Global ETD Search

1	An Ecological Study of the Bear Lake Littoral Zone, Utah-Idaho Workman, Gar W. 01 May 1963 (has links) In the past, several projects have been conducted at Bear Lake, Utah-Idaho, by the Utah State University through the Wildlife Resources Department, in conjunction with the Utah and Idaho fish and game departments, the Fish and Wildlife Service , and the National Science Foundation. These projects have dealt primarily with limnology, limnological techniques, fish life histories, fish movements, and bottom fauna in the pelagic and benthic areas of the lake. Subsequently, a littoral zone project was set up to study some of the ecological aspects of the shallow waters of Bear Lake, and some of the influences that this area may have on the entire lake. Bear Lake Littoral Zone Utah-Idaho Life Sciences
2	To Grub a Fish: Marine Protected Areas and Impacts to Community Resiliency Van Vlack, Kathleen, A. 06 March 2013 (has links) This is a presentation that was prepared by Dr. Kathleen Van Vlack. This presentation is focused on a form of traditional hand fishing practiced in the Exumas, Bahamas known as grubbing. Bahamas Traditional Communities Traditional Ecological Knowledge Littoral Zone Fisheries
3	Towards a Multiscale, Spatially Explicit Analysis of the Littoral Zone Macrobenthos Along the North Shore of Hamilton Harbour / Macrobenthos of Hamilton Harbour Conrad, Mark Stephen 12 1900 (has links) Macrobenthos and macrophytes of the north shore littoral zone of Hamilton Harbour were extensively sampled in late August 1994. Benthic community structure is described, including the presence of several oligochaete and chironomid genera previously unreported in the harbour. Community structure is scale dependent and identifying which spatial scales contribute important structure is a useful step in determining which environmental factors have the greatest impact on the benthic community. This information can be used to plan efficient benthos monitoring programs, and to construct spatially explicit models of the harbour ecosystem. Most of the variation in the data set (approx. 88%) is due to small scale patchiness, probably related to patchiness of the macrophyte community and sediment grain size, as well as biotic processes such as predation and competition. Large scale structure is related to a water depth gradient, probably involving changes in dissolved oxygen concentrations, light attenuation, and sediment grain size. Macrophytes also respond to this gradient. There is little important structuring of the benthos community at intermediate spatial scales. Models of benthic communities in the harbour must deal with spatial pattern effects such as autocorrelation. Additionally, spatial patterns provide information useful for understanding causes of community structure. A method is developed for the spatial pattern analysis of the benthic community data, which allows the simultaneous evaluation of patterns at various scales, with minimal mixing of information between scales. / Thesis / Master of Science (MS) multiscale study littoral zone macrobenthos north shore hamilton harbour
4	Étude de la contamination et de l'écotoxicité associée des sédiments de surface en zone littorale lacustre / Study of the contamination and the corresponding ecotoxicology of the surficial sediments in lake littoral zone Lécrivain, Nathalie 08 March 2019 (has links) La zone littorale, de grande importance pour le fonctionnement écologique du lac, est souvent la première zone réceptrice de la contamination provenant du bassin versant. Cette pollution est majoritairement piégée dans les sédiments de surface. Pour autant, les conditions environnementales variables qui règnent en zone littorale sont susceptibles de favoriser la biodisponibilité des contaminants par le jeu des réactions physico-chimiques et biologiques. Cette thèse s’appuie sur l’étude de deux grands lacs péri-alpins, le Lac du Bourget et le Lac d’Annecy, pour mieux comprendre le comportement des polluants sédimentaires (ETM, HAP et PCB) en zone littorale lacustre. Nos travaux visent notamment (1) à caractériser la contamination littorale et l’influence des sources locales dans cette contamination, (2) à évaluer l’écotoxicité des sédiments littoraux et les changements de mobilité et de biodisponibilité des polluants sédimentaires sous l’influence de changements abiotiques de la zone littorale tels que ceux induits par le marnage lacustre. Nos résultats montrent que la contamination des sédiments et organismes autochtones présente une hétérogénéité spatiale significative sur le littoral des deux lacs, tant en intensité qu’en composition (i.e. profil de contamination). L’implication de sources locales (e.g. eaux pluviales drainées sur le bassin-versant) dans cette hétérogénéité spatiale a été mise en évidence. L’écotoxicité des sédiments de la zone littorale, évaluée via la réponse de biomarqueurs enzymatiques (AChE, GST), physiologiques (e.g. taux d’ingestion chez D. magna) et des traits de vie (e.g. taux de croissance, reproduction et survie) présente également une hétérogénéité spatiale significative. La biodisponibilité des ETM sédimentaires a été plus spécifiquement étudiée aux interfaces sédiment-eau-biote. Elle varie selon l’élément, le biote exposé (benthique ou pélagique) et sous l’effet du marnage. L’assèchement et remise en eau du sédiment littoral s’accompagnent d’une réduction de la fraction biodisponible des ETM. L’abaissement de la hauteur d’eau, en revanche, entraîne une accentuation de la remise en suspension de particules sédimentaires susceptibles d’exercer un risque écotoxicologique sur le biote littoral. Nos résultats soulignent la complexité de la contamination littorale et de son transfert dans les grands lacs péri-alpins et encouragent les approches écotoxicologiques dans l’évaluation de l’état écologique. / The littoral zone of lakes is of great ecological importance and yet receives a large array of contaminants from the watershed. This pollution is mainly trapped by the surface sediment, but its bioavailability may be allowed by physico-chemical and biological reactions in this zone of high environmental fluctuations. This work aims at improving knowledge about the behavior of sediment-borne contaminants (trace metals, PAHs and PCBs) in the lake littoral zone by using two large perialpine lakes; Lake Bourget and Lake Annecy. More precisely, our goals were to (1) characterize the littoral contamination and the influence of local sources in this contamination, (2) assess the ecotoxicity of the sediment-borne contamination and the main changes in its mobility and bioavailability under abiotic changes in the littoral zone, such as those related to water-level fluctuations in lakes. The contamination of the sediments and native organisms exhibited a significant spatial heterogeneity along the lake littoral, in both intensity and profile’s composition. The involvement of local sources of contamination (e.g. stormwater runoff) as drivers of this spatial heterogeneity has been highlighted. The ecotoxicity of littoral sediments was assessed through the responses of enzymatic biomarkers (AChE and GST), physiological traits (e.g. ingestion rates in D. magna) and life-history traits (e.g. growth, reproduction and survival rates). Our results also underscored a significant spatial heterogeneity of the littoral sediment ecotoxicity. A greater focus on the bioavailability of trace metals at the sediment-water-biota interfaces showed that bioavailability depends on the metal, the exposed biota (benthic vs pelagic) and fluctuate under water-level fluctuations. Drought and re-immersion of surface sediments were followed with a reduction of the bioavailable fractions of the trace metals. However, decreases in the water-level led to increase suspended sediments in the water column, which may exert an ecotoxicological risk for the littoral biota. Our results underline how complex the littoral contamination and bioavailability are and promote ecotoxicological approaches in the assessment of the ecological status of large lakes. Zone littorale lacustre Micropolluant Sédiment Biodisponibilité Marnage Lake Littoral zone Micropollutant Sediment Bioavailability Water-level fluctuations
5	Společenstvo fytofilního bentosu v rybnících / Community of phytophilous benthos in fishponds ZIKMUND, Hynek January 2015 (has links) Community of phytophilous macrozoobenthos (PM) represents an important component of fishponds ecosystems concerning biomass as well as essential part of food webs. There are evident linkages between PM and water macrophytes. Their influence on PM is the main topic of many scientific papers which state three main water macrophyte characters with the strongest impact on PM - coverage, biomass and morphological complexity. The main aim of this diploma theses was to analyse linkages between four different water macrophyte species and PM in eight different fishponds devided into two groups according their localisation- třeboňské a rakouské. Water macrophyte species have any influence on PM abundance in both fishpond groups. Water macrophyte species have significant influence on biomass of PM in třeboňské and rakouské fishponds analysed together and also in both fishpond groups analysed separately. PM biomass was significantly higher in Glyceria maxima during first sampling period in both fishpond groups. Water macrophyte species have significant influence on PM diversity in třeboňské and rakouské fishponds analysed together and in rakouské fishponds group analysed separately. Just one variable, water macrophyte species, was analysed in my diploma thesis, but some others abiotic and biotic variables influence phytophilous macrozoobenthos community in fishponds littoral zones as well. That´s why conclusions of this thesis should be interpreted circumspectly.
6	Littoral zone structure, energy mobilization and benthic food webs in oligotrophic northern temperate lakes Devlin, Shawn P. 20 April 2011 (has links) No description available. Aquatic Sciences Ecology Environmental Science Limnology lake ecology littoral zone periphyton aqautic food webs
7	Abundance And Diversity Of Fish In Relation To Littoral And Shoreline Features Lange, Marc 09 1900 (has links) The effects of small-scale shoreline residential development on littoral fish abundance and species richness was examined at three different scales of observation (within 122, 244, and 488 meters) in Lake Simcoe (Ontario, Canada). A mixed model regression was used to test for effects of development after accounting for seasonal and spatial variation in environmental variables known to affect distribution and abundance of fish. Fish were aggregated near single development structures, such as permanent docks, and repelled from other single structures, such as bank stabilisation. Shoreline developed with multiple features, such as docks combined with break walls, tended to be positively correlated with fish abundance but negatively correlated with species richness. Features such as docks and break walls combined with boathouses were generally associated with a decrease in both abundance and richness. Cluster analysis detected no consistent pattern of association between specific fish assemblages and residential development across the three scales of observation. Increased density and diversity of shoreline residential development tended to be associated with reduced fish abundance and species richness. The specific development features associated with these patterns change with the scale of observation, indicating that fish responded to proximally and distantly located habitat alterations. habitat alteration assemblage-environmental relationships littoral zone patterns scale richness ecosystem cumulative effects QH301
8	Distribution spatiale et activité des poissons en milieu lacustre - Impacts des facteurs environnementaux à partir d'une approche multi-échelle. Application à la retenue des Bariousses Roy, Romain 04 July 2014 (has links) Le fonctionnement des milieux aquatiques d’origine anthropique est étroitement dépendant des usages ; l’environnement des communautés biologiques est donc généralement fluctuant. L’étude du lien entre environnement et organisme est alors plus complexe que dans les environnements stables. Ce travail de thèse vise à mieux comprendre comment l’ichtyofaune réagit face aux changements des conditions environnementales dans une retenue soumise à marnage, la retenue des Bariousses, située sur la Vézère.Une approche multi-échelle à la fois biologique (communauté et individus) et temporelle (cycles annuel et journalier) a été adoptée. Une attention particulière a été donnée à la zone littorale car elle joue un rôle crucial pour les communautés piscicoles des milieux lacustres et constitue la première zone affectée par les variations du niveau de l’eau. L’étude se décompose en quatre parties. La première présente les caractéristiques du site d’étude et la seconde décrit l’impact des variations du niveau de l’eau sur les habitats à partir d’une analyse cartographique de la zone littorale. Les conséquences de la contrainte hydrologique via les modifications des conditions d’habitats ont été ensuite analysées en parallèle des effets de la température de l’eau et de la photopériode. Ensuite, la troisième partie présente l’effet de la variabilité temporelle des conditions environnementales, induites par les variations du niveau de l’eau, sur la composition de la communauté littorale (échantillonnage par pêche électrique). Un système innovant de positionnement par télémétrie acoustique (Vemco Positioning System) a finalement permis dans une quatrième partie d’étudier cet impact à un niveau individuel en analysant le comportement de 90 individus de trois espèces différentes (sandre, brochet et perche commune) avec une précision satisfaisante (erreur moyenne de 3.3 m après filtration). Nous avons mis en évidence que les fluctuations du niveau de l’eau induisent une variabilité temporelle de la surface et du volume occupés par la zone littorale. De plus, une diminution progressive de la complexité structurelle des habitats littoraux avec une tendance à l’homogénéisation (dominance des substrats fins et de l’absence de végétation) est observée suite à un abaissement du niveau de l’eau. Malgré ces changements des conditions d’habitats induites par les variations du niveau de l’eau, la communauté piscicole littorale n’a pas montré de nets changements de composition. Une forte variabilité inter individuelle des réponses comportementales aux fluctuations environnementales est notée mais, la température et la photopériode représentent deux paramètres structurant majeurs de l’activité et du choix des habitats. Le niveau d’eau affecte une partie du peuplement, certains individus fréquentent davantage la zone littorale et sont moins mobiles lorsque les habitats accessibles en bordure sont plus complexes (niveau d’eau élevé). Ces résultats ont permis de proposer quelques pistes de réflexion sur la gestion des niveaux d’eau sur cette retenue, en lien avec le peuplement de poissons. / Aquatic ecosystem functioning in human-impacted environments is highly dependent of its uses; in consequence, the environment of biological communities is generally fluctuating. Studying the link between environment and organism in fluctuating environments is generally more complex compared to steady environments. The main objective of this work was to better understand how fish populations respond to environmental modifications in a reservoir affected with water level fluctuations (WLF), the Bariousses’s reservoir located on the Vézère River.A multiscale approach was used with different biological (community and individual) and temporal (annual and daily cycles) scales. A special attention was given to the littoral zone as it plays a key role for lake fish communities and since it is strongly affected by WLF. This work is divided in 4 parts. The first part presents the characteristics of the study site and the second part describes the impact of WLF on the studied habitats using a mapping of the littoral zone. The consequences of hydrological stress through the changes in habitat conditions were also analyzed as well as the effects of water temperature and photoperiod. The third part shows the effect of the temporal variability of environmental conditions induced by WLF on the composition of the littoral fish community (sampled by electrofishing). The fourth part presents an innovative positioning system acoustic telemetry (Vemco Positioning System) that was used to study the impact of WLF at the individual scale by analyzing the behavior of 90 individuals from three different fish species (pikeperch, pike and perch) with a satisfactory accuracy (average error of 3.3 m after filtration).The results of this work showed that WLF induced a temporal variability of the littoral zone surface and volume. In addition, a gradual decrease of the structural complexity of littoral habitats was associated with lower water level inducing a trend to homogenization (dominance of thinner substrates without vegetation). Despite these changes in habitats conditions induced by WLF, littoral fish community did not show any clear change in composition. High inter-individual variability of behavioral responses was observed in response to environmental fluctuations, but the temperature and photoperiod were the two major structural parameters controlling fish activity and spatial distribution. Water level affected a part of the fish population since more individuals attended the littoral zone and were less mobile when available habitats were more complex (with a high water level). These results allowed us to suggest some ideas for the management of water levels in the studied reservoir focused on the fish population. Retenue Poissons Zone littorale Marnage Température Photopériode Individus Reservoir Fish Littoral zone Water level fluctuations Temperature Photoperiod Individuals
9	Biodiverzita perlooček a klanonožců v oblasti Nadějské rybniční soustavy / Cladocerans and copepodans biodiversity in Naděje fishponds systém. KOSÍK, Miroslav January 2009 (has links) Biodiversity of planktonic crustaceans, cladocerans and copepodans in southbohemian Naděje fishponds system were studied. Both fishpond and non-fishpond (pools, canals, sand-pits, river) localities were observed. Samples were taken from pelagic and littoral zones. Total of 21 species of copepodans and 44 species of cladocerans were recorded over whole area. Hypothesis {\clq}qA higher fish management intensity and higher fish stock cause a lower diversity of zooplankton in a pelagic zone`` was proven. Suppressed species are able to survive in a smaller space (littoral zones, pools, canals, fishponds with a lower fish stock and other non-fishpond localities), where predation pressure is not so strong. None or mild decline of a species diversity can be observed in large areas rich in different water ecosystems, with a reasonable management and production intensity. Different methods of sampling were also compared, those of {\clq}qprolovení litorálních partií`` proved good with the view of effectiveness.
10	Diversity and Function of Algal Biofilms in the Laurentian Great Lakes Katona, Leon R. 08 June 2021 (has links) No description available. Ecology Environmental Science Limnology Great Lakes benthic algae periphyton food webs stable isotopes microbial ecology littoral zone biogeochemistry invasive species Dreissena

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