Biology Theses and Dissertations

Permanent URI for this collectionhttp://hdl.handle.net/1903/2749

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End date: 2009Subject: search.filters.subject.Environmental Sciences

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    Benthic Oxygen Production in the Choptank Estuary
    (2009) Chick, Christopher Roberts; Cornwell, Jeffrey C; Marine-Estuarine-Environmental Sciences; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Microphytobenthos (MPB) represent an important component of primary production in many coastal estuarine systems. The aim of this study is to determine which variables in the Chesapeake Bay are positively correlated with MPB oxygen production, and based on this correlation to develop a predictive relationship for estimating benthic primary production. Furthermore, this study estimates the proportion of MPB primary production to total primary production in the Chesapeake Bay. Oxygen flux rates were measured in the dark and in the light from sediment cores taken from three sites on the Chesapeake Bay. Flux rates ranged from 6000 mol O2 m-2 h-1 in the light to -3800 mol O2 m-2 h-1 in the dark treatment. From these rates and other measurements, we developed multiple linear regressions using sediment grain type and depth to predict oxygen production seasonally. We applied these relationships to sediment grain-size and bathymetry data using ArcMap software to create a spatial dimension to our predictive relationships. Based on our derived relationship, we estimated summer average benthic daily net production to be 123 ± 962 mg O2 m-2 d-1 between 0-3 meters. For the winter, we estimated the rate to be 152 ± 413 mg O2 m-2 d-1. For spring we had a weaker relationship, but we estimated benthic production to be -257 ± 123 mg O2 m-2 d-1. Using published pelagic data, we created a proportion of benthic to pelagic primary production, and we estimate that MPB provide approximately 12% of total primary production in the mid-bay region. Shallower depths contained a higher proportion of benthic O2 productivity to pelagic O2 production with the contrast peaking during the summer months.
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    MORPHOLOGY IN URBANIZED STREAMS OF THE PUGET SOUND LOWLAND REGION
    (2004) Boyle, Pamela Roxana; Prestegaard, Karen; Marine-Estuarine-Environmental Sciences; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Increased runoff from urbanization may result in erosion to the stream channel and banks, leading to channel incision, bed changes, loss of instream debris and habitat, and an overall reduction of heterogeneity and channel complexity. These impacts are especially evident in low gradient, gravel-bed, meandering streams - the major type of stream in the Puget Sound Lowland region. The failure of many stream restoration projects is due to a lack of understanding of how morphological features of a stream respond to hydrological changes. Single cross-section methods (instead of reach-level) are generally used and may not adequately portray the complexity, or variation, of the stream channel and bed. Three main hypotheses in this thesis are: 1) a single cross-section taken within a reach does not adequately describe a stream compared to a mean value calculated from several measurements; 2) urban streams with more urbanized drainage areas have higher shear stresses, and thus move larger bed particles and have higher reach mobility; and 3) urban channels have less channel complexity than non-urban channels. Results showed that a single cross-section may not adequately describe the morphological variables of a stream reach; however, this method may be appropriate for calculating reach shear stress. In addition, shear stress and mobility were not found to increase with increasing urbanization. Furthermore, complexity was not found to decrease with increasing urbanization. These two latter results indicate that urbanization (or percent imperviousness) alone cannot be used as a variable to investigate changes in stream morphology and hydraulics. In fact, a measure of sediment supply could be considered an additional independent variable by which to study urbanization impacts to streams. Substrate distributions from this thesis also support this finding.
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    Interactions between an estuarine submersed plant bed and its physical and biogeochemical environment: Seasonal and spatial variation
    (2009) Gruber, Renee Kirstin; Kemp, William M; Marine-Estuarine-Environmental Sciences; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Annual cycles of growth and morphology were analyzed in a bed of the canopy-forming submersed aquatic vegetation (SAV) species, Stuckenia pectinata, in relation to seasonal water quality conditions in a Chesapeake Bay tributary. A rapid accumulation of aboveground plant material occurred during the spring period of high water clarity, which aided plants in circumventing light limitation during the summer period of low water clarity. During summer, this SAV bed strongly attenuated wave energy, which contributed to growth-promoting feedback effects that improved light and nutrient availability for plants. Modification of hydrodynamic conditions also resulted in several negative feedback effects on SAV growth. Feedbacks were regulated by plant stand size and density and seasonal changes in plant canopy architecture. The findings of this study illustrate the significant impacts SAV beds can have on their local environment, improving conditions and resulting in plant growth that could not otherwise occur in this degraded system.
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    MARSH ELEVATION AND ACCRETION DYNAMICS ALONG ESTUARINE SALINITY GRADIENTS: OBSERVATIONAL AND EXPERIMENTAL STUDIES
    (2009) Beckett, Leah Hope-Menzies; Baldwin, Andrew H; Marine-Estuarine-Environmental Sciences; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Chesapeake Bay marshes are threatened by sea level rise and have experienced degradation as a result of saltwater intrusion and increased water levels. Rates of elevation and accretion change and vegetation communities may be affected by salt water intrusion and other processes as a result of sea level rise. An observational study of the Nanticoke River, a tributary to the Chesapeake Bay, utilizing surface elevation tables (SET) reflected that during the course of a two year study period, rates of marsh elevation change differed significantly along an estuarine salinity gradient. Surface elevation of oligohaline marshes decreased during the monitoring period and were significantly different from mesohaline marshes which increased in elevation. An experimental study in Patuxent River tidal freshwater marshes in which plots were irrigated with saltwater indicated that with saltwater intrusion vegetation communities may become less diverse.
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    Predation by eastern mudminnows (Umbra pygmaea) on macroinvertebrates of temporary wetlands
    (2009) Lombardi, Susan Elizabeth; Lamp, William O.; Marine-Estuarine-Environmental Sciences; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Fish play a substantial role in aquatic food webs, yet the effect of feeding activities of small stream fish that enter seasonally-flooded temporary wetlands during periods of hydrologic connectivity is not well understood. In this study, eastern mudminnows (Umbra pygmaea) were introduced to a fishless wetland in Caroline County, Maryland, and the aquatic macroinvertebrate community did not significantly change within two weeks. Gut contents of mudminnows collected from the wetland and a stream consisted primarily of dipteran larvae; ostracods were also a common food source for wetland mudminnows. Common prey not found in gut contents but present in the wetland were tested as food, and all taxa were consumed in a no-choice predation experiment. Mudminnows have the potential to directly affect multiple trophic levels and subsequent ecosystem functioning through predatory interactions with sustained hydrologic connectivity between fish sources and temporary wetlands.
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    Importance of channel networks on nitrate retention in freshwater tidal wetlands, Patuxent River, Maryland
    (2009) Seldomridge, Emily Dawn; Prestegaard, Karen; Cornwell, Jeffrey C; Marine-Estuarine-Environmental Sciences; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Freshwater tidal marshes border stream channels near the upstream end of the tidal limit, and are likely to undergo significant changes in salinity, tidal inundation, and biogeochemical processes due to sea-level rise. Tidal channel networks enhance nutrient processing by delivering nitrate-rich water far into the marsh. The purpose of this study is to examine the geomorphological, hydrological, and biogeochemical processes that influence the delivery and processing of nutrient-rich waters into tidal marshes. In this study, field measurements were made to calculate water and nitrate flux for stream channels of varying order. These mass balance calculations indicate there is an exponential increase in net nitrate retention with channel order. This calculation could be compared with calculations of denitrification at different sites within the system to evaluate the role of these processes in total nitrate loss.
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    An RNA:DNA-based index of growth in juvenile Atlantic menhaden (Brevoortia tyrannus): laboratory calibration and field assessment
    (2009) Edwards, Jason Lee; Miller, Thomas J; Marine-Estuarine-Environmental Sciences; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Atlantic menhaden (Brevoortia tyrannus) is an ecologically and economically important species in the mid-Atlantic coastal ecosystem. Its population dynamics are influenced by growth and survival during juvenile occupancy in estuarine nursery habitats. Therefore, quantifying production of potential nursery areas is important to understanding population processes and defining essential fish habitat for this species. Based on laboratory growth experiments, an RNA:DNA-based growth model was developed for young-of-the-year menhaden. The temporal response of RNA:DNA to changes in feeding condition was also quantified in the laboratory. Results of these investigations indicate RNA:DNA as a reliable tool for estimating recent growth and condition in relation to habitat residency. RNA:DNA-based estimates of growth were combined with site-specific abundance estimates to evaluate the spatiotemporal variability in production of potential menhaden nursery habitats. Site-specific production estimates exhibited high spatiotemporal variability suggesting menhaden utilize a mosaic of habitats to promote production, rather than specific sites consistently generating high levels of production.
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    Development of a recommended analytical framework for environmental report cards: An example from Rock Creek Park, Washington DC and its watershed
    (2009) Florkowski, Lisa Nicole; Dennison, William C; Marine-Estuarine-Environmental Sciences; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Integrated environmental report cards help to focus management efforts and track the effectiveness of management initiatives over time. This study used NPS I&M Program data to compare alternative methods for the assessment of ecological status and trends for Rock Creek Park. The recommended analytical framework is a potential model for assessing other NPS units or protected areas. The condition of Rock Creek Park is highly dependent upon the surrounding land. Synoptic nutrient sampling - nitrate, phosphate, dissolved oxygen, and salinity - was conducted throughout the Rock Creek watershed. The results were combined to create a water quality index. It was determined that the Urban Stream Syndrome, or the interaction of many anthropogenic forces, was causing decreased water quality throughout the watershed. The results of this study suggest that managers work across political boundaries within the watershed and work to decrease the connectedness of urban surfaces and Rock Creek.
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    Light available to the seagrass Zostera marina when exposed to currents and waves
    (2009) McKone, Katie Lynn; Koch, Evamaria W; Marine-Estuarine-Environmental Sciences; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Aquatic organisms are regularly exposed to varying degrees of hydrodynamic forces such as currents and waves. Seagrasses, which are rooted in the sediment, have flexible leaves, allowing them to sway back and forth with waves and deflect with currents. Furthermore, seagrasses can acclimate to local hydrodynamic forces exerted upon them by changing their morphology, which may benefit the organism via reduced drag, but may also bring disadvantages such as increased self-shading. We examined the interaction between water flow and morphology of the seagrass Zostera marina, and how this interaction affects light availability to the plant. We also assessed carbon and nutrient content of Z. marina, as the uptake of these constituents has been linked to hydrodynamic conditions and sediment composition. Our results indicate that local hydrodynamics and sediment composition induce morphological variation in the seagrass Z. marina, and that this variation influences light availability to the seagrass canopy.
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    Home Gardener Preferences, Perceptions, Knowledge and Behaviors Associated with Pest Management Strategies and Information Acquisition
    (2009) Matheny, Amanda Leigh; Brown, Amy E.; Marine-Estuarine-Environmental Sciences; Digital Repository at the University of Maryland; University of Maryland (College Park, Md.)
    Abstract The overuse and/or misuse of pesticides by home gardeners has been verified through various reports indicating home gardeners may fail to recognize opportunities to implement more preferable pest management practices such as Integrated Pest Management (IPM). A series of three surveys, facilitated by Master Gardeners, were conducted to investigate home gardeners' knowledge, values, and attitudes about pest management; changes in their behavior over time; and factors that impact their acquisition of pest management information. Respondents were primarily over age 50 and highly educated, with a high level of environmental concern. They preferred sources of information that could present both pesticides and alternatives, and preferred to access gardening information from Cooperative Extension, Master Gardeners, and the Internet. These respondents showed strong agreement between environmental concerns and their pest control decisions. The results of the study will help educators improve the efficacy of educational outreach on IPM and pesticide safety.