extremen Klimabedingungen der Mongolei verwendeten. Die maximalen Längsbewegungen (Heimatbereiche) wurden -umfangreicher als bisher angenommen- für beide Arten wurden auf 45,3 km für B. lenok und 126,1 km für H. taimen ermittelt. Im Frühjahr und Sommer wurden erhöhte Bewegungen aufgezeichnet, wobei die Individuen in die umliegenden Nebenflüsse eintraten und dort zwischen 4 und 85 Tagen verblieben, bevor sie zum Hauptfluss des Flusses zurückkehrten. Die Ergebnisse zeigen die Bedeutung der Aufrechterhaltung der Integrität und der Konnektivität von Nebenflüssen für Laichen, Nahrungssuche und Überwinterung sowie hydrologische und thermische Schutzräume, die für diese Arten in der Region mit den anstehenden Auswirkungen des Klimawandels zunehmend an Bedeutung gewinnen werden. Die verbesserten Kenntnisse der räumlichen Ökologie dieser bedrohten Arten kann die Gestaltung und Umsetzung neuer Schutzmaßnahmen wie Süßwasser-Schutzgebiete in der Mongolei wissenschaftlich fundieren und leiten. Weitere Untersuchungen wurden durchgeführt, um ein breiteres, multigenerationales Verständnis der Zusammenhänge zwischen den konkreten Populationen von H. taimen, B. lenok und T. baicalensis über die großen Flusseinzugsgebiete zu gewinnen. Sowohl molekulare als auch nukleare Marker wurden verwendet, um die genetische Struktur abzugrenzen und definieren, so z.B. evolutionär signifikante Einheiten (ESUs) und eigenständige Populationen für diese Arten einschließlich ihrer räumlichen Verteilung in der Mongolei. Über alle Arten hinweg war das deutlichste Muster eine starke Differenzierung zwischen den großen Becken mit geringer Differenzierung. Dem gegenüber stehen schwache Muster der Isolation durch die Distanz in den Becken, die eine hohe einzugsgebietsinterne Konnektivität anzeigen, obwohl exakte Muster nicht vollständig unter allen Arten übereinstimmten. Die Prioritäten der Erhaltung müssen sich auf die Verbesserung des Schutzes der vorrangigen Bevölkerungsgruppen innerhalb jeder Art und ESU konzentrieren, um die begrenzten verfügbaren Ressourcen für die Arten- und Populations-Erhaltung und fischereiliche Bewirtschaftung in der Mongolei zu maximieren. Die umfangreichen Ergebnisse aus der aktuellen wissenschaftlichen Forschung ermöglichten die Ableitung umfassender Empfehlungen für die Umsetzung neuer und die Verbesserung der bestehenden Management- und Erhaltungsmaßnahmen in Bezug auf die bedrohten Lachsarten der Mongolei und die aufkommende Freizeitfischerei. Diese Empfehlungen beinhalten 1.die Gründung einer Reihe von Süßwasser-Schutzgebieten (FPA) in den großen Flussgebieten der Mongolei auf der Grundlage der räumlichen Ökologie und der genetischen Bevölkerungsstruktur, die durch die aktuellen Forschungsergebnisse untermauert wird; 2. Eine Verschiebung des Eröffnungstermins der Fangsaison, welche im Gegensatz zur aktuellen Praxis die gesamte Laichzeit von B. lenok (die Hauptzielspezies der Fischerei); umfassen sollte; 3. Hinzufügen des Stumpfschnauzen-Lenok (B. sp.) zur Liste der besonders geschützten Arten, da er sich als eine genetisch unabhängige Spezies erwiesen hat, welche eine begrenzte räumliche Verteilung und geringe Populationsdichte in der Mongolei hat; und 4. Einführung von minimalen (und potentiell maximalen) Körpergrößenbeschränkungen für B. lenok und T. baicalensis, um die unreifen und heranwachsenden Individuen besser vor menschlichen Einflüssen zu schützen. Darüber hinaus empfiehlt es sich dringend, in den wichtigsten Flussgebieten fischereilich genutzte und nicht genutzte Fischpopulationen zu erfassen und Biomonitoring-Programme (unter Verwendung von Bioindikator-Spezies) zu implementieren, um toxische Schwermetallverunreinigungen zu verfolgen und potenzielle Risiken für die menschliche Gesundheit zu identifizieren, die mit dem Verzehr Fischen aus beeinträchtigten Regionen einhergehen. Schließlich verlangt das Fehlen von Kenntnissen über die derzeitigen Fischereiverordnungen durch Angler sowie die beobachteten und gemeldeten weitverbreiteten illegalen Fischereitätigkeiten ein weitreichendes Angler-Bildungsprogramm, um das Verständnis und die Einhaltung fischereilicher Regelungen zu verbessern. Das künftige Überleben der bedrohten Salmoniden und die Nachhaltigkeit der aufkommenden Freizeitfischerei in der Mongolei sind eng miteinander verbunden. Sofern die hier dargestellten wissenschaftlich fundierten Empfehlungen in vollem Umfang umgesetzt werden und hinreichend kontrolliert werden können, würden die zuständigen Behörden einen großen Schritt in Richtung der Umkehrung der aktuellen Trends machen und die gefährdeten Süßwasserfischpopulationen des Landes und ihre wertvollen aquatischen Ökosysteme bewahren. Die Mongolei könnte dann ein Modell für die Erhaltung und Bewirtschaftung von Süßwasserarten in der ganzen Region und der Welt werden.:DECLARATION OF CONFORMITY I TABLE OF CONTENTS II ACKNOWLEDGMENTS V LIST OF ABBREVIATIONS VI LIST OF FIGURES VII LIST OF TABLES VIII SUMMARY IX SUMMARY IN GERMAN / ZUSAMMENFASSUNG AUF DEUTSCH XII SUMMARY IN MONGOLIAN / ХУРААНГУЙ XVI INTRODUCTION 1 1 RESEARCH OBJECTIVES AND HYPOTHESES 1 1.1 OVERALL THESIS OBJECTIVES 6 2 MONGOLIA’S NATURAL ENVIRONMENT 7 2.1 GEOGRAPHIC ECOREGIONS 7 2.2 CLIMATIC CONDITIONS 7 2.3 HYDROLOGICAL NETWORKS 8 2.4 FRESHWATER FISH FAUNA 9 3 ANTHROPOGENIC FORCINGS 11 3.1 CURRENT SOCIOECONOMIC TRANSITIONS 11 3.2 INTENSIFYING FISHING ACTIVITIES 11 3.3 CONTAMINATION OF AQUATIC ECOSYSTEMS 12 3.4 IMMINENT THREATS 15 RESEARCH CHAPTERS

    Ecosystem Health in Walpole Island: Exposure to POPs and Heavy Metals in the WIFN Community

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    Walpole Island First Nation (WIFN) community is located on the St. Clair River downstream from the large industrial area, Chemical Valley. Members of the WIFN have historically been exposed to persistent organic pollutants (POPs) and heavy metals which could contribute to adverse health, such as type 2 diabetes and chemophobia. We conducted a collaborative community-based biomonitoring study with volunteers from the WIFN. Hair and blood samples were used to assess exposure to POPs and heavy metals and to determine levels of stress within the community by the assay of cortisol on hair. Concentrations of POPs and heavy metals in volunteers were within ranges reported in the scientific literature for other populations, and were either lower or no different from 2 referent groups living in Ontario. Cortisol concentrations in hair of volunteers were higher compared to a referent group, indicating the possibility of enhanced stress from which chemophobia contribution is unknown
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