The consequences of evolutionary adaptation on the sulfur isotope fractionation of sulfate reducing microorganisms

Pellerin, André

January 2015

No description available.

Earth Sciences - Biogeochemistry

Carbon cycle box modeling studies of the Paleocene-Eocene thermal maximum

Carozza, David

January 2009

No description available.

Earth Sciences - Biogeochemistry

Dissolved organic carbon and nitrogen dynamics in a pristine old growth forested watershed with anthropogenic nitrogen deposition

Amyot, Christopher

January 2015

No description available.

Earth Sciences - Biogeochemistry

Biogeochemistry Of Microbial Mats From A Hypersaline Pond And Reef Biofilm From A Modern Coral Reef, The Bahamas

Puckett, Mary Keith

11 December 2009

Biofilm communities host complex biogeochemical processes and play a role in the formation of many carbonate rocks by influencing both carbonate precipitation and dissolution. In this study, the biogeochemistry of microbial mats from a hypersaline pond and biofilm from a coral reef are described using SEM, microelectrode profiling, Biolog, fatty acid methyl ester (FAME) and carbon nitrogen analysis. Results show that the microbial mats are distinctly layered, having an oxic upper portion and an H2S-rich lower portion. The most significant conclusions are that the mats have exceptionally high TOC values and display significant differences in microbial communities present, both between layers and between cores. Additionally, organic matter is abundant in microbial mat and biofilm samples, but evidence of precipitation is surprisingly lacking.

microbial mat

Biogeochemistry

biofilm

Kinetics and Mechanisms of Cr⁶⁺ Reduction by Structural Fe(II) in Clay Minerals

Glasser, Paul Allen

08 January 2014

No description available.

Mineralogy

Geology

Geobiology

Biogeochemistry

Biogeochemistry of newly created riparian wetlands : evaluation of water quality changes and soil development /

Nairn, Robert W.

January 1996

No description available.

Biology

Riparian ecology

Biogeochemistry

Signal and Image Processing Techniques for Environmental and Clinical Applications of Infrared Spectroscopy

Wabomba, Mukire John

17 December 2002

No description available.

Biogeochemistry

Chemistry and Biochemistry

Biomarkers of Microbial Cells and Metabolisms in Systems Related to Energy Industries

Pereira, John Christopher

January 2024

Understanding the distribution, abundances, and metabolic activity of microbial life in terrestrial environments is fundamental to our understanding of the role that microbial life can play in many areas of interest, such as biogeochemical cycling and microbially assisted degradation, and as the foundational knowledge for the search for extraterrestrial life. Depending on location, sufficient biomass or extraction procedure can pose significant challenges to quantify and identify the microbes present in a system due to low biomass, cell resistances, or matrix effects. This Master’s Thesis project has two main aspects. The first study utilizes phospholipid fatty acids (PLFA) analysis to determine the influence of methane and other petroleum hydrocarbons on the Base Mine Lake (BML) Pit Lake (PL). This was done by extracting biofilm units that were deployed into BML at different seasons and depths. PLFA biomarkers were utilized to determine cell abundance on biofilms as well as microbial community composition. This study revealed abundant microbial growth on biofilm units. The observed microbial composition on the biofilm units was comparable to that of the water column, with notable increase of C16:1 and polyunsaturated PLFA in both the epilimnion and hypolimnion, which contains biomarkers consistent with methanotrophy (C16:1) and phototrophy (polyunsaturates). Radiocarbon analysis of PLFA from biofilm units demonstrated that the carbon source used by the microbial communities within the system was derived from petroleum carbon, with petroleum carbon contributing up to 90% of the carbon in the PLFA. Strong stable isotopic depletion of biomarker lipids (δ13C = -51 ‰) for methanotrophy indicated the use of methane derived carbon by the community. In the epilimnion methanotrophy was indicated to be less important and indications of photosynthetic metabolisms were concurrent with a slightly more modern radiocarbon content consistent with inputs from autotrophy using atmospheric carbon. The second study investigated Dipicolinic Acid (DPA), a biomarker for endospores, a highly resistant state of a variety microbial Genera. This state can survive radiation, desiccation, heat, and bacterivore digestion, and is brought on due to the environment the microbe is living on becoming harsh or unfavorable. Endospores can remain viable for extended periods of time, up to millions of years (Cano & Boruki, 1995; Vreeland, Rosenzweig, & Powers, 2000), which has made them an organism of interest for astrobiology. The presence and potential survivability of endospores within bentonite clay is also of highly applied interest to the Nuclear Waste Management Organization (NWMO) who is proposing to use bentonite within their multi-barrier spent nuclear fuel storage proposal. This study was undertaken to determine the extent of mineral matrices on the effectiveness of DPA extraction from bentonite clay, as well as other planetary analogs. This initial study demonstrated that extraction of DPA was able to effectively identify and quantify the presence of known numbers of spores added to bentonite clay. For this, plates of Bacillus Subtilis were grown and suspended, then cells were counted in a hemacytometer to determine concentration of the spore suspension, which was used to spike mineral matrices to learn how they influence the recovery of DPA during extraction. Further, it showed that the presence of bentonite did not have a significant effect on recovery. The only mineral matrix to see significantly lower than expected recovery was basalt. Finally, initial tests on unseeded bentonite clay showed that spores were below limit of quantification for all samples, but above the limit of detection / Thesis / Master of Science (MSc)

Astrobiology

Biogeochemistry

Geochemistry

Environmental biogeochemistry of the Northwest Arm and Trinity Bay, Newfoundland : novel molecular and carbon isotopic approaches /

Pulchan, K. Jerry,

January 2001

Thesis (Ph.D.)--Memorial University of Newfoundland, 2001. / Bibliography: leaves 259-275. Also available online.

Regional-scale carbon flux estimation using MODIS imagery / Regional scale carbon flux estimation using Moderate Resolution Imaging Spectroradiometer imagery

Cordova, Vicente D.

January 2005

The National Aeronautics and Space Agency NASA's Moderate Resolution Imaging Spectroradiometer (MODIS) platform carried by Terra and Aqua satellites, is providing systematic measurements summarized in high quality, consistent and well-calibrated satellite images and datasets ranging from reflectance in the visible and near infrared bands to estimates of leaf area index, vegetation indices and biome productivity. The objective of this research was to relate the spectral responses and derived MODIS products of ecosystems, to biogeochemical processes and trends in their physiological variables. When different sources of data were compared, discrepancies between the MODIS variables and the corresponding ground measurements were evident. Uncertainties in the input variables of MODIS products algorithms, effects of cloud cover at the studied pixel, estimation algorithm, and local variation in land cover type are considered as the cause. A simple "continuous field" model based on a physiologically-driven spectral index using two ocean-color bands of MODIS satellite sensor showed great potential to track seasonally changing photosynthetic light use efficiency and stress-induced reduction in net primary productivity of terrestrial vegetation. The model explained 88% of the variability in Flux tower-based daily Net Primary Productivity. Also a high correlation between midday gross CO2 exchange with both daily and 8-day mean gross CO2 exchange, consistent across all the studied vegetation types, was found. Although it may not be possible to estimate 8-day mean Light Use Efficiency reliably from satellite data, Light Use Efficiency models may still be useful for estimation of midday values of gross CO2 exchange which could then be related to longer term means of CO2 exchange. In addition, the MODIS enhanced vegetation index shows a high potential for estimation of ecosystem gross primary production, using respiration values from MODIS surface temperature, providing truly per-pixel estimates. / Department of Natural Resources and Environmental Management