Global ETD Search

1	Comparative Growth of All-Female Versus Mixed Sex Yellow Perch (Perca flavescens) in Recirculating Aquaculture Systems Schmitz, Mark Harvey 26 August 1999 (has links) Nine, production-scale, recirculating aquaculture systems were utilized to compare the growth parameters between all-female and mixed sex yellow perch stocks. Each system was stocked with 455 fish m⁻³ and contained one of three different biofilter types: a rotating biological contactor, a trickling filter or a bead filter. The all-female fingerlings (S1) used were originally derived from Lake Mendota, Wisconsin. The mixed-sex fingerlings (S2) used were originally derived from Lake Erie. Temperature and photoperiod (23°C, 16H-L) were maintained at levels for optimal growth. Absolute growth rates ranged from 0.27-0.48 g/day. Mean final density within treatments was 42.8 kg/m³ and ranged from 37.2-50.2 kg/m³. The main effect of stock did not have a significant effect on growth (p > .1). All-female treatments exhibited more uniform growth. The main effect of filter type did have a significant effect on fish growth (p < .01), with fish in tanks containing trickling filters exhibiting significantly higher growth. Total feed conversion averaged 1.61 across all treatments and ranged from 1.38-1.78. S1 treatments consumed a significantly higher percent body weight per day than S2 treatments (p < .05). Analysis of PIT tagged individuals revealed that the mean relative growth rate was significantly higher in S2 individuals (513.9%) compared to S1 individuals (315.3%: p < .01). S2 females (597.8%) grew 1.9 times faster than S1 females (315.3%: p < .01). Within S2 individuals, females (597.8%) grew 1.5 times faster than males (395.2%: p < .05). For all individuals, 33.6% of the variation in final weight was explained by the variation in initial weight. Differences in the geographic strain or culture history of these stocks may have had a larger overall effect on growth than sexual classification (all- female or mixed sex). Dress percentage of skin-on butterfly fillets was examined in 20 individuals per stock and in six groups of 20 individuals per stock. Within S2 individuals, 73.7% were female. Mean fillet yield was significantly greater in S1 individuals (47.6%) compared to S2 individuals (43.0%: p < .01). Mean GSI in S1 individuals (1.01%) was significantly higher than S2 individuals (0.54%: p < .05). Within S2 individuals, mean GSI was significantly higher in females (0.70%) when compared to males (0.08%: p < .05). Fillet yield was significantly greater in S1 groups (47.2%) compared to S2 groups (44.9%: p < .01). Within each stock fillet yield increased with size. The difference in fillet yield demonstrated between these stocks may be a result of differences in strain of origin. The identification of superior yellow perch strains or strain crosses with regard to growth rate and fillet percentage is of considerable importance to the industry. / Master of Science yellow perch Perca flavescens fish culture
2	Fatty Acids Profiles of Yellow Perch (Perca flavescens) in Lakes of the Outaouais Region with and without Largemouth Bass (Micropterus salmoides) and Smallmouth Bass (Micropterus dolomieu) Langevin, Karolanne January 2016 (has links) Fatty acids (FAs) are used as trophic markers in aquatic food web studies, but few studies have quantified individual variability in FAs profiles over several sites in a range of conditions. I investigated whether FAs profiles of yellow perch (YP), Perca flavescens, vary with body size and between lakes with and without largemouth (Micropterus salmoides), and smallmouth bass (Micropterus dolomieu), the most common and abundant piscivores in lakes of the region. I analyzed the FAs of YP as well as zooplankton, benthic invertebrates, and prey fish collected from eight lakes where bass were either present or absent in the Outaouais region over the summer of 2016. I compared the growth rate of YP between the lakes and the YP in lakes without bass exhibited a slower growth rate. I also compared the FA signatures of YP using redundancy analysis (RDA). 23 FAs could be identified and quantified. FAs profiles were dominated by palmitic- (16:0), oleic- (18:1), stearic- (18:0), and palmitoleic acid (16:1). The RDA analysis based on FAs profiles of YP revealed variation along two main gradients (the presence of bass and the date of capture). The first two eigenvectors accounted for 42.1% of the variation (RDA1=27.6% and 2=14.6%). Arachidonic (20:4) and docosatrienoic (22:3) were the most correlated FAs with RDA1. Due to the sampling period, it was impossible to determine if the observed effects were due to the date of capture, the presence of bass, or a change in metabolism, but the last two were deemed as the most plausible explanations. It was concluded that the utility of FA signatures to quantify diet in natural environments is limited and that FAs might be more successful as markers in primary consumers and other lower trophic levels. It is recommended that a combination of FAs, stable isotopes, and modelling should be used in the future. Fatty acids composition polyunsaturated fatty acids yellow perch diet piscivores Perca Flavescens food web
3	ANALYSIS OF DIETARY OVERLAP BETWEEN YELLOW PERCH (PERCA FLAVESCENS) AND ROUND GOBY (NEOGOBIUS MELANOSTOMUS) IN WESTERN LAKE ERIE THROUGH GUT AND STABLE ISOTOPE ANALYSES Marschner, Caroline A. 21 November 2003 (has links) No description available. Yellow perch Perca flavescens Round goby Neogobius melanostomus Dietary analysis Stable isotopes Bootstrapping Schoener index
4	Évidence génétique de populations sympatriques de la perchaude (Perca flavescens) dans le Lac Saint-Pierre Leung, Christelle 10 1900 (has links) La perchaude (Perca flavescens) constitue une ressource socioéconomique de grande importance dans le Lac Saint-Pierre (Québec, Canada). Bien que ce lac fluvial soit désigné réserve de la biosphère par l’UNESCO, le statut de la perchaude est préoccupant. Afin de permettre à l’espèce de persister en fonction des diverses pressions anthropiques, il est important de comprendre sa dynamique populationnelle et les mécanismes qui en sont responsables. La perchaude est connue pour sa philopatrie ; le fait de toujours se reproduire à son site de naissance peut entraîner la subdivision d’une espèce en de multiples populations, où chacune pourra être pourvue d’adaptations locales distinctes. Il est possible d’étudier ces processus à l’aide des signaux génétiques associés à la reproduction des individus. Toutefois, une faible différentiation génétique entre les populations du Lac Saint-Pierre est envisagée en raison de la colonisation récente du système (moins de 8000 ans). L’objectif de cette étude est de déterminer s’il existe plusieurs populations de perchaude dans le Lac Saint-Pierre. Les simulations réalisées ont révélé que l’utilisation de marqueurs AFLP (amplified fragment length polymorphism), permettant une analyse globale du génome, affiche une meilleure détection de la différentiation des populations que celle des marqueurs microsatellites. Afin d’associer les individus à leur site de naissance, la méthode d’AFLP et des microsatellites ont été utilisées sur des larves capturées suite à l’éclosion des oeufs. Trois analyses distinctes d’AFLP ont indiqué une corrélation entre la composition génétique des individus et des sites géographiques, confirmant ainsi la présence de plusieurs populations sympatriques dans le Lac Saint-Pierre, découlant vraisemblablement de la philopatrie de l’espèce. L’absence de différentiation génétique relatée par les marqueurs microsatellites vient confirmer l’importance du choix des marqueurs génétiques. Bien que la différentiation génétique observée soit relativement faible, la gestion de la perchaude devrait tenir compte de la dynamique des populations distinctes dans ce système. / Yellow perch (Perca flavescens) is a commercially-exploited freshwater fish species in Lake Saint-Pierre (Quebec, Canada). Even if this fluvial lake is designated as a biosphere reserve by UNESCO, the yellow perch status is of concern. To ensure the persistence of species facing to anthropogenic pressures, understanding dynamics and mechanism that structure populations are of major importance. Because the habitat characteristics are spatially structured and this species is known to display natal site fidelity, a subdivision of the species in multiple populations and local adaptations may occur. It is possible to detect these processes according to genetic signal associated with individuals’ reproduction. However, low genetic differentiation is hypothesised due to the recent colonization of the system (< 8 K years). This study aims at determining if there are multiple populations of yellow perch in Lake Saint-Pierre. Simulations was first performed to confirm that population differentiation is better depicted by amplified fragment length polymorphism (AFLP) than microsatellite markers. In order to associate individuals to their site of birth, larvae captured after hatching were used. A survey of the variation throughout the entire genome was then performed by using the AFLP approach and variations at microsatellite loci were used to further investigate the organization of these populations. Three distinct AFLP analyses indicated a correlation between genetic composition of individuals and spawning sites, and thus confirmed the presence of multiple sympatric populations in Lake Saint-Pierre, resulting likely from natal site fidelity. At the opposite, the lack of genetic differentiation reported by microsatellites markers confirms the importance of the choice of genetic markers. While the genetic differentiation is very low, the management of this species should take into account the existence of distinct population structures in this system. AFLP microsatellites différentiation génétique plans d'aménagement philopatrie Perca flavescens Lac Saint-Pierre AFLP microstellites genetic differentiation fishery management plan natal site fidelity Perca flavescens Lake Saint-Pierre
5	Évidence génétique de populations sympatriques de la perchaude (Perca flavescens) dans le Lac Saint-Pierre Leung, Christelle 10 1900 (has links) La perchaude (Perca flavescens) constitue une ressource socioéconomique de grande importance dans le Lac Saint-Pierre (Québec, Canada). Bien que ce lac fluvial soit désigné réserve de la biosphère par l’UNESCO, le statut de la perchaude est préoccupant. Afin de permettre à l’espèce de persister en fonction des diverses pressions anthropiques, il est important de comprendre sa dynamique populationnelle et les mécanismes qui en sont responsables. La perchaude est connue pour sa philopatrie ; le fait de toujours se reproduire à son site de naissance peut entraîner la subdivision d’une espèce en de multiples populations, où chacune pourra être pourvue d’adaptations locales distinctes. Il est possible d’étudier ces processus à l’aide des signaux génétiques associés à la reproduction des individus. Toutefois, une faible différentiation génétique entre les populations du Lac Saint-Pierre est envisagée en raison de la colonisation récente du système (moins de 8000 ans). L’objectif de cette étude est de déterminer s’il existe plusieurs populations de perchaude dans le Lac Saint-Pierre. Les simulations réalisées ont révélé que l’utilisation de marqueurs AFLP (amplified fragment length polymorphism), permettant une analyse globale du génome, affiche une meilleure détection de la différentiation des populations que celle des marqueurs microsatellites. Afin d’associer les individus à leur site de naissance, la méthode d’AFLP et des microsatellites ont été utilisées sur des larves capturées suite à l’éclosion des oeufs. Trois analyses distinctes d’AFLP ont indiqué une corrélation entre la composition génétique des individus et des sites géographiques, confirmant ainsi la présence de plusieurs populations sympatriques dans le Lac Saint-Pierre, découlant vraisemblablement de la philopatrie de l’espèce. L’absence de différentiation génétique relatée par les marqueurs microsatellites vient confirmer l’importance du choix des marqueurs génétiques. Bien que la différentiation génétique observée soit relativement faible, la gestion de la perchaude devrait tenir compte de la dynamique des populations distinctes dans ce système. / Yellow perch (Perca flavescens) is a commercially-exploited freshwater fish species in Lake Saint-Pierre (Quebec, Canada). Even if this fluvial lake is designated as a biosphere reserve by UNESCO, the yellow perch status is of concern. To ensure the persistence of species facing to anthropogenic pressures, understanding dynamics and mechanism that structure populations are of major importance. Because the habitat characteristics are spatially structured and this species is known to display natal site fidelity, a subdivision of the species in multiple populations and local adaptations may occur. It is possible to detect these processes according to genetic signal associated with individuals’ reproduction. However, low genetic differentiation is hypothesised due to the recent colonization of the system (< 8 K years). This study aims at determining if there are multiple populations of yellow perch in Lake Saint-Pierre. Simulations was first performed to confirm that population differentiation is better depicted by amplified fragment length polymorphism (AFLP) than microsatellite markers. In order to associate individuals to their site of birth, larvae captured after hatching were used. A survey of the variation throughout the entire genome was then performed by using the AFLP approach and variations at microsatellite loci were used to further investigate the organization of these populations. Three distinct AFLP analyses indicated a correlation between genetic composition of individuals and spawning sites, and thus confirmed the presence of multiple sympatric populations in Lake Saint-Pierre, resulting likely from natal site fidelity. At the opposite, the lack of genetic differentiation reported by microsatellites markers confirms the importance of the choice of genetic markers. While the genetic differentiation is very low, the management of this species should take into account the existence of distinct population structures in this system. AFLP microsatellites différentiation génétique plans d'aménagement philopatrie Perca flavescens Lac Saint-Pierre AFLP microstellites genetic differentiation fishery management plan natal site fidelity Perca flavescens Lake Saint-Pierre
6	The Physiological and Behavioral Responses of Yellow Perch to Hypoxia Bodamer Scarbro, Betsy L. 31 December 2014 (has links) No description available. Biology Experiments Freshwater Ecology Limnology Molecular Biology Physiology Aquatic Sciences Behavioral Sciences hypoxia yellow perch, perca flavescens fish behavior Lake Erie
7	Population Genetic Structure and Biogeographic Patterns in the Yellow Perch <i>Perca flavescens</i>: An Analysis of Mitochondrial and Nuclear DNA Markers Sepulveda Villet, Osvaldo Jhonatan January 2011 (has links) No description available. Aquatic Sciences Ecology Genetics yellow perch Perca flavescens population genetics phylogenetics phylogeography ecology genetics genetic structure glacial refugia Great Lakes Lake Erie
8	Des larves aux adultes : effets de la végétation aquatique et de la qualité de l'eau sur l'abondance de la perchaude dans le lac Saint-Pierre (fleuve Saint-Laurent) = From larvae to adults : the effect of aquatic vegetation and water quality on the yellow perch abundance in the Lake Saint-Pierre (St. Lawrence River) Giacomazzo, Matteo January 2021 (has links) (PDF) No description available. UQTR Sciences de l'environnement Bassins versants Dégradation de l'habitat Écosystèmes aquatiques Espèces vulnérables Fleuve Saint-Laurent Habitat Lac Saint-Pierre Perca flavescens Perchaude Population de poissons Qualité de l'eau Turbidité Végétation aquatique submergée

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