61. JGI - Microbial Ecology The microbial ecology Program (MEP) uses sequencingbased technologies to To date, molecular microbial ecology has relied heavily on small-subunit http://www.jgi.doe.gov/whoweare/microbialecology.html

HOME ABOUT US CSP SEQUENCING ... Internal About Us Who We Are Mission JGI Partners The Facility ... Information for Collaborators Microbial Ecology Program The Microbial Ecology Program (MEP) uses sequencing-based technologies to understand microbial communities via a combination of computational and experimental methods. To date, molecular microbial ecology has relied heavily on small-subunit ribosomal RNA sequences for culture-independent characterization of microbial communities. We continue this proud tradition in the group, and have established a high-throughput pipeline for analysis of 16S rRNA PCR clone libraries and use fluorescence in-situ hybridization (FISH) to visualize phylogenetic groups under the microscope. A natural progression of 16S rRNA-based culture-independent methods is to clone and sequence genomic DNA extracted directly from environmental samples (metagenomics) in order to obtain an overview of community function and population dynamics. Since environmental shotgun sequencing is in its infancy, we are exploring ways to analyze and visualize metagenomic data together with the Microbial Genome Analysis Program . In particular, methods are being developed to

62. Marine Microbial Ecology OCB4990 Marine microbial ecology and OCB6990 Advanced Marine microbial ecology (for graduate students) Diversity, ecology, and physiology of marine http://www.jochemnet.de/fiu/MarMicro/MarMicro.html

Navigation FIU Home FIU Marine Biology Home Dept. Biology Home Frank Jochem Home ... E-Mail Marine Microbial Ecology FIU course no. OCB 4990 Advanced Marine Microbial Ecology FIU course no. OCB 6990 Fall 2003 by Frank J. Jochem Assistant Professor, Plankton Biology last updated: August 20, 2003 keep returning for most recent information Choose to read (click on subject): General course information Course material and lecture notes Syllabus Time table of lectures Examination and grading information ... Information on FIU Biscayne Bay Campus General Course Information OCB4990 - Marine Microbial Ecology (undergrad.) - Section 51 - Credits: 3 OCB6990 - Advanced Marine Microbial Ecology (grad.) - Section 51 - Credits: 3 OCB4990 "Marine Microbial Ecology" and OCB6990 "Advanced Marine Microbial Ecology (for graduate students): Diversity, ecology, and physiology of marine viruses, bacteria and protozoa, their role in marine microbial food webs and the biogeochemical cycling of carbon and nutrients, and the significance of microbial food webs for marine productivity. Prerequisites for OCB3993: BSC1010 General Bio I, BSC1011 General Bio II, OCB3043 Marine Biology and Oceanography; Prerequisites for OCB6993: Graduate student status, OCB3043 Marine Biology and Oceanography or equivalent pre-education. Time and Location: Tuesday, Thursday, 14:00 - 15:15. Class room: AC-1 room 228 at Biscayne Bay Campus

63. NRG Microbial Ecology Group microbial ecology of natural and engineered environments microbial ecology of oil spill bioremediation Wilfred Röling microbial ecology of oil spill http://nrg.ncl.ac.uk/research/resareas/microbial.html

research Microbial ecology group Microbial ecology of natural and engineered environments Centre for Molecular Ecology main research interests further information Ecology of giant sulfur bacteria Ecology of ammonia-oxidizing bacteria Microbial ecology of wastewater treatment systems Microbial ecology of oil spill bioremediation ... Application of microbial genomics to environmental microbiology Contact: Ian Head staff collaboration funding Ian Head Group leader Neil Gray Ecology of giant sulfur bacteria NERC Soil Biodiversity Programme Ian Miskin Microbial ecology of wastewater treatment systems Microbial ecology of oil spill bioremediation Microbial ecology of oil spill bioremediation Biodegradation of oil in petroleum reservoirs Arlene Rowan Ecology of ammonia-oxidizing bacteria Microbial ecology of wastewater treatment systems Angela Brown Application of microbial genomics to environmental microbiology Clare Linacre Ecology of ammonia-oxidizing bacteria Tom Curtis Department of Civil Engineering, Newcastle University

64. LabMET // The Laboratory Of Microbial Ecology And Technology // Ghent, Belgium. The Laboratory of microbial ecology and Technology (LabMET) is specialized in the domain of microbial ecology. It offers expertise about processes using http://labmet.ugent.be/

LabMET // the Laboratory of Microbial Ecology and Technology // Ghent University, Belgium. home fields of research students publications ... contact search for: The Laboratory of Microbial Ecology and Technology The LabMET team The Laboratory of Microbial Ecology and Technology (LabMET) is specialized in the domain of microbial ecology. It offers expertise about processes using mixed microbial communities. LabMET deals with biotechnology in the field of environmental, food and chemical engineering. The research group comprises a staff of about 35 academics and is part of the Department of Biochemical and Microbial Technology of the Ghent University (Belgium). You are visitor number

65. Molecular And Microbial Ecology-main The Department of Molecular and microbial ecology. The Division of Microbial and Molecular Ecology studies the role that microorganisms play in nature and http://www.ls.huji.ac.il/~MicEco/home.htm

66. Baltic Sea Portal The 9th Symposium on Aquatic microbial ecology, SAME9, will take place on August 21-26 2005 in Helsinki, Finland. The SAME-9 will be a joint symposium of http://www.fimr.fi/en/itamerikanta/same9.html

Suomeksi l l Eesti keeles News archive l Photogallery l Feedback l Links l FAQ l Portal info Frontpage Algae information Information ... Same 9 The 9th Symposium on Aquatic Microbial Ecology August 21-26 2005 in Helsinki The 9th Symposium on Aquatic Microbial Ecology, SAME-9 , took place on August 21-26 2005 in Helsinki, Finland. The SAME-9 was a joint symposium of the previous European Marine Microbiology Symposium (EMMS) and the International Workshop on the Measurement of Microbial Activities in the Cycling of Matter in Aquatic Environments. The SAME-9 brought together scientists working on the ecology, physiology and genetics of aquatic microorganisms, and their role in biogeochemical cycles and environmental processes. The conference was held in Helsinki , the capital of Finland , in the University of Helsinki City centre campus ( main building, Fabianinkatu 33 ). Helsinki is situated in the southernmost part of Finland, on the northern coast of the Gulf of Finland in the Baltic Sea. Symposium programme and abstract book Symposium photos Best poster by a student award Contact Information ... Links www.same9.fi

67. CSIRO Land And Water - Future Farming Systems - Functional Microbial Ecology Res Functional microbial ecology research group. Group Leader Gupta Vadakattu. Staff Elizabeth Drew, Marcus Hicks, Oliver Knox (Narrabri), Marta Kasper, http://www.clw.csiro.au/research/farming/microbial/

Land and Water SEARCH Advanced Search Current Issues News, Events and Jobs About Us ... Links Research Directorates Site Map Feedback Contacts Home Future Farming Systems for Australian Landscapes Functional Microbial Ecology research group Group Leader: Gupta Vadakattu Staff: Elizabeth Drew , Marcus Hicks, Oliver Knox (Narrabri), Marta Kasper, Stasia Kroker, Lynne Macdonald , Alicia Navidad, David Roget John Coppi, Bill Davoren The Management of Soil Microbial Function and Diversity in Production Agricultural Systems We now realise many of the factors limiting crop productivity and ecosystem health relate to the biological interactions between plant roots, soil microbes and the physical and chemical nature of the soil. A better understanding of soil biology is the next frontier in increasing crop yields, enhancing soil structure and developing more sustainable farming systems. In any ecosystem, the microbial functions are a product of the diversity, population level and activity of organisms involved in specific biological processes or functions.

68. Institution Authentication Form OhioLINK access to microbial ecology , published by SpringerVerlag. This journal is available only to students, staff, and faculty of OhioLINK institutions http://rave.ohiolink.edu/ejournals/issn/0095-3628

Catalog All Databases Express Links Site Search ... Help Institution Selection Form OhioLINK Off-Campus Authentication For Access to Services Please select your institution: Antioch College Ashland University Athenaeum of Ohio Baldwin-Wallace College Belmont Technical College Bluffton University Bowling Green State University Capital University Case Western Reserve University Cedarville University Central Ohio Technical College Central State University Cincinnati Bible College and Seminary Cincinnati State Technical and Community College Clark State Community College Cleveland Clinic Foundation Cleveland State University College of Mount Saint Joseph College of Wooster Columbus College of Art and Design Columbus State Community College Cuyahoga Community College Defiance College Denison University Edison Community College Franciscan University of Steubenville Franklin University Heidelberg College Hiram College Hocking College Jefferson Community College John Carroll University Kent State University Kenyon College Lakeland Community College Lorain County Community College Lourdes College Malone College Marion Technical College Marietta College Medical College of Ohio Mercy College Miami University Mount Carmel College of Nursing Mount Union College Mount Vernon Nazarene University Muskingum College Myers University North Central State College Northeastern Ohio Universities College of Medicine Northwest State Community College Notre Dame College of Ohio Oberlin College Ohio Dominican University Ohio Northern University Ohio State University

69. Connect From Home | Library | University Of Waterloo microbial ecology Working GroupThe microbial ecology Working Group facilitates interactions between ESI participants whose research is involved directly or indirectly with the microbial http://testtube.uwaterloo.ca/Go/index.cfm?resource=7150

70. Search.epnet.com/direct.asp?db=aph Jid=%22BB0% Welcome to the microbial ecology / Biogeochemistry Research Lab!the Microbial Mats Feature at the NASA Astrobiology Institute web site. the Mysteries of Microbes Fascinating Fieldwork Event Page at the Quest web site http://search.epnet.com/direct.asp?db=aph&jid=BB0&scope=site

71. Coral Microbial Ecology Coral microbial ecology is the study of the relationship of coralassociated microorganisms to each other, the coral host, and to their environment. http://coastal.er.usgs.gov/coral-microbes/

USGS Home Contact USGS Search USGS Center for Coastal and Watershed Studies Coral Microbial Ecology: Introduction Coral Microbial Ecology: Introduction USGS Studies Conclusion References Figure 1. The molecular "Tree of Life" consists of three domains derived from 16S rDNA genetic data. 16S rDNA is the gene that codes for ribosomal RNA , a key part of cellular reproduction. Eukarya includes plants, animals, and fungi. [ larger version Fig. 1 ). Archaea are prokaryotes (cells with no nucleus) like bacteria but are genetically and biochemically more similar to eukaryotes (organisms with cells that contain a true nucleus). Where are these microbes? Coral-associated microorganisms are found in the mucus, tissue, and skeleton of corals. Corals secrete a surface layer of mucus, which functions to keep the coral surface clean of sediment and to capture prey. Each species of coral has mucus that is biochemically unique. When shed, this mucus provides a major nutrient source for the reef environment (Wild, 2004). The tissue of the coral animal is where the symbiotic algae, known as zooxanthellae, live. Endolithic microorganisms (bacteria, fungi, or algae that bore into the coral's calcium carbonate skeleton) are a potential source of nutrients to the overlying tissues. The field of coral microbial ecology is relatively new. What do we know so far?

72. Microbial Ecology - Staff Section 2 microbial ecology. Staff. Prof. BJ Finlay (Section Head). Professor RW Pickup (bacteriology). Dr GF Esteban (protozoology) http://windermere.ceh.ac.uk/ceh_ife/microbecol/microstaff.html

Staff Publications Culture Collection of Algae and Protozoa Fritsch Collection of Algal Illustrations Section 2 - Microbial Ecology Staff Prof. B.J. Finlay (Section Head) Professor R.W. Pickup (bacteriology) Dr G.F. Esteban (protozoology) Mr K.J. Clarke (electron microscopy) Dr G.H. Hall (bacteriology) Dr G. Rhodes (bacteriology) Dr J.G. Day (Curator, Culture Collection of Algae and Protozoa ( CCAP Dr S. Brown CCAP Ms C. Butterwick CCAP Ms H.E.H. Mallinson (bacteriology) Ms A. Cook CCAP Ms J. Tompkins CCAP Mrs G. Devlin Fritsch Collection of Illustrations of Freshwater Algae Mrs E. Monaghan Fritsch Collection of Illustrations of Freshwater Algae Ms K.J. Harper (student) Miss L. Fear FBA student) Miss L. Faulkner (voluntary worker)

73. SciSeek Pay Per Click Search Engine | The Science Of Search.: Microbial Ecology The Digital Learning Center for microbial ecology is an educational resource LTER microbial ecology microbial ecology Reports LTER microbial ecology http://www.sciseek.com/search/search.php?Terms=microbial ecology

74. ScienceDaily Books : Microbial Ecology Of The Oceans Buy microbial ecology of the Oceans Books cheap. microbial ecology is now recognized to be fundamental for understanding the natural world around us and http://www.sciencedaily.com/cgi-bin/apf4/amazon_products_feed.cgi?Operation=Item

75. ScienceDaily -- Browse Topics: Science/Biology/Ecology/Microbial_Ecology Search Handbook of Methods in Aquatic microbial ecology Search Microorganisms in Foods 6 microbial ecology of Food Commodities http://www.sciencedaily.com/directory/Science/Biology/Ecology/Microbial_Ecology

@import "/styles/navbar.css"; @import "/styles/tabStyles.css"; Set home page Bookmark site Add search Latest News ... Email to friend Text Size A A A Front Page ... Ecology : Microbial Ecology Subtopics Aquatic Microbiology Environmental Microbiology Exobiology Molecular Evolution ... Mycorrhizae See Also: Science: Biology: Microbiology Search Google: Microbial Ecology News Books Links ... Water Channel Protein Implicated In Relative Of Multiple Sclerosis (September 23, 2005) full story Coming To The Arctic Near You: The Longer, Hotter Summer (September 23, 2005) full story Researchers Predict Infinite Genomes (September 23, 2005) full story Squeezing Out Dune Plants: Coastal Erosion, Global Sea-level Rise, And The Loss Of Sand Dune Plant Habitats (September 23, 2005) full story Acid Water In East Java Threatens Biodiversity And Local Welfare (September 21, 2005) full story Coral Reef Fish Larvae Settle Close To Home (September 19, 2005) full story Morphology Of Fossil Salamanders Reflects Climate Change (September 19, 2005) full story Bitter-tasting Fescue Takes Over More Quickly With Help Of Plant-eating Bugs, Animals (September 12, 2005) PNAS reveals how some non-native fescue grass gets a leg up over competing native plants: it's passed over by plant-eating insects and animals after a symbiotic fungus laces its leaves with toxic alkaloids. In a 54-month study, scientists showed that fungus-infected 'tall fescue' tended to choke out uninfected fescue and native plant species. Tall fescue took over test plots much more quickly when herbivores weren't discouraged from foraging.

76. CEH Oxford 1 Column Template Molecular microbial ecology (Professor Mark Bailey) The section includes the Molecular microbial ecology Group (MJ Bailey), the Microbial Diversity http://www.nerc-oxford.ac.uk/cehoxford/groups/mmecology/

Molecular Microbial Ecology (Professor Mark Bailey) Section Head: Dr Andrew Whiteley Group Leaders Dr Tracey Timms-Wilson; Plant microbe interactions and GMMs Dr Sarah Turner; Evolution and genetics of the horizontal gene pool The development and application of molecular genetics to study microbial community dynamics, habitat regulated gene expression, the functional activity of individual cells and the ecological relevance of the horizontal gene pool. Key areas include the study of the fate and impact of genetically modified bacteria, the population genetics of mobile genetic elements and the role of plasmids in host adaptation to the niche, the identification of ecologically significant genes and the exploitation of natural isolates. Such exploitation includes the application of inocula to study natural ecological processes and ecosystem function necessary for the development of effective biological control agents of plant pathogens, practical microbial biosensors and solutions for in situ bioremediation. Investigations of the fundamental and applied aspects of microbial ecology are co-ordinated under the Molecular Microbial Ecology Section.

77. Microbial Ecology soil physical properties; soil chemical properties; microbial ecology; forest fires; boreal forests;. TOP email http//agrifor.ac.uk/mail?handle= or see http://agrifor.ac.uk/browse/cabi/8cec315ce8d4da096cd4498880a079f9.html

low graphics microbial ecology broader: ecology other: microorganisms Soil microbes in boreal forest humus after fire soil physical properties soil chemical properties ... boreal forests Last modified: 23 Sep 2005

78. Center For Marine Microbial Ecology & Diversity - CMMED The Center for Marine microbial ecology Diversity (CMMED or “sea medicines”) is enhancing research at the University of Hawai‘i and improving the economy http://www.cmmed.hawaii.edu/

The facilitating sponsored research activities between UH faculty and biotech companies (e.g., Hawaii Biotech, Diversa, Ocean Nutrition Canada, Cyanotech, Kuehnle AgroSystems, and the Marine Biotechnology Institute of Japan), maintaining shared-use analytical and culture collection facilities for drug discovery, and providing administrative support for large, interdisciplinary research projects supported by governmental agencies (e.g. NSF, NOAA and NIH) and private industry. APRIL 3, 2005 Cyanobacteria linked to neurological disease See the press release (April 1, 2005 - Word Doc) See the Honolulu Star Bulletin Article (April 5, 2005) MAY 1, 2005 Renewable Bio-solar Hydrogen Production from Robust Oxygenic Phototrophs with co-investigators Professors Donald A. Bryant, G. Charles Dismukes, Edward I. Stiefel, Matthew Posewitz, Eric Hegg, and Robert Bidigare. This study is supported by the US Air Force Office of Scientific Research initiative: "Water Based Photobiological Production of Hydrogen Fuel". For more information, click here (MS Word doc) We recently joined forces with various units on campus ( Department of Oceanography John A. Burns School of Medicine

79. General Microbiology/Ecology: By Microbes.info microbial ecology resources by microbes.info a links and information portal for microorganisms, bacteria, microbes and viruses. http://www.microbes.info/resources/General_Microbiology/Ecology/

Resources General Microbiology : Ecology Categories: Long Term Ecological Research Observatories@ Links: Digital Learning Center for Microbial Ecology The goal of the DLC-ME and the Microbe Zoo is to help students from 7 to 107 to learn about microbial ecology, the study of microbes in the environment. http://commtechlab.msu.edu/sites/dlc-me/ Gutbugs Carrying information on intestinal bacteriology, bacterial influences on gut health, probiotics, antibiotics, pathogenicity and anything related to bacteria which inhabit the gut. http://www.gutbugs.dabsol.co.uk/ IMPACT Interactions Between Microbial Inoculants and Resident Populations in the Rhizosphere of Agronomically Important Crops in Typical Soils. http://www.ucc.ie/impact/ LTER Microbial Observatories Long-Term Ecological Research (LTER) programs concerned with microorganisms at a wide variety of sites around the world. http://www.lternet.edu/technology/microbial_ecology/ Microbial Ecology Group - University of Vienna Department of Microbial Ecology, Institute of Ecology and Conservation Biology, University of Vienna, Austria. http://www.microbial-ecology.net/

80. Microbial Ecology And Environmental Microbiology microbial ecology of Nitrogen Cycling in the Oxygen Minimum Zone of the Arabian Sea Investigation of denitrification rates and chemical factors that may http://geoweb.princeton.edu/research/ecomicrobio/ecomicrobio.html

The Ward lab at Princeton University does research on microbial ecology, biological oceanography, and biogeochemistry. We're interested in most aspects of the nitrogen cycle in the ocean and other aquatic environments. Our current focus is on linking functional diversity in microbial pathways to ecosystem function, as in the following examples: What is the relationship between the immense diversity in functional genes in the nitrogen cycle (such as nirS (nitrite reductase) and amoA (ammonia monooxygenase)) and the rate of denitrification or nitrification in Chesapeake Bay? Which kinds of eukaryotic phytoplankton are responsible for nitrate assimilation under variable conditions in the surface ocean? What is the composition of the denitrifying consortium in the permanently ice covered lakes in the Taylor Valley of Antarctica and why are some of the lakes denitrification-challenged? Are trace metal availabilities and speciation important in controlling the rates of denitrification and the composition of microbial communities? To what extent is diversity in functional genes linked to variation in isotope signatures of dissolved inorganic nitrogen compounds in seawater?

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