Gotowe bibliografie tematyczne / Microbial diversity

Spis treści

  1. Artykuły w czasopismach
  2. Rozprawy doktorskie
  3. Książki
  4. Części książek
  5. Streszczenia konferencji
  6. Raporty organizacyjne

Gotowa bibliografia na temat „Microbial diversity”

Autor: Grafiati
Data publikacji: 4 czerwca 2021
Data aktualizacji: 25 lipca 2025

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Artykuły w czasopismach na temat "Microbial diversity"

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Dominiecki, Mary E. "Microbial Diversity." American Biology Teacher 67, no. 4 (2005): 248. http://dx.doi.org/10.2307/4451833.

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Bull, Alan T., and David J. Hardman. "Microbial diversity." Current Opinion in Biotechnology 2, no. 3 (1991): 421–28. http://dx.doi.org/10.1016/s0958-1669(05)80150-8.

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Bull, Alan T. "Microbial diversity." Biodiversity and Conservation 1, no. 4 (1992): 219–20. http://dx.doi.org/10.1007/bf00693759.

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CHRISTINE, MLOT. "Microbial Diversity Unbound." BioScience 54, no. 12 (2004): 1064. http://dx.doi.org/10.1641/0006-3568(2004)054[1064:mdu]2.0.co;2.

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Doulgeraki, Agapi I., and Chrysoula C. Tassou. "Food Microbial Diversity." Microorganisms 9, no. 12 (2021): 2556. http://dx.doi.org/10.3390/microorganisms9122556.

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Forster, Samuel C. "Illuminating microbial diversity." Nature Reviews Microbiology 15, no. 10 (2017): 578. http://dx.doi.org/10.1038/nrmicro.2017.106.

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Bello, Maria G. Dominguez, Rob Knight, Jack A. Gilbert, and Martin J. Blaser. "Preserving microbial diversity." Science 362, no. 6410 (2018): 33–34. http://dx.doi.org/10.1126/science.aau8816.

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Salazar, Guillem, and Shinichi Sunagawa. "Marine microbial diversity." Current Biology 27, no. 11 (2017): R489—R494. http://dx.doi.org/10.1016/j.cub.2017.01.017.

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Li, Dongmei, and Philip Hendry. "Microbial diversity in petroleum reservoirs." Microbiology Australia 29, no. 1 (2008): 25. http://dx.doi.org/10.1071/ma08025.

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Buried hydrocarbon deposits, such as liquid petroleum, represent an abundant source of reduced carbon for microbes. It is not surprising therefore that many organisms have adapted to an oily, anaerobic life deep underground, often at high temperatures and pressures, and that those organisms have had, and in some cases continue to have, an effect on the quality and recovery of the earth?s diminishing petroleum resources. There are three key microbial processes of interest to petroleum producers: reservoir souring, hydrocarbon degradation and microbially enhanced oil recovery (MEOR).
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BEARDSLEY, TIMOTHY M. "Metagenomics Reveals Microbial Diversity." BioScience 56, no. 3 (2006): 192. http://dx.doi.org/10.1641/0006-3568(2006)056[0192:mrmd]2.0.co;2.

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Rozprawy doktorskie na temat "Microbial diversity"

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Pagaling, Eulyn. "Microbial diversity of Chinese lakes." Thesis, University of Leicester, 2007. http://hdl.handle.net/2381/7662.

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Sanal, Zeynep. "Microbial diversity in evaporite brines." Thesis, University of Leicester, 1999. http://hdl.handle.net/2381/29800.

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Studies of subterranean ancient evaporites in different geographical and geological habitats around the world have revealed that these sites are populated by abundant populations of halophilic eubacteria. The diversity of these isolates was established by phenotypic, chemotaxonomic and phylogenetic analyses. The majority of the isolates were Gram-negatives (90%), the remainder being Gram-positives as judged by several different kinds of analyses. A numerical taxonomy study of the Gram-negative isolates revealed nine distinct phenons, whereas the Gram-positive isolates were represented by only
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Karlinska-Batres, Klementyna. "Microbial diversity of coralline sponges." Diss., Ludwig-Maximilians-Universität München, 2013. http://nbn-resolving.de/urn:nbn:de:bvb:19-179567.

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O'Flaherty, S. M. "Microbial diversity in contaminated soil." Thesis, Cranfield University, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.274042.

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Xue, Peipei. "Soil Microbial Diversity: Relating Microbial Distributions to Soil Functions." Thesis, The University of Sydney, 2022. https://hdl.handle.net/2123/28830.

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Soil microbial biodiversity is an essential component of the natural ecosystem. Soil microbes work as decomposers contributing to soil nutrient cycling, primary production, and climate regulation. The heterogeneous edaphic properties lead to the diversity of microbial community structuring and functioning. This thesis investigates microbial community distributions and functions through vertical soil profiles, at the landscape level, and along regional transects. Vertically, soil microbial communities were depicted in soil profiles to a depth of 1 m using the concept of genosoils (soil formed a
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Baumgarte, Susanne. "Microbial diversity of soda lake habitats." [S.l. : s.n.], 2003. http://deposit.ddb.de/cgi-bin/dokserv?idn=968508480.

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Edlund, Anna. "Microbial diversity in Baltic Sea sediments /." Uppsala : Dept. of Microbiology, Swedish University of Agricultural Sciences, 2007. http://epsilon.slu.se/200726.pdf.

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Eren, Ahmet. "Assessing Microbial Diversity Through Nucleotide Variation." ScholarWorks@UNO, 2011. http://scholarworks.uno.edu/td/1307.

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Microbes are the most abundant and most diverse form of life on Earth, constituting the largest portion of the total biomass of the entire planet. They are present in every niche in nature, including very extreme environments, and they govern biogeochemical transformations in ecosystems. The human body is home to a diverse assemblage of microbial species as well. In fact, the number of microbial cells in the gastrointestinal tract, oral cavity, skin, airway passages and urogenital system is approximately an order of magnitude greater than the number of cells that make up the human body itself,
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Ord, Victoria June. "Modelling microbial diversity in Antarctic soils." Thesis, University of Newcastle upon Tyne, 2014. http://hdl.handle.net/10443/2726.

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Microorganisms play a crucial role in supporting biodiversity, maintaining marine and terrestrial ecosystems at the crux of the nutrient cycle. They are the most diverse and abundant of all living creatures, yet little is understood about their distribution or their intimate relationship with the environment. Antarctic ecosystems are among the most simple on Earth; with basic trophic structuring and the absence of many taxonomic groups, they are also isolated geographically with small patchy areas of nutrient inputs. In this instance, Antarctica becomes a pristine laboratory to examine the eco
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Durbin, Alan Teske Andreas. "Microbial diversity of oligotrophic marine sediments." Chapel Hill, N.C. : University of North Carolina at Chapel Hill, 2009. http://dc.lib.unc.edu/u?/etd,2627.

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Thesis (M.S.)--University of North Carolina at Chapel Hill, 2009.<br>Title from electronic title page (viewed Oct. 5, 2009). "... in partial fulfillment of the requirements for the degree of Master of Science in the Department of Marine Sciences." Discipline: Marine Sciences; Department/School: Marine Sciences.
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Książki na temat "Microbial diversity"

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Ogunseitan, Oladele, ed. Microbial Diversity. Blackwell Science Ltd, 2004. http://dx.doi.org/10.1002/9780470750490.

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Ogunseitan, Oladele. Microbial Diversity. John Wiley & Sons, Ltd., 2007.

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Bull, Alan T., ed. Microbial Diversity and Bioprospecting. ASM Press, 2003. http://dx.doi.org/10.1128/9781555817770.

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Girisham, S., S. Ram Reddy, and M. A. Singara Charya. Microbial diversity: Exploration & bioprospecting. Edited by Kakatiya University. Scientific Publishers (India), 2012.

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Brown, James W. Principles of microbial diversity. ASM Press, 2014.

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Sati, S. C., and M. Belwal. Microbes: Diversity and biotechnology. Daya Pub. House, 2012.

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Sharma, Shiwani Guleria, Neeta Raj Sharma, and Mohit Sharma, eds. Microbial Diversity, Interventions and Scope. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-4099-8.

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Caliskan, Mahmut. Genetic diversity in microorganisms. InTech, 2012.

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Ogunseitan, Oladele. Microbial diversity: Form and function in prokaryotes. Blackwell Pub., 2005.

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Colwell, R. R., Usio Simidu, and Kouichi Ohwada, eds. Microbial Diversity in Time and Space. Springer US, 1996. http://dx.doi.org/10.1007/b102421.

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Części książek na temat "Microbial diversity"

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Das, Surajit, and Hirak Ranjan Dash. "Molecular Microbial Diversity." In Microbial Biotechnology- A Laboratory Manual for Bacterial Systems. Springer India, 2014. http://dx.doi.org/10.1007/978-81-322-2095-4_4.

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Griffiths, Bryan S., Karl Ritz, and Ronald E. Wheatley. "Relationship between Functional Diversity and Genetic Diversity in Complex Microbial Communities." In Microbial Communities. Springer Berlin Heidelberg, 1997. http://dx.doi.org/10.1007/978-3-642-60694-6_1.

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Rainey, Fred A., and Naomi Ward-Rainey. "Prokaryotic Diversity." In Journey to Diverse Microbial Worlds. Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-011-4269-4_3.

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Konstantinidis, Konstantinos, and James M. Tiedje. "Microbial Diversity and Genomics." In Microbial Functional Genomics. John Wiley & Sons, Inc., 2005. http://dx.doi.org/10.1002/0471647527.ch2.

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Rekadwad, Bhagwan Narayan. "Microbial Diversity and Ecosystems." In Microbe Hunting. CRC Press, 2024. http://dx.doi.org/10.1201/9781003492221-2.

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Okoń, Sylwia. "Variability and Diversity in the Microbial Genomes." In Microbial Genetics. CRC Press, 2024. http://dx.doi.org/10.1201/9781003328933-5.

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Milkman, Roger. "Horizontal Transfer, Genomic Diversity, and Genomic Differentiation." In Microbial Evolution. ASM Press, 2014. http://dx.doi.org/10.1128/9781555817749.ch19.

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Jangid, Aditi, and Tulika Prakash. "Microbial Genome Diversity and Microbial Genome Sequencing." In Microbial Genomics in Sustainable Agroecosystems. Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-13-8739-5_10.

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Jong, Shung-Chang. "Microbial germplasm." In Biotic Diversity and Germplasm Preservation, Global Imperatives. Springer Netherlands, 1989. http://dx.doi.org/10.1007/978-94-009-2333-1_12.

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Jeffries, Peter. "Microbial Symbioses with Plants." In Microbial Diversity and Bioprospecting. ASM Press, 2014. http://dx.doi.org/10.1128/9781555817770.ch20.

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Streszczenia konferencji na temat "Microbial diversity"

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Haile, Tesfaalem, Trevor Place, Danielle Kiesman, Jennifer Sargent, Tamer Crosby, and John Wolodko. "Assessment of Microbially Influenced Corrosion Threats Using Molecular Microbiological Methods." In CORROSION 2017. NACE International, 2017. https://doi.org/10.5006/c2017-09384.

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Abstract The presence of solids with nutrients that can support the growth of microbial communities may lead to microbially influenced corrosion (MIC) in carbon steel pipelines. Many factors affect MIC rates, for example, biofilms in pipeline sludges can produce corrosive chemicals that can attack metals, alter local acidity, and create differential aeration and galvanic cells. This paper examined the microbial diversity of sludges obtained from four (4) different locations of a crude oil transmission system. Bacterial activity reaction tests (BARTTM) and molecular microbiological methods (MMM
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Alabbas, Faisal M., Charles Williamson, Anthony Kakpovbia, John R. Spear, Brajendra Mishra, and David L. Olson. "Microbial Community Associated with Corrosion Products Collected from Sour Oil Crude and Seawater Injection Pipelines." In CORROSION 2013. NACE International, 2013. https://doi.org/10.5006/c2013-02248.

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Abstract Hydrocarbon transporting pipelines and seawater injection networks are subject to many different corrosion deterioration mechanisms, one of which is microbiologically influenced corrosion (MIC). MIC is caused by a wide range of microorganisms that naturally thrive in the oil reservoirs and associated secondary seawater injection systems. To gain insight into the impact of microbes on corrosion in oil and sea water injection pipelines, the microbial diversity of corrosion product samples collected from a sour oil pipeline and a seawater injection pipeline were evaluated. As cultivation
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Wang, Linna, Claudia C. Pierce, Dorothy Reynolds, and Elizabeth Summer. "DNA Based Diversity Analysis of Microorganisms in Industrial Cooling Towers." In CORROSION 2017. NACE International, 2017. https://doi.org/10.5006/c2017-09483.

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Abstract Effective microbial control in cooling systems is necessary to ensure system cleanliness and avoid fouling that degrades cooling system performance, promotes corrosion and favors growth of pathogens. However, controlling organisms optimally involves an understanding of the identity of the population of microbes in a system due to the varying susceptibilities of organisms to biocides. This is a challenging task with standard culturing techniques which only allow for a small fraction of the total population to be cultured and identified. In this study, 16s rDNA was employed to maximize
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Carpén, Leena, Pauliina Rajala, Mikko Vepsäläinen, Malin Bomberg, and Mari Raulio. "Microbial Diversity and Corrosion Behaviour of Carbon Steel and Stainless Steel after One-year Exposure in Alkaline Ground Water." In CORROSION 2014. NACE International, 2014. https://doi.org/10.5006/c2014-4035.

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Abstract Contaminated low-and intermediate level waste is produced during the operation and decommissioning of nuclear power plants. This waste contains pipes, valves, filters, insulators etc. The metallic waste is mostly composed of carbon and stainless steel. In Finland this metallic waste is planned to be disposed in concrete boxes into bedrock silos. The effects of microbiological activity on the corrosion of decommissioning waste are still unclear and needs to be studied further. A series of semi-field exposure studies was started in October 2011 at the disposal site. Preliminary results
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Grigoryan, Alexander. "Challenges in Microbial Monitoring of an Oil-water Separation Facility." In MECC 2023. AMPP, 2023. https://doi.org/10.5006/mecc2023-20123.

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Abstract Abundance and diversity of microorganisms, including H2S-producing and corrosive bacteria, in the produced water collected from different locations at a Central Arabian Gas-Oil Separation Plant (GOSP) were examined by culture-based and culture-independent methods. Conventional MPN techniques showed that abundance of general heterotrophic bacteria exceeded acceptable levels more frequently in water samples from High Pressure-Production Trap (HPPT) and Water-Oil Separator (WOSEP) than in water from Production Header (PH). MPN assay of corrosive sulfidogenic sulfate-reducing bacteria (SR
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von Rège, Henry, Wolfgang Sand, Sybille Bixer, Helmut Dieckmann, and Michael Renner. "Monitoring of Biofilm Development in Process Water." In CORROSION 2000. NACE International, 2000. https://doi.org/10.5006/c2000-00346.

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Abstract Biofilm monitoring on carbon and different stainless steel types was performed using a mobile mini-plant as bypass to an industrial water system in a 10 month experiment. Biofilms were analyzed for cell counts of MIC-relevant bacteria from the sulfur-/iron-/manganese-/nitrogen-cycle, microbial activity, and the content of corrosive elements (chloride, sulfur, manganese). Biofilms on carbon steel exhibited a higher microbial diversity, higher cell counts, and a higher microbial activity as on stainless steels. Chemoorganotrophic bacteria were the dominant group in the biofilm-biocoenos
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Machuca, Laura L., Stuart I. Bailey, Rolf Gubner, Elizabeth Watkin, and Anna H. Kaksonen. "Microbiologically Influenced Corrosion of High Resistance Alloys in Seawater." In CORROSION 2011. NACE International, 2011. https://doi.org/10.5006/c2011-11230.

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Abstract Microbiologically influenced corrosion (MIC) of construction alloys used for subsea applications was evaluated. Susceptibility to MIC of UNS S31603, UNS 31803, UNS S32750, UNS 31254, UNS N06625 and UNS N08825 was assessed by measuring the open circuit potential evolution in time, cyclic polarization tests, surface analysis and biofilm composition. Fresh-ground specimens were tested in seawater as well as after aging in aerated natural seawater at 30ºC for up to four weeks where natural marine biofilms were allowed to develop. Test controls consisted of experiments using filter-sterili
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Hernández, Juan F., Ken Wunch, Subhash Nair, and Sreenivas Km. "The Importance of Integrated Testing in Seawater Injection Systems: A Microbiological Audit Reveals Microbial Community Shifts and Biocide Efficacy." In CONFERENCE 2025. AMPP, 2025. https://doi.org/10.5006/c2025-00350.

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Abstract Oil and gas seawater injection facilities present complex microbiological environments where harmful microorganisms can proliferate, leading to issues such as biofouling, corrosion, and reservoir souring. This study presents a comprehensive microbiological audit of the largest seawater treatment facility in the Middle East for oil reservoir injection with a capacity of 14 million barrels per day (BPD}. The seawater is treated from the Arabian Gulf and transport across the giant Ghawar and Khurais fields for water injection facilities. During the study, an integrated approach was emplo
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Rajala, Pauliina, Malin Bomberg, Elina Huttunen-Saarivirta, and Leena Carpén. "Corrosion of Stainless Steels AISI 304 and AISI 316 Induced by Sulfate Reducing Bacteria in Anoxic Groundwater." In CORROSION 2017. NACE International, 2017. https://doi.org/10.5006/c2017-09359.

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Abstract A laboratory system for studying the microbiological corrosion of stainless steel decommissioning waste from nuclear power plant was designed and developed. Understanding microbially induced corrosion (MIC) in deep bedrock is important for evaluating the long-term safety of radioactive waste disposal. In anoxic water, the overall corrosion rate of steel is low. Microorganisms however, may accelerate several types of corrosion. The groundwater at the radioactive waste repository depth contains up to 105 microbial cells mL-1 with considerable diversity. MIC of stainless steels AISI 304
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Alabbas, Faisal M., Anthony E. Kakpovbia, John R. Spear, Brajendra Mishra, and David L. Olson. "Utilization of 454 Pyrosequencing of 16S rRNA for Biodiversity Investigations of Crude Oil Systems." In CORROSION 2014. NACE International, 2014. https://doi.org/10.5006/c2014-3827.

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Abstract Microbiologically influenced corrosion (MIC) is a major problem that impacts crude oil production, transportation and storage infrastructures. Indigenous microorganisms that naturally reside in oil reservoirs are able to induce localized changes in the aqueous environment and lead to catastrophic damages. The study herein applies molecular techniques to investigate the microbial communities associated with corrosion products collected from crude oil pipelines. Small subunit ribosomal rRNA gene pyrosequencing was used to identify microbial communities present in each system. The result
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Raporty organizacyjne na temat "Microbial diversity"

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Leadbetter, Jared. Investigations into the metabolic diversity of microorganisms as part of microbial diversity. Office of Scientific and Technical Information (OSTI), 2016. http://dx.doi.org/10.2172/1272220.

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Sobecky, Patricia A. Plasmid Diversity and Horizontal Transfer in Marine Sediment Microbial Communities. Defense Technical Information Center, 2002. http://dx.doi.org/10.21236/ada399348.

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Lu, Zhenmei, Zhili He, Victoria Parisi, et al. GeoChip-based Analysis of Groundwater Microbial Diversity in Norman Landfill. Office of Scientific and Technical Information (OSTI), 2010. http://dx.doi.org/10.2172/986222.

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Breznak, J., and M. Dworkin. Summer investigations into the metabolic diversity of the microbial world. Office of Scientific and Technical Information (OSTI), 1993. http://dx.doi.org/10.2172/6467144.

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Tabita, F. R. Summer Workshop: Molecular Basis, Physiology and Diversity of Microbial Adaptation. Office of Scientific and Technical Information (OSTI), 2002. http://dx.doi.org/10.2172/836588.

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James M. Tiedje, Jizhong Zhou, Anthony Palumbo, Nathaniel Ostrom, and Terence L. Marsh. Noncompetitive microbial diversity patterns in soils: their causes and implications for bioremediation. Office of Scientific and Technical Information (OSTI), 2007. http://dx.doi.org/10.2172/909524.

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Gonzalez, Logan, Christopher Baker, Stacey Doherty, and Robyn Barbato. Ecological modeling of microbial community composition under variable temperatures. Engineer Research and Development Center (U.S.), 2024. http://dx.doi.org/10.21079/11681/48184.

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Soil microorganisms interact with one another within soil pores and respond to external conditions such as temperature. Data on microbial community composition and potential function are commonly generated in studies of soils. However, these data do not provide direct insight into the drivers of community composition and can be difficult to interpret outside the context of ecological theory. In this study, we explore the effect of abiotic environmental variation on microbial species diversity. Using a modified version of the Lotka-Volterra Competition Model with temperature-dependent growth ra
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Harwood, Caroline S., and Alfred M. Spormann. Microbial Diversity: A Summer Course at the Marine Biological Laboratory, Woods Hole, MA. Defense Technical Information Center, 2004. http://dx.doi.org/10.21236/ada421999.

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Nierzwicki-Bauer, S. A. Microbial communities in subsurface environments: diversity, origin and evolution. Final project technical progress report. Office of Scientific and Technical Information (OSTI), 1999. http://dx.doi.org/10.2172/764617.

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Konisky, J. International Symposium on Topics in Microbial Diversity, Metabolism, and Physiology. Final report, May 22--23, 1992. Office of Scientific and Technical Information (OSTI), 1993. http://dx.doi.org/10.2172/10158099.

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