Life Sciences Commons^™

Ecology Of Organohalide-Respiring Dehalococcoides Mccartyi: Corrinoid Cofactor-Related Community Interactions And Controls Over Strain Selection, Burcu Şimşir

Doctoral Dissertations

Organohalides such as tetrachloroethene (PCE) and trichloroethene (TCE) are among the most prevalent toxic groundwater contaminants. Remediation of organohalide-contaminated sites has high priority, and efficient and cost-effective remedies are needed to prevent environment and human exposure through contaminated water. Bacterial organohalide-respiration plays a major role in organohalide detoxification. Dehalococcoides mccartyi (Dhc) are key mediators in bioremediation, since only Dhc strains have been documented in complete detoxification of chlorinated ethenes to benign ethene. Dhc depends on other microorganisms in the environment for essential growth requirements (e.g., hydrogen and vitamins). For successful implementation of the reductive dechlorination to remediate contaminated …

Bioremediation Of Chlorinated Ethenes: Ph Effects, Novel Dechlorinators And Decision-Making Tools, Yi Yang

Doctoral Dissertations

Chlorinated solvents have been widely used in different areas of modern society. Usage of these chlorinated solvents was not necessarily accompanied with proper handling and disposal of these hazardous compounds, which caused a variety of environmental problems and continues to affect human health. Remediation of chlorinated ethenes contaminated sites has high priority for state regulators and site owners. Among the available treatment technologies, bioremediation shows great promise as a cost-effective corrective strategy for a variety of environmental pollutants. Prerequisites are that the microbiology involved in contaminant degradation and geochemical factors, such as pH, are understood, so that bioremediation technologies can …

Molecular And Ecological Aspects Of The Interactions Between Aureococcus Anophagefferens And Its Giant Virus, Mohammad Moniruzzaman

Doctoral Dissertations

Viruses are increasingly being recognized as an important biotic component of all ecosystems including agents that control the rapid ecological events that are harmful algal blooms (HABS). Aureococcus anophagefferens is a pelagophyte which causes recurrent ecosystem devastating brown tide blooms along the east coast of the USA and has recently spread to China and South Africa. It has been suggested that a large virus (AaV) is possibly an important agent for demise of brown tide blooms. This observation is consistent with the recognition of a number of other giant viruses modulating algal blooms in marine systems. In this dissertation, we …

Exploring Enrichment Cultures Of Denitrifying Microorganisms From El Yunque National Forest, Samiha Ahsan, Jenny Onley, Frank Loeffler

Chancellor’s Honors Program Projects

No abstract provided.

Microbial Respiration And Community Response To Crude Oil In Deep Eastern Mediterranean And The Great Australian Bight, Jiang Liu

Doctoral Dissertations

The Deep Water Horizon (DWH) oil spill in 2010 was the largest deep ocean oil spill in world history. Very limited information about oil biodegradation is available in deep oceans other than GOM since DWH. In this study, we investigate the microbial communities’ response to crude oil contamination in the deep Eastern Mediterranean sea (E.Med) and Great Australian Bight (GAB). In addition, we will assess feasible methods for oil bioremediation in those locations.

First, we discovered the fast adaption of the E.Med deep water microbial community to oil contamination in terms of phylogeny and functional genes. Based on the 16S …

Microbial Extracellular Enzymes In Marine Sediments: Methods Development And Potential Activities In The Baltic Sea Deep Biosphere, Jenna Marie Schmidt

Masters Theses

The deep biosphere is defined as the subsurface ecosystem in which little energy is available to microorganisms and microorganisms can live for thousands of years. Heterotrophic microbes survive in the deep biosphere even though organic matter is limited and highly recalcitrant in nature. Measuring microbial extracellular enzyme activity provides a potential means to evaluate the rate at which microorganisms are performing carbon remineralization in the energy limited sediment beneath the seafloor. Extracellular enzymes breakdown organic compounds so that the nutrients can move inside the cell and be used for energy. This study explored the role extracellular enzymes play in the …

Aerobic Bacterial Transformations Of Lignin-Derived Aromatic Compounds, Ashley Marie Frank

Doctoral Dissertations

Lignin, the most abundant aromatic polymer on earth, has been estimated to contribute ~20% of the total carbon deposited in nature and thus imparts a large influence on carbon cycling in the environment. The extraordinary abundance of carbon stored in this material renders it a desirable source of renewable carbon for a variety of applications including hydrocarbon fuels and industrial chemicals. Due to its incredibly stable architecture and entanglement with cell wall polysaccharides, however, efforts toward the conversion of lignin to high value commodities have historically been impeded. Despite this obstacle, many microbes in nature are capable of degrading lignin …

Computational Perspective For Developing Bioluminescent Yeast Estrogen Screens For Environmental Toxicology, Jun Wang

Doctoral Dissertations

The impact of endocrine disruptive chemicals to human and wild life health has raised serious public health concerns through the past decades. To address this concern, much research was involved to develop tools for screening and assessing the hormonal potential of these compounds. Yeast bioluminescent bioreporter assay was one of the tools developed as the result of these past research endeavors. In this dissertation, a yeast bioluminescent bioreporter assay system was evaluated for the screening of endocrine disruptors from both experimental and computational perspectives. The yeast bioluminescent bioreporters were first standardized and applied in the comparative study of traditional activated …

Environmentally Driven Orchestration Of Metabolisms By Prochlorococcus Spp., Martin James Szul

Doctoral Dissertations

In the oligotrophic waters of the world’s open oceans physical factors such as pH, salinity, and temperature are generally stable. The nutrient limited conditions as well as the low environmental variability endemic to these ecosystems select for specialists that gain fitness advantages through minimalism, efficiency, and thrift. These physical characteristics are thought to reduce nutrient demand while allowing for constant metabolic activity and growth, but the mechanisms that promote these fitness advantages are currently unknown. To better understand how these physiologies improve selective fitness for the dominant phytoplankton, we observed metabolic parameters under environmental conditions typical to these waters. In …

Isolation And Characterization Of Microbial Communities From Hydraulic Fracturing Fluids, Sheridan S. Brewer 6284984

Chancellor’s Honors Program Projects

No abstract provided.