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Author: Emily J. Beal
Publisher:
ISBN:
Category :
Languages : en
Pages : 151
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Book Description
Although the anaerobic oxidation of methane (AOM) is a widely studied process, many of the geochemical requirements for it remain a mystery, in part because the responsible organisms are not in pure culture. It has been shown that freshwater AOM proceeds with nitrite and nitrate. However, before this study the only known electron acceptor in marine AOM was sulfate. The work of this study helps to illuminate some of the requirements of marine AOM in the Eel River Basin (ERB), CA, focusing on the methane source and electron acceptors which allow for this globally significant process to proceed. In Chapter 2, I use a finite difference thermal history model to indicate areas within the ERB that are capable of thermogenic methane production. Using the model results, I propose a correlation between areas with high rates of hydrocarbon production, methane seep location, and thus the areas within the ERB where high rates of AOM occur. The results of this study not only provide a potential link between geophysics/tectonics and microbiology, but also provide target areas within the ERB that could be used for microbiologic studies. Chapters 3 and 4 are incubation studies, targeted at understanding the role of electron acceptors, using sediment from methane seeps in the ERB. Methane oxidation is monitored by measuring the incorporation of 13C, from 13CH4, into the carbon dioxide in the headspace. In Chapter 3, I examine how the rate of AOM changes at varying sulfate concentrations, with a focus on concentrations lower than 1 mM. Although it is often stated that methane oxidation occurs in a 1:1 ratio with sulfate reduction, I find that at these low sulfate concentrations, methane oxidation and sulfate reduction are uncoupled, with methane oxidation rates sometimes an order of magnitude higher than sulfate reduction rates. Our experimentally determined rates of AOM are then put into an early Earth atmospheric photochemical model where it is shown that AOM causes a faster rise of oxygen and faster re-rise of methane than models that do not contain AOM. In Chapter 4, I test whether electron acceptors other than sulfate can be used in marine AOM. My results show the first direct evidence that both manganese (in the form of birnessite) and iron (in the form of ferrihydrite) can be used in marine AOM. Although the rates of manganese- and iron-dependent AOM are slower than sulfate-dependent AOM, these processes have the potential to gain more energy from methane oxidation. In addition, manganese- and iron-dependent AOM have the potential to be significant processes on early Earth when sulfate levels were extremely low. Chapter 5 continues the study of manganese- and iron-dependent AOM using phylogenetics and fluorescence in situ hybridization (FISH). In addition we incubated the experiments demonstrating manganese-dependent AOM with 15NH4Cl, during which active cells incorporate the 15N, and measured target aggregates from the incubation using FISH coupled to secondary ion mass spectrometry (FISH-SIMS) to determine the active cells in our incubation. Based on phylogenetic analysis, we find that both manganese- and iron-dependent AOM appear to be performed by distinct microbial assemblages and/or mechanism as compared to sulfate dependent AOM. SIMS analysis of aggregates in the manganese incubation indicate that mixed and mixed-cluster aggregates (of archaea and bacteria) and archaea of sarcina morphology are active and thus are likely responsible for manganese-dependent AOM.
Author: Emily J. Beal
Publisher:
ISBN:
Category :
Languages : en
Pages : 151
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Book Description
Although the anaerobic oxidation of methane (AOM) is a widely studied process, many of the geochemical requirements for it remain a mystery, in part because the responsible organisms are not in pure culture. It has been shown that freshwater AOM proceeds with nitrite and nitrate. However, before this study the only known electron acceptor in marine AOM was sulfate. The work of this study helps to illuminate some of the requirements of marine AOM in the Eel River Basin (ERB), CA, focusing on the methane source and electron acceptors which allow for this globally significant process to proceed. In Chapter 2, I use a finite difference thermal history model to indicate areas within the ERB that are capable of thermogenic methane production. Using the model results, I propose a correlation between areas with high rates of hydrocarbon production, methane seep location, and thus the areas within the ERB where high rates of AOM occur. The results of this study not only provide a potential link between geophysics/tectonics and microbiology, but also provide target areas within the ERB that could be used for microbiologic studies. Chapters 3 and 4 are incubation studies, targeted at understanding the role of electron acceptors, using sediment from methane seeps in the ERB. Methane oxidation is monitored by measuring the incorporation of 13C, from 13CH4, into the carbon dioxide in the headspace. In Chapter 3, I examine how the rate of AOM changes at varying sulfate concentrations, with a focus on concentrations lower than 1 mM. Although it is often stated that methane oxidation occurs in a 1:1 ratio with sulfate reduction, I find that at these low sulfate concentrations, methane oxidation and sulfate reduction are uncoupled, with methane oxidation rates sometimes an order of magnitude higher than sulfate reduction rates. Our experimentally determined rates of AOM are then put into an early Earth atmospheric photochemical model where it is shown that AOM causes a faster rise of oxygen and faster re-rise of methane than models that do not contain AOM. In Chapter 4, I test whether electron acceptors other than sulfate can be used in marine AOM. My results show the first direct evidence that both manganese (in the form of birnessite) and iron (in the form of ferrihydrite) can be used in marine AOM. Although the rates of manganese- and iron-dependent AOM are slower than sulfate-dependent AOM, these processes have the potential to gain more energy from methane oxidation. In addition, manganese- and iron-dependent AOM have the potential to be significant processes on early Earth when sulfate levels were extremely low. Chapter 5 continues the study of manganese- and iron-dependent AOM using phylogenetics and fluorescence in situ hybridization (FISH). In addition we incubated the experiments demonstrating manganese-dependent AOM with 15NH4Cl, during which active cells incorporate the 15N, and measured target aggregates from the incubation using FISH coupled to secondary ion mass spectrometry (FISH-SIMS) to determine the active cells in our incubation. Based on phylogenetic analysis, we find that both manganese- and iron-dependent AOM appear to be performed by distinct microbial assemblages and/or mechanism as compared to sulfate dependent AOM. SIMS analysis of aggregates in the manganese incubation indicate that mixed and mixed-cluster aggregates (of archaea and bacteria) and archaea of sarcina morphology are active and thus are likely responsible for manganese-dependent AOM.
Author:
Publisher: Newnes
ISBN: 0080983006
Category : Science
Languages : en
Pages : 14787
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Book Description
This extensively updated new edition of the widely acclaimed Treatise on Geochemistry has increased its coverage beyond the wide range of geochemical subject areas in the first edition, with five new volumes which include: the history of the atmosphere, geochemistry of mineral deposits, archaeology and anthropology, organic geochemistry and analytical geochemistry. In addition, the original Volume 1 on "Meteorites, Comets, and Planets" was expanded into two separate volumes dealing with meteorites and planets, respectively. These additions increased the number of volumes in the Treatise from 9 to 15 with the index/appendices volume remaining as the last volume (Volume 16). Each of the original volumes was scrutinized by the appropriate volume editors, with respect to necessary revisions as well as additions and deletions. As a result, 27% were republished without major changes, 66% were revised and 126 new chapters were added. In a many-faceted field such as Geochemistry, explaining and understanding how one sub-field relates to another is key. Instructors will find the complete overviews with extensive cross-referencing useful additions to their course packs and students will benefit from the contextual organization of the subject matter Six new volumes added and 66% updated from 1st edition. The Editors of this work have taken every measure to include the many suggestions received from readers and ensure comprehensiveness of coverage and added value in this 2nd edition The esteemed Board of Volume Editors and Editors-in-Chief worked cohesively to ensure a uniform and consistent approach to the content, which is an amazing accomplishment for a 15-volume work (16 volumes including index volume)!
Author: Davide Oppo
Publisher: Frontiers Media SA
ISBN: 2832537855
Category : Science
Languages : en
Pages : 236
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Book Description
Methane is a strong climate-active gas, the concentration of which is rapidly increasing in the atmosphere. Vast methane reservoirs are hosted in seafloor sediments, both dissolved in pore fluids and trapped in gas hydrate. Cold seeps discharge significant amounts of this methane into the ocean. The rate of seabed methane discharge could be orders of magnitude higher than current estimates, creating considerable uncertainty. The extent of methane transfer from the seafloor to the water column and ultimately to the atmosphere is also uncertain. The seepage of methane and other hydrocarbons drives complex biogeochemical processes in marine sediments and the overlying water column. Seeps support chemosynthesis-based communities and impact the chemistry of the water column. Seeps may also play a critical role in ocean acidification and deoxygenation and can be geohazards, as well as a potential energy resource. Unraveling the complex and dynamic interactions and processes at marine seeps is crucial for our understanding of element cycling in the geo- and hydrosphere.
Author: Chiara Cassarini
Publisher: CRC Press
ISBN: 042982730X
Category : Science
Languages : en
Pages : 176
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Book Description
This research investigated new approaches to control anaerobic methane oxidation coupled to sulfate reduction (AOM-SR) and enrich anaerobic methanotrophs (ANME) and sulfate reducing bacteria (SRB) with the purpose of designing a suitable bioreactor for AOM-SR at ambient pressure and temperature. The current knowledge about AOM and the microorganisms involved in AOM are discussed. The effect of different substrates and pressures was investigated on the ANME and SRB community adapted to the shallow marine Lake Grevelingen, the Netherlands. Further, microorganisms from the Alpha Mound (Spain) deep sediment were enriched with methane gas as substrate in biotrickling filters (BTF) at ambient conditions for 147-230 days of operation. The effect of alternative sulfur compounds (sulfate, thiosulfate and elemental sulfur) were studied and the microbial community was characterized. The highest AOM and sulfate reduction rates were obtained in the BTF fed with thiosulfate as the electron acceptor (~0.4 mmol l-1 day-1), but the highest number of ANME was visualized in the sulfate fed BTF (ANME-2 43% of the total visualized archaea). A BTF was proposed as a suitable bioreactor for the enrichment of ANME and SRB at ambient pressure and temperature which could be potentially used for future biotechnological applications.
Author: Horst D. Schulz
Publisher: Springer Science & Business Media
ISBN: 3540321446
Category : Science
Languages : en
Pages : 583
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Book Description
Since 1980 a considerable amount of scientific research dealing with geochemical processes in marine sediments has been carried out. This textbook summarizes the state-of-the-art in this field of research providing a complete representation of the subject and including the most recent findings. The topics covered include the examination of sedimentological and physical properties of the sedimentary solid phase. A new chapter describes properties, occurrence and formation of gas hydrates in marine sediments. The textbook ends with a chapter on model conceptions and computer models to quantify processes of early diagenesis.
Author:
Publisher: Newnes
ISBN: 0080885047
Category : Science
Languages : en
Pages : 5304
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Book Description
The second edition of Comprehensive Biotechnology, Six Volume Set continues the tradition of the first inclusive work on this dynamic field with up-to-date and essential entries on the principles and practice of biotechnology. The integration of the latest relevant science and industry practice with fundamental biotechnology concepts is presented with entries from internationally recognized world leaders in their given fields. With two volumes covering basic fundamentals, and four volumes of applications, from environmental biotechnology and safety to medical biotechnology and healthcare, this work serves the needs of newcomers as well as established experts combining the latest relevant science and industry practice in a manageable format. It is a multi-authored work, written by experts and vetted by a prestigious advisory board and group of volume editors who are biotechnology innovators and educators with international influence. All six volumes are published at the same time, not as a series; this is not a conventional encyclopedia but a symbiotic integration of brief articles on established topics and longer chapters on new emerging areas. Hyperlinks provide sources of extensive additional related information; material authored and edited by world-renown experts in all aspects of the broad multidisciplinary field of biotechnology Scope and nature of the work are vetted by a prestigious International Advisory Board including three Nobel laureates Each article carries a glossary and a professional summary of the authors indicating their appropriate credentials An extensive index for the entire publication gives a complete list of the many topics treated in the increasingly expanding field
Author: Susma Bhattarai Gautam
Publisher: CRC Press
ISBN: 042982646X
Category : Science
Languages : en
Pages : 22
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Book Description
Anaerobic oxidation of methane (AOM) coupled to sulfate reduction (AOM-SR) is a biological process mediated by anaerobic methanotrophs (ANME) and sulfate reducing bacteria. It has scientifi c and societal relevance in regulating the global carbon cycle and biotechnological application for treating sulfate-rich wastewater. This research aimed to enhance the recent knowledge on ANME distribution and its enrichment in different bioreactor confi gurations, i.e. membrane bioreactor (MBR), biotrickling fi lter (BTF) and high pressure bioreactor (HPB). Marine sediment from Ginsburg mud volcano, Gulf of Cadiz was used as inoculum in the BTF and MBR. The BTF operation showed the enrichment of ANME in the biofi lm, especially ANME-1 (40%) and ANME-2 (10%). Whereas, the dominancy of ANME-2 and Desulfosarcina aggregates was observed in the MBR. Moreover, HPB study was performed by using highly enriched ANME-2 community from Captain Arutyunov mud volcano. During the study of HPB at different temperature and pressure conditions, the incubation at 10 MPa pressure and 15 ̊C was observed to be the most suitable condition for the studied AOM-SR community. Furthermore, AOM-SR activity in the coastal sediments from marine Lake Grevelingen (the Netherlands) was explored and the microbial community was characterised which was dominated by ANME-3 among known ANME types.
Author:
Publisher:
ISBN:
Category : Geochemistry
Languages : en
Pages : 354
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Book Description
Selected articles translated from Geokhimiya, a publication of the Academy of Sciences, U.S.S.R.
Author: Jiangxin Chen
Publisher: Frontiers Media SA
ISBN: 2832537995
Category : Science
Languages : en
Pages : 151
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Book Description
Author: Susan M. Gaines
Publisher: Oxford University Press
ISBN: 0195176197
Category : Nature
Languages : en
Pages : 376
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Book Description
In 1936 a German chemist identified certain organic molecules that he had extracted from ancient rocks and oils as the fossil remains of chlorophyll--presumably from plants that had lived and died millions of years in the past. It was another twenty-five years before this insight was developed and the term "biomarker" coined to describe fossil molecules whose molecular structures could reveal the presence of otherwise elusive organisms and processes.Echoes of Life is the story of these molecules and how they are illuminating the history of the earth and its life. It is also the story of how a few maverick organic chemists and geologists defied the dictates of their disciplines and--at a time when the natural sciences were fragmenting into ever-more-specialized sub-disciplines--reunited chemistry, biology and geology in a common endeavor. The rare combination of rigorous science and literary style--woven into a historic narrative that moves naturally from the simple to the complex--make Echoes of Life a book to be read for pleasure and contemplation, as well as education.
