Global ETD Search

21	Effect of dietary lipid and astaxanthin level on pigmentation of arctic charr (Salvelinus alpinus) / Lin, Shujun, January 1997 (has links) Thesis (M. Sc.)--Memorial University of Newfoundland, 1997. / Restricted until November 1998. Bibliography: leaves 94-106.
22	Life history ecology of the cestode Diphyllobothrium dendriticum in copepod and fish hosts Wright, M. Elizabeth. January 2000 (has links) No description available. Arctic char -- Parasites. Cyclops scutifer -- Parasites. Diphyllobothrium dendriticum. Diaptomus -- Parasites.
23	The use of otolith micro-chemical techniques to examine trace element residence time, migration, and population discrimination of teleost fishes in the Canadian Polar North Loewen, Tracey N. January 1900 (has links) Studying calcium carbonate (otoliths) and calcium phosphate (fins, scales, bones) hard structure chemistry has numerous applications in the fisheries field for both freshwater and marine environments. The overall thesis objectives were: 1.) to provide an integrated and multidisciplinary approach to understanding the incorporation of trace elements and isotopes into biomineralized hard structures, and 2.) to apply this multidisciplinary perspective in the examination of element marking, stock discrimination, and migration in teleost fish species found within the Canadian Polar North. Varying physiological mechanisms within fishes control the uptake of essential and non-essential trace elements and isotopes during biomineralization processes. Essential life elements such as zinc and magnesium are controlled by their own uptake regulation systems whereas non-essential elements such as strontium and barium are controlled primarily by calcium uptake at the gills driven by internal calcium homeostasis. Secondarily, environmental trace elements compete with calcium and with each other for uptake at the gills. The ability of certain hard structures such as bones, fins, and scales to remobilise calcium and associated calcium-like elements, plays a role in the prolonged high concentrations of strontium that were observed in otolith marking of Greenland Halibut, Reinhardtius hippoglossoides. High doses of strontium chloride resulted in a prolonged expulsion of excess strontium. Strong associations of Dolly Varden Char, Salvelinus malma malma, with groundwater allowed discrimination of populations among studied river systems using otolith strontium and barium, and strontium isotopes. Calculation of otolith strontium freshwater baselines allowed for a quantitative method to examine migration histories of Arctic Char, S. alpinus, in Canada and western Greenland. Migration seaward was related to ease of access to estuary and marine habitats. Easy access to estuaries resulted in migration at a young age and small size whereas longer rivers resulted in a delay of migration to older ages and larger sizes. Understanding the role of fish physiology in association with calcium homeostasis provided a stronger basis for understanding the incorporation and presence of trace elements and isotopes found within biomineralized hard structures. These studies underscore the utility of microchemical studies for elucidating biological phenomena, thus linking the aspects of biology, physiology, and geology. / February 2017 Arctic Char Biominerals Dolly Varden Char Trace elements and isotopes Greenland Halibut Otolith
24	Invasion of top and intermediate consumers in a size structured fish community / Invasion av toppredatorer och intermediära konsumenter i ett storleksstrukturerat fisksamhälle Ask, Per January 2010 (has links) In this thesis I have investigated the effects of invading top and intermediate consumers in a size-structured fish community, using a combination of field studies, a lake invasion experiment and smaller scale pond and aquaria experiments. The lake invasion experiment was based on introductions of an intermediate consumer, ninespine stickleback (Pungitius pungitius L.), in to allopatric populations of an omnivorous top predator, Arctic char (Salvelinus alpinus L.). The invasion experiment was performed in two tundra lakes and in two birch forest lakes to investigate the effect of climate on the invasion success. I found that the effect of sticklebacks on char was size dependent. Small char suffered reduced growth from resource competition with sticklebacks whereas the maximum size of adult char increased from the addition of a larger prey resource, stickleback. The negative effect of sticklebacks on the growth of small char suggests that sticklebacks may be a better resource competitor than char, which was also supported by the pond and aquaria experiments. The pond experiments also suggested that char were more efficient cannibals than interspecific predators on sticklebacks. Cannibalism in char may limit the recruitment of char and decrease both their predatory and competitive effect on coexisting species and thereby also promote the coexistence of char and sticklebacks. The successful invasion by sticklebacks and their subsequent increases in density suggest that the absence of sticklebacks in char lakes in this region is not caused by biotic interactions with char. Instead, it may be suggested that co-occurrence of sticklebacks and char in the region is limited by dispersal. The char – stickleback system resembles an intraguild predation system with char as the top consumer and stickleback as the intermediate consumer. The effects of the stickleback invasion is also contrasted with a field study of a northern pike (Esox lucius L.) invasion into a system with coexisting char and stickleback, where pike can be viewed as the top consumer and char as the intermediate consumer both feeding on sticklebacks. In this case pike excluded char. The identity of the invading species and the relative strength of the predatory and competitive interactions in the two contrasting systems are discussed in relation to coexistence in intraguild predation systems. I found that the identity of the invading species is of crucial importance for the response at the ecosystem level, and that the inherent size dependency of competitive and predatory interactions in fish communities is important for attaining a mechanistical understanding of the effects of invasive species in lake ecosystems. Invasion intraguild predation size-structure cannibalism climate temperature Arctic char ninespine stickleback Freshwater ecology Limnisk ekologi
25	La transmission de Diphyllobothrium ditremum à l'omble chevalier (Salvelinus alpinus) dans deux lacs sub-arctiques du Québec / Bérubé, Michel. January 1985 (has links) No description available. Arctic char -- Diseases. Diphyllobothrium ditremum. Fishes -- Parasites.
26	La transmission de Diphyllobothrium ditremum à l'omble chevalier (Salvelinus alpinus) dans deux lacs sub-arctiques du Québec / Bérubé, Michel. January 1985 (has links) No description available. Fishes -- Parasites. Diphyllobothrium ditremum. Arctic char -- Diseases.
27	Evaluating the effects of climate change and interactions between salmonid populations in Swedish mountain lakes / En studie av klimatförändringarnas effekt på förekomsten och interaktionen mellan laxartade fiskar i svenska fjällsjöar Jonsson, Linus January 2020 (has links) Previous studies suggest that global warming threatens populations of Arctic char (Salvelinus alpinus L.) and that interspecific competition from brown trout (Salmo trutta L.) can have negative effects when the species occur in sympatry. The aim of this study was to investigate if populations of Arctic char have declined in the last decades in lakes where they in the past have coexisted with brown trout. I examined this by revisiting five lakes previously sampled in the mountain region of Västerbotten (Sweden) during the 1960´s. This study repeated earlier sampling methods and examined the population size, biomasses and individual size and weight of all fish. Results showed increased abundances of brown trout and a trend towards declining Arctic char populations in the five lakes. Both Arctic char and brown trout currently had higher mean lengths than previous sampling years. This study also examined the diet and growth rate of both species. The diet analysis showed that the species to some extent overlapped in diet, while they also showed clear differences, where Arctic charr e.g. consumed more pelagic zooplankton. The growth rate was higher for Arctic char and differed between lakes. The shift towards more brown trout dominated lakes could depend on both that the two species are differently affected by a warmer climate, and that fishing habits have changed since the 1960´s. A warmer climate likely changed the species interaction in favor of trout and could lead to more competition and predation on Arctic char. Arctic char brown trout climate change diet species interaction Fjällröding öring klimatförändring diet artinteraktion Natural Sciences Naturvetenskap Ecology Ekologi
28	Developmental and reproductive regulation of NR5A genes in teleosts Hofsten, Jonas von January 2004 (has links) <p>In mammals sex chromosomes direct and initiate the development of male and female gonads and subsequently secondary sex characteristics. In most vertebrates each individual is pre-destined to either become male or female. The process by which this genetic decision is carried out takes place during the embryonic development and involves a wide range of genes. The <i>fushi tarazu</i> factor-1 (FTZ-F1) is a nuclear receptor and transcription factor, which in mammals has proven to be essential for gonad development and directs the differentiation of testicular Sertoli cells. A mammalian FTZ-F1 homologue subtype, steroidogenic factor-1 (SF-1), is a member of the nuclear receptor 5A1 (NR5A1) group and regulate several enzymes involved in steroid hormone synthesis. It also regulates the expression of the gonadotropin releasing hormone receptor GnRHr and the β-subunit of the luteinizing hormone (LH), indicating that it functions at all levels of the reproductive axis. Another mammalian FTZ-F1 subtype, NR5A2, is in contrast to SF-1, not linked to steroidogenesis or sex determination. Rather, NR5A2 is involved in cholesterol metabolism and bile acid synthesis in liver. Hormones and environmental factors such as temperature and pH can influence teleost development and reproductive traits, rendering them vulnerable to pollutants and climate changes. Very little is known about teleost FTZ-F1 expression, regulation and function. In this thesis, expression patterns of four zebrafish FTZ-F1 genes (ff1a, b, c and d) and two Arctic char genes (acFF1α and β) were studied during development, displaying complex embryonic expression patterns. Ff1a expression was in part congruent with expression of both mammalian NR5A1 and NR5A2 genes but also displayed novel expression domains. The complexity of the expression pattern of ff1a led to the conclusion that the gene may be involved in several developmental processes, including gonad development, which also was indicated by its transcriptional regulation via Sox9a. Two ff1a homologues were also cloned in Arctic char and were shown to be involved in the reproductive cycle, as the expression displayed seasonal cyclicity and preceded that of the down stream steroidogenic genes StAR and CYP11A. High levels were correlated to elevated plasma levels of 11-ketotestosterone (11KT) in males and 17β-estradiol (E2) in females respectively. Treatment with 11KT did not affect FTZ-F1 expression directly but was indicated to alter expression of CYP11A and 3β-hydroxysteroid dehydrogenase. E2 treatment was indicated to down-regulate the expression of testicular FTZ-F1, which may contribute to the feminising effect previously observed in E2 treated salmonids. Ff1d is a novel FTZ-F1 gene, expressed in pituitary and interrenal cells during development, suggesting steroidogenic functions. In adult testis and ovary ff1d was co-expressed with anti-Mullerian hormone (AMH), a gene connected to sex determination in mammals and previously not characterised in teleost fish. The co-expression between ff1d and AMH was found in Sertoli and granulosa cells, which is congruent with the co-expression of mammalian SF-1 and AMH. This suggests that ff1d and AMH may have similar functions in teleost sex differentiation and reproduction, as their mammalian homologues. In conclusion, this study present data that connects members of the teleost FTZ-F1 family to reproduction, cholesterol metabolism and sex determination and differentiation.</p> Cell and molecular biology FTZ-F1 NR5A zebrafish teleost arctic char SF-1 LRH-1 fushi tarazu Cell- och molekylärbiologi Cell and molecular biology Cell- och molekylärbiologi
29	Developmental and reproductive regulation of NR5A genes in teleosts Hofsten, Jonas von January 2004 (has links) In mammals sex chromosomes direct and initiate the development of male and female gonads and subsequently secondary sex characteristics. In most vertebrates each individual is pre-destined to either become male or female. The process by which this genetic decision is carried out takes place during the embryonic development and involves a wide range of genes. The fushi tarazu factor-1 (FTZ-F1) is a nuclear receptor and transcription factor, which in mammals has proven to be essential for gonad development and directs the differentiation of testicular Sertoli cells. A mammalian FTZ-F1 homologue subtype, steroidogenic factor-1 (SF-1), is a member of the nuclear receptor 5A1 (NR5A1) group and regulate several enzymes involved in steroid hormone synthesis. It also regulates the expression of the gonadotropin releasing hormone receptor GnRHr and the β-subunit of the luteinizing hormone (LH), indicating that it functions at all levels of the reproductive axis. Another mammalian FTZ-F1 subtype, NR5A2, is in contrast to SF-1, not linked to steroidogenesis or sex determination. Rather, NR5A2 is involved in cholesterol metabolism and bile acid synthesis in liver. Hormones and environmental factors such as temperature and pH can influence teleost development and reproductive traits, rendering them vulnerable to pollutants and climate changes. Very little is known about teleost FTZ-F1 expression, regulation and function. In this thesis, expression patterns of four zebrafish FTZ-F1 genes (ff1a, b, c and d) and two Arctic char genes (acFF1α and β) were studied during development, displaying complex embryonic expression patterns. Ff1a expression was in part congruent with expression of both mammalian NR5A1 and NR5A2 genes but also displayed novel expression domains. The complexity of the expression pattern of ff1a led to the conclusion that the gene may be involved in several developmental processes, including gonad development, which also was indicated by its transcriptional regulation via Sox9a. Two ff1a homologues were also cloned in Arctic char and were shown to be involved in the reproductive cycle, as the expression displayed seasonal cyclicity and preceded that of the down stream steroidogenic genes StAR and CYP11A. High levels were correlated to elevated plasma levels of 11-ketotestosterone (11KT) in males and 17β-estradiol (E2) in females respectively. Treatment with 11KT did not affect FTZ-F1 expression directly but was indicated to alter expression of CYP11A and 3β-hydroxysteroid dehydrogenase. E2 treatment was indicated to down-regulate the expression of testicular FTZ-F1, which may contribute to the feminising effect previously observed in E2 treated salmonids. Ff1d is a novel FTZ-F1 gene, expressed in pituitary and interrenal cells during development, suggesting steroidogenic functions. In adult testis and ovary ff1d was co-expressed with anti-Mullerian hormone (AMH), a gene connected to sex determination in mammals and previously not characterised in teleost fish. The co-expression between ff1d and AMH was found in Sertoli and granulosa cells, which is congruent with the co-expression of mammalian SF-1 and AMH. This suggests that ff1d and AMH may have similar functions in teleost sex differentiation and reproduction, as their mammalian homologues. In conclusion, this study present data that connects members of the teleost FTZ-F1 family to reproduction, cholesterol metabolism and sex determination and differentiation. Cell and molecular biology FTZ-F1 NR5A zebrafish teleost arctic char SF-1 LRH-1 fushi tarazu Cell- och molekylärbiologi Cell and molecular biology Cell- och molekylärbiologi
30	Transposable elements in the salmonid genome Minkley, David Richard 30 April 2018 (has links) Salmonids are a diverse group of fishes whose common ancestor experienced an evolutionarily important whole genome duplication (WGD) event approximately 90 MYA. This event has shaped the evolutionary trajectory of salmonids, and may have contributed to a proliferation of the repeated DNA sequences known as transposable elements (TEs). In this work I characterized repeated DNA in five salmonid genomes. I found that over half of the DNA within each of these genomes was derived from repeats, a value which is amongst the highest of all vertebrates. I investigated repeats of the most abundant TE superfamily, Tc1-Mariner, and found that large proliferative bursts of this element occurred shortly after the WGD and continued during salmonid speciation, where they have produced dramatic differences in TE content among extant salmonid lineages. This work provides important resources for future studies of salmonids, and advances the understanding of two important evolutionary forces: TEs and WGDs. / Graduate / 2019-04-19 Transposable elements Salmon Genome annotation Repeats Genome evolution Bioinformatics Speciation Evolution Tc1-Mariner Whole genome duplication Polyploidy Fish Rainbow trout Arctic char Atlantic salmon Coho salmon Chinook salmon Salmo salar Salvelinus alpinus Oncorhynchus mykiss Oncorhynchus kisutch Oncorhynchus tshawytscha

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