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Using High Frequency Monitoring of Environmental Factors to Predict Cyanotoxin Concentrations in a Multi-use, Inland ReservoirVarner, Mia 28 September 2018 (has links)
No description available.
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Chaos, Kingship, Councils, and Couriers: A Reading of Habakkuk 2:1-4 in its Biblical and Near Eastern ContextHaring, James W., III 03 September 2013 (has links)
No description available.
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The Association between Hostile Attribution Bias, Social Intelligence, and Relational Aggression in Detained BoysFassnacht, Gregory M 20 December 2013 (has links)
Research on factors that contribute to the forms and functions of aggression (reactive, proactive, relational, and overt) is important for informing intervention efforts with aggressive youth. Previous research shows that aggressive youth often have cognitive and social deficits associated with their aggressive behavior. For example, aggressive youth may exhibit deficits in social variables such as social intelligence (i.e., the understanding of behaviors of people and ability to predict outcomes of situations). Hypothetically, this lack of social intelligence may be related to how youth interpret social situations, and could conceivably lead to hostile attributional bias, or the tendency to interpret ambiguous stimuli as hostile. The main purpose of this study was to examine whether HAB mediated the relationship between social intelligence and reactive relational aggression in a sample of detained adolescent boys (ages 12-18). The results failed to support this hypothesis. Supplemental analyses explored whether HAB moderated the relationship between social intelligence and the subtypes of aggression, but results were not consistent with this hypothesis.
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Development of harmful algal blooms in a coastal lagoon: the influence of physicochemical processes and phytoplankton ecophysiologyKobryn, Arielle Jensen 30 August 2012 (has links)
This study was conducted in Esquimalt lagoon, located southwest of Victoria, British Columbia, Canada. Physical characteristics of the water column, e.g. circulation and stratification, changed seasonally resulting from variations in tides, temperature, precipitation and wind. Chemical characteristics, e.g. oxygen and dissolved nutrient concentrations, also differed temporally relative to those in the lagoon’s ocean source water (Juan de Fuca Strait) because of variations in local photosynthesis and nutrient use by phytoplankton. Diatom blooms occurred in the spring, and blooms of photosynthetic flagellates (Heterosigma akashiwo (2009) and Akashiwo sanguinea (2009 and 2010)) occurred in the late summer and early fall when nitrate, ammonium, and urea were depleted. Proliferation of these flagellates led to the development of harmful algal blooms (HABs) associated with oxygen depletion in the lagoon bottom waters. Increased oxygen demand from bacterial degradation of algal biomass and exudates was the likely cause for bottom water hypoxia under reduced tidal exchange. / Graduate
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Predictive Modeling of Microcystin Concentrations in Drinking Water Treatment Systems of Ohio and their Potential Health EffectsWood, Traven Aldin 25 October 2019 (has links)
No description available.
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Harmful Algal Bloom (HAB) Communities and Co-occurring Species in Relation to Near Shore Ocean Dynamics in San Luis Bay, CaliforniaRankin, Samuel Christopher 01 June 2011 (has links) (PDF)
The occurrence of phytoplankton taxa, with special focus on harmful algal bloom (HAB) taxa, was monitored for one year off the central coast of California to examine both their co-occurrence and physical and chemical variables influencing their temporal patterns. Bi-weekly samples were taken from October 6, 2008 to October 5, 2009 in San Luis Obispo Bay, CA. Canonical correspondence analysis (CCA) of weekly samples indicated that 46.1% of the variability in species abundance was explained by the variables in the model, higher than previous reports. Cluster analysis divided phytoplankton communities into HAB and non-HAB groups of species, while shared distribution analysis identified specific co-occurring species of HABs. The HAB dinoflagellate group consisted exclusively of HAB taxa, including Cochlodinium polykrikoides Margalef, Dinophysis acuminata Claparède & Lachmann, and Alexandrium spp., and was correlated with a homogeneous water column and high nitrate concentration during the fall and winter seasons. The domoic acid producing diatoms Pseudo-nitzschia seriata (Cleve) H. Peragallo complex and Pseudo-nitzschia delicatissima (Cleve) Heiden complex grouped with several other non-HAB diatoms, and were correlated with warm, thermally stratified waters of the summer season. These results contradict the classic diatom / dinoflagellate succession theory and suggest that event-scale processes influencing water column stability within seasons may influence the distribution of HAB species in near shore upwelling dominated regions.
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Forecasting cyanobacteria in Lake Rockwell using historical dataTrowbridge, Peter J. 26 November 2018 (has links)
No description available.
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Evaluating the Influences of Karst Hydrogeology on Freshwater Harmful Algal Blooms in Kentucky LakesSchaefer, Robert T 01 July 2016 (has links)
A problem exists in Nolin River Lake and Rough River Lake in Kentucky, due to the increasing prevalence of cyanobacterial-based harmful algal blooms (CyanoHABs) and the threats they pose to local communities. These lakes were developed as artificial reservoirs from embankment. Further complicating the issue, the lakes are located within a heavily karstified region and there exists no plan or method currently for monitoring or managing CyanoHABs in a karst region with regard to groundwater inputs to the lake systems or their tributaries. A mixture of techniques and analysis methods was used to determine the best way to monitor and possibly detect the formation and occurrence of CyanoHABs in artificial lakes that are located in karst landscapes. The methods focused on determining the effect groundwater has on CyanoHAB occurrence and formation, how much nutrient pollution is entering the system, from where the pollution is originating and, ultimately, how best to monitor and develop management practices against CyanoHAB occurrence. Techniques used included dual nitrate isotope tracing, collecting hydrogeochemical data, lake discharge data, historical CyanoHAB data, and biological tracer monitoring in both lakes. The lakes under study showed varying degrees of the influence karst plays in their seasonal changes from summer to winter pools. Lake water temperatures never dropped below the temperatures needed for one of the dominant cyanobacteria, Cylindrospermopsis raciborskii, to grow. Calculations of nutrient loadings indicated that over 3.5 x 106 kg of nitrate moved through Nolin River Lake during the course of the study. The presence and concentrations of E. coli when paired with weather and geochemical data also revealed karst groundwater pulses exerting an influence through the system in response to precipitation events. The nitrogen and oxygen isotope data indicate that a wide variety of nitrate pollution sources are entering the system and that a variety of management techniques must be deployed to combat this complex issue. A holistic approach that focuses on management and education about karst processes and CyanoHABs is suggested, with an emphasis on broader community involvement beyond just the populations living adjacent to the lakes.
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Phosphorus Load Control in the Prevention of Harmful Algal Blooms : The Case of Lake Erie, located between the United States of America and CanadaMorrow, Samantha January 2018 (has links)
For over ten years the Western Basin of Lake Erie has been plagued by significant harmful algal blooms (HABs). Lake Erie is a body of water situated between the United States of America (USA) and Canada. The lake provides water to approximately 40 million people and is a considerable source of economic value. The Western Basin of Lake Erie is highly prone to HABs due to the shallow depth and large phosphorus (P) loads received from the large area of agricultural land surrounding the lake and its tributaries. HABs cause extensive ecosystem degradation, have multiple negative health impacts, and cause significant economic losses for the tourism and fishery industries. Five products with P load reducing properties from the three nutrient control categories (biological, physical, and chemical) were chosen to determine how effective their P load reduction pathways were. Additionally, these products were analyzed to determine if they could generate positive remediation effects on the Lake Erie HAB. Of these five products, the technologies Water 3.0 and PO4 Sponge were applied to a Western Basin HAB model generated using the Stella Professional software from ISEE Systems. The two products were modeled individually and collectively to compare the application effects on the HAB model. The model results illustrate the significant reduction in P load and HAB extent that the application of these products at wastewater treatment plants (WWTPs) and within waterways could have. The application of both products at multiple locations within the model showed the greatest P load reduction and nearly eliminated the HAB extent. Unfortunately, the residual P from extensive historical P loading into the lake would prevent such a significant reduction from occurring for over a decade. Current practices and regulations in the Lake Erie Basin are not stimulating P load reductions significant enough to remediate the HAB. As the Western Basin HAB continues to occur annually, the waste stream produced by the HAB remains unutilized. Implementing new and innovative technologies in the basin can generate high quality commodity streams out of the wasted biological algal matter. Meanwhile the implementation of new technologies and practices can help reduce the HAB to a smaller size that would have smaller negative impacts to the economy, health, and ecology.
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Impact du phytoplancton sur les juvéniles de bars (Dicentrarchus labrax) en milieu aquacole : approches in situ et expérimentales / Impact of phytoplankton blooms on juvenile sea bass (Dicentrarchus labrax) in aquaculture : in situ and experimental approachesDelegrange, Alice 30 January 2015 (has links)
Dans une ferme d'élevage de bar (Dicentrarchus labrax) du sud de la mer du Nord, de fortes mortalités de bar coïncident régulièrement avec l'efflorescence phytoplanctonique printanière. Le rôle du phytoplancton dans ces mortalités a donc été étudié : un suivi saisonnier (février-novembre 2012) a permis de définir les communautés phytoplanctoniques en présence et, la diversité et la toxicité du genre Pseudo-nitzschia. Ainsi, trois espèces potentiellement toxiques ont été identifiées (P. delicatissima, P. pungens, P. fraudulenta) en association avec des concentrations élevées d'acide domoïque (jusqu'à 229 pg. mL-¹). Au cours d'une expérience d'exposition (45 jours), les effets délétères de P. delicatissima sur les juvéniles de bar ont été étudiés. Si un stress d'exposition a été observé via la surproduction de mucus par l'épithélium branchial, cela n'a pas eu d'incidence sur la condition ni la physiologie des poissons. Les mortalités seraient donc davantage liées à un effet de communautés. Cette hypothèse a été testée en utilisant le pouvoir de filtration des moules (Mytilis edulis) en amont des bassins d'élevage. Cela a permis de limiter l'ampleur de l'efflorescence phytoplanctonique printanière. En conséquence, les poissons élevés dans l'eau filtrée avaient de meilleures conditions, croissance et rapport ARN:ADN que ceux élevés dans l'eau de mer non filtrée. Ce travail souligne la nécessité de généraliser le suivi des communautés phytoplanctoniques afin d'identifier les espèces délétères et leur dynamique et de développer des outils de mitigation permettant d'atténuer l'impact des efflorescences phytoplanctoniques sur l'aquaculture. / For several years, mass mortalities of farmed sea bass (Dicentrarchus labrax) have coincided with phytoplankton spring blooms in the southern North Sea. Since these mortalities could not be explained by classical finfish diseases, phytoplankton noxious effects have been suspected and investigated. A seasonal survey allowed the identification of potentially deleterious phytoplankton species giving particular attention to the Pseudo-nitzschia genus. Three potentially toxic Pseudo-nitzschia species were identified (P. delicatissima, P. pungens, P. fraudulenta) and their presence was related to both domoic acid concentrations and phytoplankton communities. P. delicatissima being dominant over spring and presenting toxic and physical features compatible with fish mortality, a laboratory exposure experiment was carried out. Although gills irritations (mucus overproduction) revealed an exposure stress, no effect on sea bass condition nor on physiological performances was demonstrated. This suggest that phytoplankton community as a whole rather than single species should be involved in fish mortalities. This third hypothesis was tested using mussels (Mytilus edulis) as seawater filters upstream from the rearing tanks to dampen the phytoplankton spring bloom and estimate its impact on fish. Indeed, fish had better condition , growth and RNA:DNA ratio when reared in filtered seawater than in natural seawater. This work highlights the need to develop phytoplankton monitoring in fish farms so as to identify potentially deleterious species and understand their dynamics. It also demonstrates that new mitigation tools should be developed to prevent phytoplankton impacts on farmed fish.
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