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Evaluation of Mysis partial diel vertical migrationO'Malley, Brian Patrick 01 January 2019 (has links)
Mass animal migrations represent large movements of biomass, energy, and nutrients with predictable patterns and important ecosystem-level consequences. Diel vertical migration (DVM) in aquatic systems, the daily movement of organisms from deeper depths during the day to shallower depths in the water column at night, is widespread in freshwater and marine systems. Recent studies, however, suggest partial migration behavior, whereby only some portion of a population migrates, is the rule rather than the exception in a range of migratory fauna, including those that undergo DVM. Hypotheses to explain why partial migrations occur complicate traditional views on DVM and challenge conventional theories. I address intraspecific variation in DVM behavior of an aquatic omnivore, Mysis diluviana, to test several long-standing assumptions about benthic-pelagic DVM in Mysis. I evaluated the extent of partial DVM and several potential drivers within a Lake Champlain Mysis population. I used traditional net-based field observations, a novel deep-water video camera system, and a laboratory experiment, to compare distributions, demographics, abundance estimates, hunger-satiation state, and feeding behavior, of migrant and non-migrant Mysis across multiple seasons, habitats, and different times of the day. Findings from my dissertation suggest Mysis partial DVM is common, and is associated with body size and demographic differences among individuals. Partial DVM behavior, however, did not correspond to strong differences in feeding preference or hunger-satiation state of individuals. My results contribute toward a more comprehensive understanding of migration theory and mysid biology, by including the often overlooked, but important, benthic habitat component of DVM studies, and fills in several ecological knowledge gaps regarding a key omnivore in many deep lake food webs across North America where Mysis serve as both predators and prey to many organisms.
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Risk and resources in the plankton: effects on copepod population growth and zooplankton community dynamicsLasley, Rachel Skye 03 July 2012 (has links)
The focus of my thesis research is on the interplay between individual behavior, population dynamics and community-level processes within zooplankton communities in coastal Maine. The target organisms of my thesis work are marine copepods. Copepods are small (1-10 mm) crustaceans that perform the essential ecosystem function of consuming and assimilating primary production (phytoplankton) making it available to higher trophic levels such as commercially important fishes. Therefore, copepod population growth is of critical importance to marine food webs. Fertilization limitation has been suggested as a constraint on copepod population growth but field surveys describing the prevalence of fertilization limitation are lacking. During my doctoral research, I explored the in situ fertilization success of two marine copepod species, Temora longicornis and Eurytemora herdmani in coastal Maine. I collected monthly zooplankton samples and analyzed clutches from field-caught females using an egg-staining technique. My results indicate that both species exhibit fertilization limitation in nature and the factors correlated with their fertilization span population, community and ecosystem level factors.
To determine a causal relationship between predator density and copepod mating success, I conducted laboratory experiments to assess the effects of a common mysid shrimp predator, Neomysis americana on Eurytemora herdmani mating success. I subjected males and females to predators or predator cues. I found that the presence of a mysid predator, or only a predator cue, reduced copulation frequency and spermatophore transfer leading to a 38-61% decrease in E. herdmani nauplii production. These results suggest that mysid predators can constrain copepod population growth through non-consumptive processes.
To determine the effects that resources can impose on copepod behavior, I explored the behavioral and fitness consequences of Temora longicornis ingesting Alexandrium fundyense, a phytoplankton species that forms harmful algal blooms in coastal Maine. My results suggest that ingesting A. fundyense causes copepods to swim faster and with more directional persistence compared to control algae. Temora longicornis increased their average swimming velocity by 24%, which leads to a 24-54% increase in their theoretical encounter rate with predators. Therefore, these findings suggest behaviorally mediated copepod-algal interactions may have significant impacts on harmful algal bloom dynamics and the fate of toxins in marine food webs.
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Characterizing site fidelity and habitat use of the eastern north Pacific gray whale (Eschrichtius robustus) in Clayoquot Sound, British ColumbiaClare, Jacqueline Ann 26 August 2015 (has links)
A small number of eastern north Pacific gray whales (Eschrichtius robustus), known as the Pacific Coastal Feeding Group (PCFG) forage during the summer months in the coastal waters between California and Alaska. Although several studies have analyzed the population structure of the PCFG, maternal learning and predator/prey dynamics have not been studied in detail. In this study I characterize fine scale habitat use and site fidelity of eastern north Pacific gray whales in one foraging site within the PCFG’s foraging range. I approach this study by examining site fidelity to Clayoquot Sound in increasing detail at different time scales. Using the variability recorded in 17 field seasons of whale census surveys (1997-2013) as a proxy for fluctuations in prey, I suggest that the combination of physical properties of the study area and the life history characteristics of the primary prey species type enable Clayoquot Sound to persist as a foraging site through time. The analysis of photographic identification data collected between 1998-2013 indicates that Clayoquot Sound is one site within a larger foraging range, and that annual fluctuations in prey density are related to site fidelity and residency time. By identifying cow/calf pairs using photographic identification data collected between 1998-2013 I characterize internal recruitment via maternal learning within Clayoquot Sound. A calf’s site fidelity is related to its mother’s site fidelity, but its residency time is related to annual fluctuations in prey density. In contrast, a cow’s residency time is not related to changes in prey, but increases in duration when accompanied by a calf. The interplay between fluctuations in prey productivity, and the age and gender of individuals, are the variables that most likely influence the distribution of PCFG whales intra- and inter-annually. / Graduate / 0306
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TEMPORAL DISTRIBUTION OF MORONE SAXATILIS EGGS AND LARVAE AND NEOMYSIS AMERICANA IN THE SHUBENACADIE ESTUARYReesor, Craig 23 July 2012 (has links)
In the Maritimes, only two striped bass spawning populations remain: the Miramichi River in New Brunswick and the Shubenacadie – Stewiacke system in Nova Scotia. The Shubenacadie – Stewiacke system is subjected to a well pronounced twice daily tidal bore which induces dramatic changes in water parameters and challenges pelagic life. This system will be subject to potential change through brine discharge, a by-product of the Alton Natural Gas Storage Project. .
Examining the temporal distribution of mysids, striped bass eggs and larvae at a fixed location around the Alton Project site will provide baseline information on population structure and insights into how egg and larvae distributions change with respect to tidal cycles, temperature and salinity.
Surface plankton net tows from the top 0.75m of the water column were used to collect mysids, striped bass eggs and larvae over 14 months over two years. Daily mean egg abundance surpassed 1000 eggs/m3 once in 2008. A decrease of 1.9 °C in water temperature at the Alton Project site coincided with a cessation of eggs, and presumably, spawning. Spawning resumed when temperatures surpassed 15 °C. In contrast, the largest spawning event of the 2009 season occurred as water temperatures decreased (14 to 12.7 °C). The 2009 spawning season was longer (49 days) than 2008 (31 days) by 18 days, and in both years spawning peaked within the last week of May and first week of June. Two large spawning events, over 4000 daily mean eggs/m3 apiece, were detected May 24 and June 2, 2009.
Mysids were present in high numbers throughout May to November, with some tows greater than 14,000 individuals/m3 in June 2008 and August 2009. Over the length of the ebb tide, as salinity decreases, mysid abundance also decreased. Whereas, striped bass egg abundance was consistently lowest at high tide and increased progressively over about 300 minutes through the ebb tide. Both striped bass larvae and mysids displayed patchiness in their temporal distribution suggesting passive transport in the this system. In both 2008 and 2009, larvae were detected at the Alton Project site for 38 days. The colder temperatures and larger tidal range of 2009, coupled with large increase in rainfall during the larval season contributed to the over 30-fold lower abundance over that found in 2008.
When abundance was related in concert with temperature and salinity, mysids were ever present at high abundances except on three occasions. Mysid abundance decreased when salinity dropped beneath 5 ‰ during both years, and in 2008 when temperatures were lower than 15 °C. Salinity was impacted according to a seven-day lag after rainfall in both years, although the minimum volume of rainfall and associated impact on salinity have yet to be described.
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Evaluation of Chelex 100 and Assessing the Impact of Fulvic Acid (NOM) on Copper Toxicity and Bioavailability to Americamysis bahiaPostlethwait, Niel Holland 29 June 2001 (has links)
A cation exchange method (Chelex 100) that distinguishes weakly bound and strongly bound copper was investigated for its ability to measure bioavailable copper in estuarine waters. Copper bound to the Chelex 100 resin was operationally defined as bioavailable copper. Varying initial copper concentration from 195 to 495 ug/L at a constant 12.5 mg/L natural organic matter (NOM) did not affect percent bioavailability. There were also no noticeable effects when varying total Cu concentration in the presence of 0, 12, and 24 mg/L NOM. An increase in pH from 4 to 8.5 and NOM from 0 mg/L to 12.5 mg/L reduced percent bioavailability. Using the Chelex 100 resin to measure bioavailable copper, about 20 to 40% of the total copper was bioavailable in the absence of NOM, while about 15 to 20% was bioavailable when either 12 or 24 mg/L NOM was present.
Acute toxicity bioassays were performed with mysid shrimp (Americamysis bahia) to evaluate the toxic effects of copper in the presence of Suwannee River Fulvic Acid, which served as a source of NOM. Static or static renewal tests, based on EPA method OPPTS 850.1035 with a minimum of 10 mysid shrimp per test condition, were used to determine the LC50 and EC50 of copper and the effects of NOM. Test solutions consisted of artificial synthetic seawater at 20 parts per thousand containing concentrations of 0, 100, 200, 400, 800 ug/L copper with either 0, 12, 24 mg/L NOM. Forty-eight hour acute toxicity tests were performed on larval (2 to 3 day) mysid shrimp that were fed Artemia (brine shrimp); mortality and immobilization were the endpoints. The 48 hour LC50 was 200 ug/L dissolved Cu and 94 ug/L bioavailable Cu without NOM, 340 ug/L dissolved Cu and 98 ug/L bioavailable Cu when 12 mg/L NOM was present, and 495 ug/L dissolved Cu and 105 ug/L bioavailable Cu at 24 mg/L NOM. The consistency of the LC50 measurement using bioavailable Cu suggest that the Chelex 100 resin is a useful technique for toxicity analysis in saline water. / Master of Science
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Avaliação da toxicidade dos hidrocarbonetos monoaromáticos BTX no microcrustáceo marinho Mysidopsis juniaeNascimento, Meggie Karoline Silva 21 February 2017 (has links)
Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The volatile organic compounds benzene, toluene and xylenes (BTX) are among the
most produced chemicals worldwide and can be found in different environmental
compartments. Contamination of aquatic environments by these substances may result
in to adverse toxic effects on organisms of different biological organizations. The
present study aimed to evaluate the toxicity of BTX isolated and in binary mixtures
using the acute toxicity test (96h) with the microcrustacean Mysidopsis juniae. To
achieve that, organisms were exposed to BTX concentrations in order to identify the
effects on survival, as well as to study the modes of action of the substances in mixture
with the application of the theoretical models of Addition Concentration (AC) and
Independent Action (AI). In the experiments with the isolated compounds it was
possible to notice that xylene was the most toxic compound (LC50 16,10 ±2,4mg.L-1)
followed by toluene (LC50 38 ± 5,3mg.L-1) and benzene (LC50 78,03 ±2,9mg.L-1)
respectively. When in binary mixture deviations of the reference models for CA were
observed in all experiments performed (dose ratio and antagonism). In the exposure of
xylene and benzene the deviation that fit the results was the antagonism, where as the
mixture of xylene and toluene was better explained by the deviation dose ratio where
the toxicity was caused mainly by xylene. In the experiment combining toluene and
benzene, the dose ratio pattern was observed as well, and the benzene was the main
responsible for the toxicity. We concluded that BTX were toxic to mysids, both
isolated and in binary mixtures, evidencing the importance of studies in this subject that
can serve as support for evaluations and monitoring of the marine environments,
considering the imminent risks of contamination of this environment and the wide scale
of use of these compounds. / Os compostos orgânicos voláteis benzeno, tolueno e os xilenos (BTX) estão entre os
produtos químicos mais produzidos mundialmente e podem ser encontrados em
diferentes compartimentos ambientais. A contaminação de ambientes aquáticos por
essas substâncias pode acarretar em efeitos tóxicos adversos em organismos de
diferentes organizações biológicas. Diante disso, o presente estudo teve como objetivo
avaliar a toxicidade dos BTX isolados e em misturas binárias por meio do teste de
toxicidade aguda (96h) com o microcrustáceo Mysidopsis juniae. Para isso, os
organismos foram expostos às concentrações de BTX a fim de identificar os efeitos na
sobrevivência, assim como estudar os modos de ação das substâncias em mistura com a
aplicação dos modelos teóricos de concentração de adição (CA) e ação independente
(IA). Nos experimentos com os compostos isolados foi possível perceber que o xileno
foi o mais tóxico (CL50 16,10±2,4mg.L-1) seguido por tolueno (CL50 38±5,3mg.L-1) e
benzeno (CL50 78,03±2,9mg.L-1). Quando em mistura binária foram observados desvios
dos modelos de referência para CA em todos os experimentos realizados (razão das
doses e antagonismo). Na exposição do xileno e benzeno o desvio que se enquadrou aos
resultados foi o antagonismo, já a mistura de xileno e tolueno foi melhor explicada pelo
desvio razão das doses onde a toxicidade foi causada principalmente pelo xileno, no
experimento com o tolueno e benzeno também foi observado um padrão de razão das
doses, sendo que nesse caso o benzeno foi o maior responsável pela toxicidade. Logo,
os hidrocarbonetos analisados foram tóxicos para o misidáceo, tanto isolados como em
misturas binárias, evidenciando a importância de estudos nessa temática que possam
servir de suporte para avaliações e monitoramento dos ambientes marinhos, visto os
riscos iminentes de contaminação deste meio e a ampla escala de utilização desses
compostos.
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