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Uptake, metabolism, and distribution of DDT in organs of the blue crab, Callinectes sapidusSheridan, Peter F. 01 January 1973 (has links)
Metabolites of DDT were detected in five out of six major organs of blue crabs, Callinectes sapidus, taken from estuarine populations. Residue concentrations were highest in the hepatopancreas and below the limit of detection in the heart. Concentrations in pooled gonad samples (ovaries + testes) depended on the stage of development of the ovaries. Residue levels were low in claw and backfin muscles. Adult blue crabs were exposed for 12 hours to 0.01, 0.1, and 1.0 ppm DDT in water. No significant mortality was recorded. DDT was absorbed through the gills and transported to the hepatopancreas via the hemolymph. Biotransformation and distribution of DDT and its metabolites was regulated by the hepatopancreas. Induction of metabolic transformation of DDT to DDD and DDE occurred immediately. Storage of residues was greatest in the hepatopancreas and developing ovaries . Rates of loss of DDT residues from organs was subject to considerable variation.
This dissertation is from the Joint Program Degree from the College of William & Mary and University of Virginia and awarded by the University of Virginia.
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Zooplankton distribution, biomass, biochemical composition and seasonal community structure in lower Chesapeake BayJacobs, Fred 01 January 1978 (has links)
Zooplankton composition, distribution, biomass and biochemical constituents were determined monthly in the lower Chesapeake Bay for two years beginning in August 1971. Settled volume, dry weight, and ash-free dry weight estimates of total biomass were generally consistent in showing summer and late winter peaks. A mean dry weight peak of 258 mg/m3 in August 1971 decreased precipitously to a December low of 9 mg/m3, then increased to a March 1972 peak of 199 mg/m3. The second year mirrored this pattern, except that the passage of Tropical Storm Agnes in June 1972 lowered the summer peak values for July and August considerably. In August 1971 and again in August 1972, a total of 53 species, from four dominant major groups, were used to characterize four distinct geographical cluster zones. The summer zooplankton was dominated by cladocerans, largely Penilia avirostris and Evadne tergestina, and the copepod Acartia tonsa. Decapod larvae proved to be the most diverse summer group studied, containing 30 species in August 1971 and 33 species in August of 1972. Dominant species included Upogebia affinis, Callinectes sapidus, and Uca sp. Chaetognath peaks in September of each year consisted almost entirely of Sagitta tenuis. Winter populations contained less than half the number of taxa as summer zooplankton and were dominated by Acartia clausi. This species almost completely replaced Acartia tonsa by April of each year. The most notable effects of the lowered salinities caused by Tropical Storm Agnes in the summer of 1972 were a drastic reduction in cladoceran abundance and a compression of chaetognath distribution to the higher salinity areas near the bay mouth. Protein, the largest organic fraction of the zooplankton, usually accounted for 40-60% of the total dry weight. Mean monthly lipid values ranged from 1.9 to 9.5% of the dry weight, and carbohydrate appeared only as a minor organic fraction.
This dissertation is from the Joint Program Degree from the College of William & Mary and University of Virginia and awarded by the University of Virginia.
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Feasibility of artificial propagation and introduction of hybrids of the Morone complex into estuarine environments, with a meristic and morphometric description of the hybridsKerby, Jerome Howard 01 January 1972 (has links)
Laboratory and environmental studies of striped bass (Morone saxatilis) X white perch (M. americana) and striped bass X white bass (M. chrysops) were used to-determine the feasibility of introducing these hybrids into an estuary as a supplement to natural populations of the parental species. Growth patterns, survival, and general hardiness of the hybrids were used as criteria. Growth of striped bass X white perch hybrids in the laboratory was apparently somewhat less than growth of natural populations of striped bass, but was much greater than growth of natural populations of white perch. Hybrid growth was slower than striped bass growth under the same conditions, but hybrid survival was much better than striped bass survival. The hybrids were able to survive and grow in estuarine salinities. Most hybrids matured at two years of age. Striped bass X white bass hybrids were able to adapt to an estuarine environment (the Rappahannock River, Virginia) and could successfully compete with striped bass and other resident ichthyofauna. Hybrid growth was faster than striped bass growth in the Rappahannock and was considerably faster than growth of various freshwater populations of white bass. Hybrids were caught in salinities as high as 17%. They were mature at two years of age. Both hybrids were described using meristic and morphometric characteristics. They were both found to be generally intermediate to the parental species, but in certain traits they tended to resemble one parent more closely than the other. Striped bass, white perch, and their hybrid all had a diploid chromosome number of 48. Possible karyological differences are discussed. One or both hybrids may be suitable for introduction into an estuary to supplement natural populations of striped bass and white perch, but more comprehensive environmental experiments are needed.
This dissertation is from the Joint Program Degree from the College of William & Mary and University of Virginia and awarded by the University of Virginia.
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Biodiversity and Community Composition of Freshwater Fish Assemblages in the Lower AmazonBogota, Juan 01 January 2020 (has links) (PDF)
Amazonian freshwaters host the most diverse ichthyofauna in the world but the ecological mechanisms that generate and regulate this diversity are poorly known. I performed the first comparison of spatial and temporal patterns of fish community diversity among the four primary aquatic habitats of the Amazon (major rivers, floodplains, lowland terra firme streams, and upland shield streams) and among the three distinct chemical water types in Amazon river-floodplain systems (low-nutrient blackwaters and clearwaters, and high-nutrient whitewaters). To minimize confounding influences of geographical variation in species ranges, my study targeted one of the few parts of Amazonia (near Santarém, Brazil) where all four habitats and all three river-floodplain water types occur in close proximity. In the first of three chapters, I compare diversity and biomass between blackwater, clearwater, and whitewater rivers and floodplains. My results provide the first support for positive species-energy and biomass-energy relationships across multiple aquatic habitat types from the same biome and region. In Chapter 2 I compare patterns of temporal beta-diversity, and beta-deviations from null model simulations, to demonstrate that species turnover is positively correlated to seasonality and hydrological connectivity among the four Amazonian habitats types but is uninfluenced by water type. In Chapter 3 I compare up-river transects from the common confluence of a blackwater, Clearwater, and whitewater river to infer that abrupt gradient of water chemistry act as major barriers to fish dispersal. My results have important implications for biodiversity monitoring and conservation planning in the increasingly threatened aquatic habitats of the Amazon basin.
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Nitrogen Isotope Fractionation and Toxin Production during The Uptake of Micromolar Concentrations of Nitrate, Ammonium, and Urea By A Marine DinoflagellateArmstrong, Christen Taylor 01 January 2017 (has links) (PDF)
Despite an increased global interest in harmful algal bloom (HAB) species and eutrophication, the relationship between nutrient sources and changes in species composition or toxicity remains unclear. Stable isotopes are routinely used to identify and track nitrogen (N) sources to water bodies, as sources can be differentiated based on stable isotope values. While literature is available describing N fractionation by diatoms and coccolithophores, data are greatly lacking regarding isotope fractionation by dinoflagellates. Here we investigate the fractionation of nitrogen isotopes by saxitoxin-producing Alexandrium fundyense, to validate the use of the δ15N of particulate organic matter and identify the nitrogen source fueling a dinoflagellate bloom and its toxicity. The effects of N chemical form on isotope fractionation, toxin content, and toxicity, were investigated using isolates in single-N and mixed-N experiments. Growth on NO3-, NH4+, or urea, resulted in isotope fractionation of 2.761.48‰, 29.019.32‰, or 0.340.19‰, respectively, with the lowest cellular toxicity and toxin quotas reported during urea utilization. Toxin composition and growth rates, however, remained constant across all N treatments, showing no effects of NO3-, NH4+, or urea utilization. Alexandrium fundyense was then preconditioned to either NO3-, NH4+, or urea, and abruptly inoculated into mixed-N medium containing all three chemical forms. All treatments initially utilized NH4+ and urea upon inoculation into mixed medium, suggesting no effect of preconditioning. Cells only began utilizing NO3- after NH4+ decreased below 2-4 M in the medium. During the inhibition of NO3- uptake by NH4+ utilization, the cellular δ15N was at its lowest (-5‰), and through the course of the experiment, the δ15N continuously changed to mimic the isotope value of the most recent N source(s) being utilized. When utilizing multiple sources, the isotope signature of the cells fell between the signal of the two N sources. Together this suggests that in NO3- and urea rich environments, the 15NPOM would reliably look like the source or sources of nitrogen utilized, but that caution should be taken in NH4+ rich environments where the large value could lead to misinterpretation of the signal. Nutrients are only one factor influencing bloom dynamics, but information about the relative importance of natural or anthropogenic nutrients in the development and toxicity of bloom events is necessary to predict future shifts in phytoplankton species composition, density, and toxicity.
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Nitrogen fixation in Virginia salt marshes and the effects of chronic oil pollution on nitrogen fixation in the Mobjack Bay marshesThomson, Alyce Diane 01 January 1977 (has links)
N2 fixation rates for several Virginia salt marshes were determined using in situ acetylene-reduction assays. A control and a chronically polluted oil marsh of the mesohaline Mobjack Bay area were sampled over a 1975-76 annual cycle. N2 fixation occurred in all transects which extended from upper mudflat to the Spartina patens zone. An isolated blue-green algal mat exhibited some of the highest N2 fixation rates. Intertidal sediment N2 fixation was patchy, both spatially and seasonally. However average rates (91.45 μg N/m2/h) compared to the estimated N requirement of the graminoid vegetation indicated a significant contribution to the N budget. Vegetation associated nitrogen fixation yielded higher average rates. N2 fixation rates for Wachapreague high salinity and Yorktown relic low salinity marshes were similar to the mesohaline marshes although blue-green algae fixation seemed to be more significant. The seasonal pattern of mesohaline marsh N2 fixation was positively related to temperature. Light-dark and anaerobic-aerobic experiments support the hypothesis that heterotrophic bacteria are the predominant N2 fixers and that availability of oxidizable substrates contribute to the seasonal pattern. Chronic oil treatment showed little effect on fixation rates with the possible exception of median tidal elevation sediments where summer rates were considerably higher than those of the control. This dissertation is from the Joint Program Degree from the College of William & Mary and University of Virginia and awarded by the University of Virginia.
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Heavy metal concentrations in the clam Rangia cuneata from the Rappahannock and James RiversCroonenberghs, Robert Emile 01 January 1974 (has links)
This project investigated the feasibility of using the brackish water clam Rangia cuneata as a heavy metal pollution indicator, and further investigated the state of heavy metal pollution in the James River. Rangia cuneata were sampled in the fall of 1972 from the Rappahannock and James Rivers , and meats were analyzed by atomic absorption spectrophotometry for wet weight concentrations of copper, zinc, cadmium and lead. Levels of copper and zinc in Rangia cuneata were shown to be unaffected by clam size, spawning differences, salinity or distance upriver, and substrate grain size. Heavy metal concentrations in the oxidized channel sediments, determined from other studies conducted at the same time, were compared to levels in Rangia cuneata, but no relationships were found. Lead was below detection limits (0.2 ppm) in Rangia cuneata at all stations, and cadmium levels appeared to be consistent in both rivers. Copper was found to increase upriver in the James, indicating an upstream source, and zinc concentrations were found to peak at the mouth of the Chickahominy River. A number of possible causes were cited. This dissertation is from the Joint Program Degree from the College of William & Mary and University of Virginia and awarded by the University of Virginia.
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The Distribution of the Deer Mouse, Peromyscus Maniculatus, on the Oregon Side of the Columbia River GorgeNeilson, Ronald P. 01 January 1975 (has links)
A study of the biogeography of Peromyscus maniculatus was undertaken in order to ascertain a few of the environmental parameters important in defining the distribution of this species and how the species in turn has adapted to these parameters. The Columbia Gorge was chosen as it presents a climatic gradient from maritime to continental with very little elevation gain. Changes along this gradient in topography, soils and vegetation community structure are discussed.
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The effects of pollution on benthic communities of the tidal James River, VirginiaDiaz, Robert J. 01 January 1977 (has links)
Benthic communities in the estuarine portion of the James River are controlled mainly by salinity. Pollution effects are localized and difficult to assess because of the rigorous physical environment. Mesohaline and oligohaline communities were very similar to those in other east coast estuaries. except for the dominance of Rangia cuneata in the oligohaline zone. Communities of the tidal freshwater zone are most affected by pollution. In the areas of Richmond and Hopewell, where the major portion of the pollution load enters the river, communities are most severely depressed. Separate multivariate analyses of species distributional patterns, and pollution and physical parameters produced similar results dividing the river into mesohaline, oligohaline, and upper and lower tidal freshwater zones. Further analysis of only the tidal freshwater portion, to eliminate the effect of salinity, indicated that the distribution of benthic communities reflected the location and concentration of pollution sources along the river. The communities were dominated·by the introduced Asiatic clam, Corbicula manilensis, tubificids of the genus Limnodrilus and the chironomid larva Coelotanypus scapularis. The fauna of the freshwater zones was very eurytopic and adapted to the silty habitats that characterize the tidal freshwater James River and had great resemblance to the fauna of eutrophic lakes. The classical concept that a sharp increase in the number species occurs from the oligohaline to freshwater zones was found to be misleading. The increase does not occur until nontidal freshwater areas of greater habitat diversity are reached. Various aspects of the ecology of the poorly known tidal freshwater habitat are also discussed.
This dissertation is from the Joint Program Degree from the College of William & Mary and University of Virginia and awarded by the University of Virginia.
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Community Structure Analysis of Turtles with Application to the Early Pliocene Gray Fossil SiteConley, Julian 01 August 2022 (has links)
Turtles are important components of ecosystems around the world, with diverse ecological niches and adaptations. However, there are few detailed studies of how turtle community structure reflects local environments. This project applied techniques of community structure analysis to sites across the United States to infer past ecosystem and environmental conditions of the early Pliocene Gray Fossil Site (GFS) in northeastern Tennessee based on the ancient turtle community. Results indicate extant turtle community structure closely reflects environmental conditions, and that ancient turtle communities can be used to infer climate and habitat conditions of past ecosystems. Application to the GFS turtle community shows similarity to modern communities of the southern Gulf Coast and subtropical southeastern United States. These findings are consistent with previous interpretations of the GFS environment as warmer and wetter than the southern Appalachian climate of today, and demonstrate the utility of fossil turtle assemblage data in determining past environmental conditions.
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