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Showing 71 to 80 of 102 (0.056 seconds)Spelling suggestions: "subject:"grown troca"" "subject:"broad troca""
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Population Dynamics and Net Production of Brown Trout (Salmo trutta) in Two Areas of a High Gradient Mountain StreamGosse, Jeffrey C. 01 May 1978 (has links)
Estimates of the brown trout (Salmo trutta) population were made in two areas of the Blacksmith Fork River, Cache County, Utah, from June 1972 to June 1973. Additional data were obtained on movement, growth, mortality, biomass, production, and yield.
Population density was highly variable in the area where habitat alterations had occurred, but was relatively uniform where the habitat was undisturbed. The brown trout exhibited little movement except during spawning season. Instantaneous growth and mortality rates are provided for each age group.
Mean annual biomass in the two areas was 12.0 and 10.2 grams per square meter and production was estimated at 9.2 and 7.7 grams per square meter per y ear in the two study areas. Gametes comprised approximately 5 percent of the annual production and angler harvest removed 39 percent of production.
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Påverkan av tillgång till skydd och ljusförhållande på strandningsrisk hos öringyngel (Salmo trutta) / The effect of shelter availability and light condition on stranding risk in brown trout fry (Salmo trutta)Nilsson Saldías, Mikael January 2023 (has links)
Vissa vattenkraftverk drivs med korttidsreglering som möjliggör snabb anpassning av elproduktion, vilket sker genom hastiga förändringar i vattenflöde. Flera olika typer av organismer påverkas negativt av korttidsreglering, till exempel fiskar. En möjlig konsekvens är strandning, vilket innebär att fiskar hamnar i torrlagt substrat eller annat ogynnsamt habitat. Risken för strandning påverkas av flera faktorer. I denna studie undersöktes hur strandningsrisk hos öringyngel (Salmo trutta) påverkas av tillgång till skydd och ljusförhållande, där prediktionerna var att strandningsrisken skulle vara större vid tillgång till skydd och i mörker. Dessa två faktorer testades i en 2x2 design. Det fanns en tendens till en större andel strandade yngel vid tillgång till skydd (48 ± 8,2 %) jämfört med när det inte fanns skydd (35,7 ± 23,7 %) och en större andel strandade vid ljusa förhållanden (50,2 ± 16 %) än i mörker (33,4 ± 17,3 %). Påverkan av tillgång till skydd på strandningsrisk var inte annorlunda vid de olika ljusförhållandena. Utifrån dessa resultat är rekommendationen för att minska strandningsrisken hos öringyngel att flödesreglering genomförs i mörker och att bottenstrukturen beaktas, vilket måste göras i varje enskilt fall. / Some hydropower stations use hydropeaking to be able to swiftly adjust electricity production, which is done through rapid alterations in water flow. Several types of organisms are negatively affected by hydropeaking, including fishes. One possible consequence of hydropeaking is stranding, which occurs when fish are separated from the water body and end up in dewatered substrate. The risk of stranding is influenced by several factors. The aim of this study was to investigate how stranding risk in brown trout fry (Salmo trutta) is affected by shelter availability and light conditions. The predictions were that stranding risk would be higher in conditions with available shelters and in darkness. The two factors were tested in a 2x2-design. There was a tendency for stranding rate to be higher when shelters were available (48 ± 8.2 %) compared to when there were none (35.7 ± 23.7 %), and stranding rate was higher in light (50.2 ± 16 %) than in darkness (33.4 ± 17.3 %). The effect of shelter availability on stranding risk did not differ between the two light treatments. Based on these results, in order to reduce stranding risk in brown trout fry the recommendation is that flow regulation should be carried out in darkness and that the bottom structure should be considered, which must be done on a case-by-case basis.
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Effects of seasonal habitat limitations on the distribution and energetics of stocked salmonids in Lake Moomaw, VirginiaHampton, Thomas M. 03 March 2009 (has links)
Lake Moomaw, a 1024 ha flood control reservoir in western Virginia, retains sufficient cold, oxygenated water (< 21°C, ≥ 5.0 mg/L) to allow trout survival throughout most of the summer. However, trout habitat declines to an annual minimum in September. vertical gillnets and ultrasonic telemetry were used to determine the horizontal and vertical distribution of two cohorts of brown trout, <i>Salmo trutta</i>, and rainbow trout, <i>Oncorhynchus mykiss</i>, relative to ambient temperature and dissolved oxygen. Capture of trout in gillnets afforded the assessment of condition (K), relative liver weight (HSI), and daily consumption (CD) of age 1+ brown and rainbow trout in relation to habitat dynamics.
Most age 1+ brown and rainbow trout were distributed in the metalimnion (12 - 21°C) from July to October, even when dissolved oxygen declined below 5.0 mg/L. Location in the metalimnion placed young trout near optimum temperatures and maximum prey abundance. The growth, condition, relative liver weight, and daily consumption of age 1+ brown and rainbow trout were apparently unaffected by habitat limitations. Age 1+ brown trout preyed almost exclusively on alewives, <i>Alosa pseudoharenqus</i>, whereas aquatic and terrestrial insects constituted a substantial portion of young rainbow trout diet.
Age 2+ rainbow trout were distributed in the metalimnion from July to September, but were located in the hypolimnion (<12°C) in October. Adult brown trout were located in the metalimnion during July, but were distributed in the hypolimnion from August to October. Adult trout in the hypolimnion were at low temperature (10°C) and diminished dissolved oxygen concentrations (<5.0 mg/L). Distribution in the hypolimnion also resulted in isolation from primary forage alewives. Age 2+ brown trout effectively were not feeding, as only one of 16 adult brown trout collected in two years of sampling contained food. Adult rainbow trout consumed primarily alewives in August and aquatic insects in September, but were apparently not feeding in October. Small sample size precluded the direct measurement of the effects of this isolation on the growth of age 2+ trout in Lake Moomaw. A bioenergetics model predicted that even brief durations of isolation from prey could severely limit the growth of age 2+ brown and rainbow trout. / Master of Science
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Flodpärlmusslans (Margaritifera margaritifera9 effekt på öringens (Salmo trutta) rörelser, habitatval och tillväxt / The effect of the freshwater pearl mussel (Margaritifera margaritifera) on movement, habitat choice, and growth of brown trout (Salmo trutta)Freitt, Jenny January 2016 (has links)
Fiskar kan drabbas av många olika parasiter tillhörande ett brett spektrum av organismgrupper. Parasiter kan påverka värdens fysiologi, morfologi och beteende, vilket kan ha negativa effekter på värden. Den starkt hotade flodpärlmusslan (Margaritifera margaritifera) parasiterar under sitt tidiga liv som glochidielarver på fiskgälar, i Sverige främst på öringen (Salmo trutta). I tidigare studier har man sett såväl negativa som inga effekter av parasiteringen på värdfisken. Syftet med min studie var att undersöka effekten av musslans parasitering på öringens rörelse, habitatval och tillväxt i Älgån i Arvika kommun, Värmland. Resultaten visade att höginfekterad öring förflyttade sig längre sträckor och hade lägre tillväxt än låginfekterad öring. Det var ingen skillnad mellan hög- och låginfekterade öringars habitatval med avseende på djup, vattenhastighet eller substrat. Sammanfattningsvis kan höginfekterade öringar ha högre mortalitetsrisk än låginfekterade, lägre tillväxt och sämre konkurrensförmåga, vilket kan ha negativa konsekvenser för musslans rekryteringsframgång. / Fish are affected by various parasites, belonging to many different taxonomic groups. Parasites can affect the host’s physiology, morphology, and behaviour, which may have negative effects for the host. The critically endangered freshwater pearl mussel (Margaritifera margaritifera) lives parasitically as glochidia larvae on the gills of fish, and in Sweden this occurs mainly in the gills of brown trout (Salmo trutta). During their parasitic stage, which lasts for almost one year, the mussel grows up to four or five times their initial size. Previous studies have reported both negative and no effects of the parasite on the host fish. The aim of my study was to analyse the effect of the freshwater pearl mussel parasitation on the brown trout’s movement, habitat choice, and growth in the stream Älgån in Arvika municipalty, Värmland. The results show that highly infected brown trout moved greater distances and had lower growth than less infected trout. There was no difference in habitat choice in terms of depth, velocity, or substrate between high or low infected trout. In summary, highly infected trout may have high energy costs, low growth, and poor competitive ability, which can have negative consequences for the mussel’s recruitment.
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Research and development of triploid brown trout Salmo trutta (Linnaeus, 1758) for use in aquaculture and fisheries managementPreston, Andrew C. January 2014 (has links)
Freshwater sport fisheries contribute substantially to the economies of England and Wales. However, many trout fisheries rely partly or entirely on stocking farmed trout to maintain catches within freshwater fisheries. Farmed trout often differ genetically from their wild counterparts and wild trout could be at risk of reduced fitness due to interbreeding or competition with farmed fish. Therefore, to protect remaining wild brown trout (Salmo trutta L) populations and as a conservation measure, stocking policy has changed. Legislation introduced by the Environment Agency (EA, 2009) will now only give consent to stocking of rivers and some stillwaters with sterile, all-female triploid brown trout. There are reliable triploidy induction protocols for some other commercially important salmonid species however; there is limited knowledge on triploid induction in brown trout. Previously, triploid brown trout have been produced by heat shocks although reduced survivals were obtained suggesting that an optimised heat shock had not been identified, or that heat shock gives less consistent success than hydrostatic pressure shock (HP), which is now recognised as a more reliable technique to produce triploid fish. Thus the overall aim of this thesis was to conduct novel research to support the aquaculture and freshwater fisheries sector within the United Kingdom by optimising the production and furthering the knowledge of triploid brown trout. Firstly, this PhD project investigated an optimised triploidy induction protocol using hydrostatic pressure (Chapter 2). In order to produce an optimised hydrostatic pressure induction protocol three experiments were conducted to (1) determine the optimal timing of HP shock application post-fertilisation, (2) define optimal pressure intensity and duration of the HP shock and (3) study the effect of temperature (6-12 °C) on triploid yields. Results indicated high survival to yolk sac absorption stage (69.2 - 93.6 %) and high triploid yields (82.5 - 100 %) from the range of treatments applied. Furthermore, no significant differences in triploid rates were shown when shock timings and durations were adjusted according to the temperature used. In all treatments deformity prevalence remained low during incubation (<1.8 %) up to yolk sac absorption (~550 degree days post hatch). Overall, this study indicated that the optimised pressure shock for the induction of triploidy in brown trout delivering high survival and 100 % triploid rate (a prerequisite to brown trout restocking) is a shock with a magnitude of 689 Bar applied at 300 Centigrade Temperature Minutes (CTM) for 50 CTM duration. Regarding the assessment of triploid status, the second experimental chapter tested the accuracy and efficacy of three ploidy verification techniques (Chapter 3). Techniques studied were erythrocyte nuclei measurements (Image analysis), flow cytometry (Becton Dickinson Facscalibur flow cytometer) and DNA profiling (22 polymorphic microsatellite loci) to assess the effectiveness of triploidy induction in brown trout. Results indicated the validity of using erythrocyte indices major nuclear axis measurements, flow cytometric DNA distributions expressed as relative fluorescence (FL2-Area), and polymorphic microsatellite loci (Ssa410UOS, SSa197, Str2 and SsaD48) for assessing ploidy status in brown trout. Accuracy of each technique was assessed and indicated that all techniques correctly identified ploidy level indicating 100 % triploid rate for that commercial batch of brown trout. These techniques may be utilised within aquaculture and freshwater fisheries to ensure compliance with the legislation introduced by the EA. As a result of the legislation introduced by the Environment Agency triploid brown trout will freely interact with diploid trout therefore there is a need to assess feeding response and behavioural differences between diploid and triploid trout prior to release. Therefore, in the third experimental chapter (Chapter 4) diploid and triploid brown trout were acclimated for six weeks on two feeding regimes (floating/sinking pellet). Thereafter, aggression and surface feeding response was compared between pairs of all diploid, diploid and triploid and all triploid brown trout in a semi natural stream (flume). In each pairwise matching, fish of similar size were placed in allopatry and rank determined by the total number of aggressive interactions initiated. Dominant individuals initiated more aggression than subordinates, spent more time defending a territory and positioned themselves closer to the food source (Gammarus pulex) whereas subordinates occupied the peripheries. When ploidy was considered, diploid trout were more aggressive than triploid, and dominated their siblings when placed in pairwise matchings. However, surface feeding did not differ statistically between ploidy irrespective of feeding regime. Triploids adopted a sneak feeding strategy while diploids expended more time defending a territory. In addition, an assessment of whether triploids exhibited a similar social dominance to diploids when placed in allopatry was conducted. Although aggression was lower in triploid pairs than in the diploid/triploid pairs, a dominance hierarchy was observed between individuals of the same ploidy. Dominant triploid fish were more aggressive and consumed more feed items than subordinate individuals. Subordinate fish displayed a darker colour index than dominant fish suggesting increased stress levels. However, dominant triploid fish seemed more tolerant of subordinate individuals and did not display the same degree of invasive aggression as observed in the diploid/diploid or diploid/triploid matchings. These novel findings suggest that sterile triploid brown trout feed similarly but are less aggressive than diploid trout and therefore may provide freshwater fishery managers an alternative to stocking diploid brown trout. In addition to research at the applied level in triploid brown trout, this thesis also examined the fundamental physiological effects of ploidy in response to temperature regime. Triploid salmonids have been shown to differ in their tolerance to environmental temperature. Therefore the fourth experimental chapter (Chapter 5) investigated whether temperature tolerance affected feed intake and exercise recovery. Diploid and triploid brown trout were exposed to an incremental temperature challenge (10 and 19 °C) and subsequent survival and feed intake rates were monitored. Triploids took longer to acclimate to the increase in temperature however feed intake were significantly greater in triploids at high temperature. In a follow on study, we investigated post-exercise recovery processes under each temperature regime (10 and 19 °C). Exhaustion was induced by 10 minutes of forced swimming, with subsequent haematological responses measured to determine the magnitude of recovery from exercise. Plasma parameters (alkaline phosphatase, aspartate aminotransferase, calcium, cholesterol, triglycerides, phosphorous, total protein, lactate, glucose, pH, magnesium, osmolality, potassium, sodium, chloride, lactate dehydrogenase) were measured for each ploidy. Basal samples were taken prior to exercise and then at: 1; 4, and 24 hours post-exercise. Contrary to previous studies, there was no triploid mortality during or after the exercise at either temperature. Although diploid and triploid brown trout responded metabolically to the exercise, the magnitude of the response was affected by ploidy and temperature. In particular, triploids had higher levels of plasma lactate, osmolality, and lower pH than diploids at 1 hour post exhaustive exercise. By 4 hours post-exercise plasma parameters analysed had returned to near basal levels. It was evident that the magnitude of the physiological disturbance post-exercise was greater in triploids than diploids at 19 °C. This may have implications where catch and release is practiced on freshwater fisheries. Overall, this work aimed to develop and/or refine current industry induction and assessment protocols while better understand the behaviour and physiology of diploid and triploid brown trout. The knowledge gained from this work provides aquaculture and freshwater fisheries with an optimised protocol, which delivers 100 % triploid rates and profitability without compromising farmed trout welfare, thus ultimately leading towards a more sustainable brown trout industry within the United Kingdom.
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En jämförelse i metabolisk hastighet och furagerings beteende mellan yngel av Gullspångsöring och Klarälvsöring (Salmo trutta) / A comparison of metabolic rate and feeding behavior of juvenile Gullspångsälven and Klarälven brown trout (Salmo trutta)Wanke Eriksson, Jenny January 2016 (has links)
Salmonid fish such as brown trout (Salmo trutta) are known to adapt to local environments in large water systems such as in Lake Vänern. Since brown trout returns to spawn at the location of birth, they become reproductively isolated from populations spawning elsewhere. Thus, genetically-based physiological and ecological differences may develop between them. There is evidence that two of the stocks of Lake Vänern brown trout, Gullspångälven brown trout (G-trout) and Klarälven brown trout (K-trout) differ, with G-trout growing faster and becoming bigger than K-trout, but there is no study identifying why this is the case. The purpose of this study was therefore to investigate whether there were differences in three variables: metabolic rate (gill-beat frequency, referred to as ventilation rate), foraging rate (number of captured prey per unit time) and aggressive behavior (number of displays) between the two stocks of brown trout. By conducting laboratory experiments on G-trout and K-trout in artificial streams with a constant supply of food through drift, behavioral observations were made to quantify these variables. The results showed that G-trout had significantly higher gill-beat frequency and foraging rate than did K-trout. In terms of aggression there was no significant difference observed between the two stocks, though there was a trend for G-trout to show more display behavior. The differences in metabolic rate and foraging rate are consistent with the different growth rates reported for the two stocks. The differences between the stocks suggest that they have developed local adaptations and have maintained these after a number of years of being raised in hatcheries. The observed differences should be taken into account when it comes to management and restoration of populations adapted to local environments. / Laxfisk som till exempel öringen (Salmo trutta) är kända att anpassa sig till lokala miljöer i stora vattensystem, såsom i sjön Vänern. Eftersom öringen återvänder och leker där de är födda blir de reproduktivt isolerade från populationer som leker på annan plats. Därmed kan ärftliga fysiologiska och ekologiska skillnader utvecklas dem emellan. Där finns bevis på att Gullspångsöringen tillväxer snabbare och blir större än Klarälvsöringen men det finns ingen riktig vetskap om varför. Syftet med denna studie var därmed att undersöka om där fanns skillnader i tre variabler: metabolisk hastighet (gälslagsfrekvens), furagering (antal tagna byten) och aggressivt beteende (antal display uppvisanden) mellan öringstammarna. Med separata försök av G-öring och K-öring i ett försöksakvarium med en konstgjord vattenström och konstant tillförsel av mat genom drift, gjordes beteendeobservervationer av dessa variabler. Resultaten visade på att G-öring hade en signifikant högre gälslagsfrekvens och furageringshastighet än K-öring. Vad gällde displaybeteende fanns ingen signifikantskillnad mellan stammarna, dock observerades en trend att G-öringen uppvisade mer display. Dessa resultat tyder på att metabolisk hastighet och furagering kan ha en roll i tillväxttakten. Skillnaderna mellan stammarna kan tyda på att de har utvecklat lokala anpassningar och har kvar dessa efter ett antal års fiskodling. De observerade skillnaderna är viktiga att ta med i beräkning när det kommer till förvaltning och restauration av populationer anpassade till lokala miljöer.
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Impact des anciens sites miniers et métallurgiques sur les écosystèmes terrestre et aquatique actuels : étude comparative des deux moyennes montagnes : le Morvan et les Cévennes / Impact of ancient mining and smelting activities on present terrestrial and aquatic ecosystemsCamizuli, Estelle 13 December 2013 (has links)
Le Morvan et les Cévennes sont des massifs protégés pour leur paysage et leur biodiversité exceptionnels. Cependant dès la Protohistoire, ces régions réputées pour la qualité de leur environnement ont été le lieu d’activités minières et métallurgiques. Les effets de telles activités peuvent être rémanents sur les écosystèmes, il est donc important dans un premier temps de les localiser, puis de quantifier leur impact sur la faune et la flore. Le présent travail propose une démarche pluridisciplinaire alliant archéologie, géochimie, écologie et écotoxicologie. L’application de méthodes statistiques empruntées à la prospection minière a permis de dresser des cartes de potentiel minier, supposées guider l’archéologue dans ses recherches de terrain. Des cartes de distribution spatiale des éléments traces métalliques ont été construites sur six sites (trois dans chaque parc). La biodisponibilité des éléments traces métalliques a été estimée sur des mulots, des truites et des bryophytes. Bien que la plupart de ces éléments semblent appartenir à la fraction non-extractible des sols, la part biodisponible restante peut être détectée dans des bioindicateurs. Une relation négative entre les indices de condition et la concentration en plomb dans les animaux, et dans certains cas une plus grande instabilité de développement a été trouvée, suggérant la présence d’effets délétères sur les organismes. L’impact des anciens sites miniers et métallurgiques est donc toujours décelable dans les écosystèmes actuels. Ces sites doivent être surveillés, notamment au sein des zones protégées supposées à tort comme éloignées de toutes contaminations anthropiques. / The Morvan and the Cevennes Massifs are nowadays protected for their outstanding landscape and biodiversity. However since Prehistory, these regions experienced mining and smelting activities. Because of remnant properties, locating these ancient sites is capital and then impact on fauna and flora must be estimated. This present work is based in on a pluridisciplinary approach combining archeology, geochemistry, ecology and ecotoxicology. Statistical methods, from modern prospection technique, have been applied in order to delineate geochemical anomalies, potentially due to mining exploitation and thus facilitate the archeological prospection. Spatial distribution maps of trace metals were built on six sites (three in each park). Biodisponibility was assessed thanks to the analyses of wood mice, trout and bryophytes. Even if it seems that most of these elements belong to the non-extractible fraction of soil, the remaining bioavailable trace metals can be detected in the bioindicators. A negative relationship between Pb concentrations in animals and their body condition indices was found, and in some cases developmental instability was higher, suggesting deleterious effect on current wildlife. As a consequence, the impact of past mining and smelting works is still traceable in ecosystems. For this reason, these sites should be monitored, particularly in protected areas thought to be relatively free of anthropogenic contamination.
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Effekter av höjd inkubationstemperatur på ventilationshastighet, som ett mått på metabolism, hos öring (Salmo trutta) / Effects of raised incubation temperatures on ventilation rate, as a proxy for metabolic rate, in brown trout (Salmo trutta)Vernby, Andreas January 2019 (has links)
The average global temperature is expected to rise by 3-5 °C at the end of the century, as a consequence of global warming. Negative effects are expected on poikilothermic animals, including fish, with changes in their physiology including metabolism. Metabolism has earlier been proven to have an association with propensities to migrate, which might be affected by raised temperatures as a consequence of global warming. The purpose of this study was to investigate if raised temperatures during incubation of eggs has an effect on metabolism in a partly migrating species of fish. The hypotheses for this study were: (i) ventilation rate (VR) will decrease as a consequence of warmer incubation temperatures, and (ii) offspring of anadromous parents are expected to have a higher VR compared to offspring of residential parents. VR, as a proxy for metabolic rate, was measured on young-of-the-year brown trout (Salmo trutta) during trials in respiration chambers. Fertilized eggs from four different crossings of parents (anadromous x anadromous, residential x residential, anadromous male x residential female, residential male x anadromous female) underwent incubation in normal and warm (normal + 3 °C) water temperatures respectively. A Two-way ANOVA showed a significant interaction between incubation temperature and crossing on VR. Warmer incubation temperatures in 3 out of 4 crossings resulted in a higher VR, except for individuals with two anadromous parents. Individuals with an anadromous father had a higher VR than individuals with a residential father. Evidence that partly supports both hypotheses was therefore found. Metabolism might have a strong genetic component, and other factors that might have an effect on metabolism and VR are epigenetics, stress, egg size etcetera. Studies of this kind will be of importance in getting a greater understanding of the effects of global warming on migrating species of fish, and on poikilothermic vertebrates in general.
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Rörelsemönster hos öring (Salmo trutta) : En jämförelse mellan vilda och odlade individer i sjön Siljan / Movement patterns of brown trout (Salmo trutta) : A comparison of wild and hatchery fish in Lake SiljanKaiskog, Frida January 2019 (has links)
Many populations of salmonids are threatened by fragmentation and degradation of spawning habitats. Common remedial measures are habitat restoration and stocking of hatchery fish to support degraded wild populations. Many populations of brown trout in Sweden have been extirpated. The restoration plan for the endangered brown trout in Lake Siljan started decades ago and involves releases of hatchery produced trout. A decline of the spawning run of hatchery fish has been observed. In this study, wild and hatchery fish were tagged and monitored using hydroacustic telemetry during May-October, 2018. Movement patterns were studied to detect potential differences between wild and hatchery fish during lake and spawning migration. The results showed a difference of preferred territories between the groups. The wild trout stayed in the northern part of the lake and the hatchery trout were more evenly distributed over the lake, but with a preference for the southern part of the lake. During spawning migration a larger proportion of the wild trout (44 %) moved to potential spawning habitats as compared to hatchery trout (16 %). The wild fish migrated more or less direct to the potential spawning grounds in River Österdal as compared to the hatchery fish, which showed an erratic behavior and preferred to migrate to the tributaries in Lake Siljan. Differences in movement patterns and preferred habitats in the lake can be caused by differences in behavior between the groups. This should motivate more studies of behavior of wild and hatchery trout. The time for spawning and potential spawning habitats are also important to study for future management and restoration of the wild population of brown trout in Lake Siljan. / Många salmonider är idag hotade av habitatfragmentering och brist på lekplatser. För att främja kvarvarande bestånd är vanliga åtgärder habitatrestaurering och utsättning av odlad fisk. Många bestånd av sjövandrande öring i Sverige är idag försvunna. I sjön Siljan har man under årtionden satt ut odlad fisk då den vilda stammen av siljansöringen är starkt hotad. En minskning av återvändande uppströmsvandrande odlad lekfisk har uppmärksammats. Vild och odlad öring märktes med sändare och data samlades in med akustisk telemetri under maj till oktober, 2018. Eventuella skillnader i rörelsemönster mellan fisk av olika ursprung har studerats under tillväxtperiod och lekmigration. Resultatet visade att det finns skillnader i var fiskarna uppehåller sig i sjön beroende på ursprung. Den vilda öringen föredrog den norra delen av Siljan, den odlade var mer spridd i hela sjön men föredrog den södra delen av sjön. Under tid för lekmigration rörde sig en större andel av den vilda fisken (44 %) mot potentiella lekhabitat jämfört med den odlade (16 %). Den vilda fisken var mer fokuserad i sin vandring mot Österdalälven än den odlade som uppvisade ett erratiskt beteende och som i större utsträckning besökte biflöden som mynnar i Siljan. Skillnader i rörelsemönster och placering i sjön kan bero på beteendeskillnader och interaktioner mellan grupperna. Detta borde öka intresset för att studera detta vidare hos den vilda och odlade öringen. Önskvärt är också att öka kunskapen om lekperiod och potentiella lekhabitat för att kunna upprätta ett effektivt åtgärdsprogram som ger ökade möjligheter för en återhämtning av den vilda populationen.
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Contributions des isolements pré-zygotiques et post-zygotiques dans la dynamique de l'introgression intra-spécifique chez la truite commune (Salmo trutta, L.) / Contribution of pre-zygotic and post-zygotic isolations in the dynamic of intra-specific introgression in brown trout (Salmo trutta, L.)Gil, Jordi 07 July 2015 (has links)
Le réseau hydrographique français présente deux lignées de truite commune (Salmo trutta, L.) génétiquement et phénotypiquement distinctes : les lignées Atlantique (ATL) et Méditerranéenne (MED) qui occupent les bassins versant du même nom. Les repeuplements intensifs pratiqués de manière systématique depuis un siècle avec des souches domestiques ATL ont entrainé dans la zone méditerranéenne une introgression plus ou moins importante des populations naturelles. La persistance de populations peu introgressées amène les gestionnaires à prendre en compte dans leur démarche de conservation ces populations autochtones. La gestion de cette problématique d'hybridation passe par une meilleure connaissance de la dynamique de biodiversité intra-spécifique et donc des mécanismes évolutifs qui régulent les flux de gènes entre les lignées MED et ATL.Cette thèse s'appuie sur un travail collaboratif entre scientifiques et gestionnaires et comporte plusieurs objectifs. Sur le plan théorique nous avons testé deux barrières reproductives pré-zygotiques potentielles liées au comportement reproducteur (compétition intra-sexuelle mâle et préférence inter-sexuelle femelle) ainsi qu'une possible barrière post-zygotique correspondant à un différentiel de survie embryo-larvaire lié à la température. Un large jeu de données a également été analysé pour mettre en évidence un potentiel différentiel de survie entre lignée à l'âge adulte. Enfin, ces résultats ont été inclus dans un modèle démo-génétique (modèle Mediterranea, plate-forme CAPSIS-4). Cet outil informatique d'aide à la décision adapté aux besoins des gestionnaires permettra à terme l'évaluation des stratégies de gestion et de conservation.Les résultats montrent une préférence intersexuelle hétérogame qui tendrait à accélérer le mélange des deux lignées. L'étude de la survie embryo-larvaire montre un avantage sélectif pour les descendants de femelles MED, particulièrement dans des conditions de températures basses. Enfin, l'analyse de la distribution de l'âge chez les adultes montrent un avantage aux individus MED ce qui pourrait traduire une adaptation locale pour cette lignée au sein du territoire haut-savoyard. Les simulations préliminaires effectuées avec le modèle Mediterranea intègrent ces résultats et mettent en évidence le rôle de la structure du réseau hydrographique dans la variabilité spatiale de l'introgression. Ces résultats concordent avec les patrons d'introgression observés in situ et apportent de nouvelles connaissances pouvant se révéler utiles dans la gestion future de la biodiversité intra-spécifique de la truite commune. / The natural distribution area of brown trout (Salmo trutta, L.) in the French hydrographic landscape reveals the existence of two genetically and phenotypically distinct lineages: the Atlantic lineage (ATL) and the Mediterranean lineage (MED) that are initially respectively present in the Atlantic and Mediterranean drainage basins. Intensive and systematic stocking practices carried out over a century with ATL domestic strains have resulted, in the Mediterranean area, in heterogeneous patterns of introgression of native MED populations. The persistence of some low introgressed MED populations led managers to focus on these native populations in their conservation plans. To efficiently account for these introgression processes, a better understanding of intraspecific biodiversity dynamics is required, with a specific focus on how evolutionary mechanisms may regulate gene flow between MED and ATL lineages.The present manuscript is based on a collaborative work between scientists and managers in Haute-Savoie, France, and investigates several potential mechanisms for introgression. We explored two potential pre-zygotic reproductive barriers related to reproductive behavior (male intra-sexual competition and female inter-sexual preference) and also a possible post-zygotic barrier corresponding to a differential of embryo-larval survival linked to temperature. A large dataset was also analyzed to identify a potential differential survival between lineages at adult stage. Finally, these results were included into a demogenetic model (Mediterranea Model, CAPSIS-4 platform). This computer based aid for decision making will ultimately allow evaluating various management strategies.The results show a heterogamous intersexual female preference which should promote the genetic admixture between the two lineages. However, the study of embryo-larval survival shows a selective advantage for the offspring of MED females, especially in low temperature conditions. Finally, the analysis of the distribution of age in adults suggests a potential higher survival for MED individuals, which could indicate a local adaptation for this lineage in the territory of Haute-Savoie. The preliminary simulations performed with the Mediterranea model incorporate these results and highlight the role of hydrogeographic network structure in the spatial variability of introgression. Both results and simulations are consistent with the introgression patterns observed in situ and provide new knowledge that can be applied to the management of intraspecific biodiversity of brown trout.
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