61. Microbial Ecology / Ökologie Der Mikroorganismen / TU Berlin Translate this page http://www.tu-berlin.de/fb6/microbial_ecology/

62. Microbial Ecology / Ökologie Der Mikroorganismen / TU Berlin / Szewzyk microbial ecology Group, Institute of Environmental Technology, Technical University Berlin, Germany, Prof. Dr. rer. nat. Ulrich Szewzyk. http://www.tu-berlin.de/fb6/microbial_ecology/index_e.html

Welcome to the Environmental Microbiology Group at the Institute of Environmental Technology of the Technical University Berlin Prof. Dr. rer. nat. Ulrich Szewzyk e-mail: Ulrich.Szewzyk@tu-berlin.de General information about the Environmental Microbiology Group (German) Staff index The current research projects Teaching (German) Genetics Publications Cooperations Available positions (German) Please click to search our pages for keywords or staff members. Postal adress: FG Umweltmikrobiologie Sekr. OE 5, Franklinstrasse 29, D-10587 Berlin Tel.: +49 30 314 73460 Fax: +49 30 314 73 673 TU Berlin visitors since 12/20/2002

63. Astrobiology Objective 6: Microbial Ecology Question How Does Life Begin and Develop? microbial ecology. Objective 6 Define how ecophysiological processes structure microbial http://astrobiology.arc.nasa.gov/roadmap/objectives/o6_microbiology_ecology.html

Objectives How Does Life Begin and Develop? Objective 1 Sources of 0rganics on Earth Objective 2 Origin of Life's Cellular Components ... Microbial Ecology Does Life Exist Elsewhere in the Universe? Objective 7 The Extremes of Life Objective 8 Past and Present Life on Mars ... Extrasolar Biomarkers What is Life's Future on Earth and Beyond? Objective 14 Ecosystem Response to Rapid Environmental Change Objective 15 Earth's Future Habitability ... Planetary Protection Question: How Does Life Begin and Develop? Microbial Ecology Objective 6: Define how ecophysiological processes structure microbial communities, influence their adaptation and evolution, and affect their detection on other planets. We must expand studies of microbial ecosystems because the diversification, evolution, and survival of the early biosphere depended upon the efficient coordination of resources and processes by diverse microbial populations. Interdisciplinary studies of microbial communities are required to identify the genetic and environmental factors that influenced the spread of biological diversity and its impact on biospheric change. For example, we must define and quantify the relationship between environmental heterogeneity and microbial diversity and its bearing on evolution. We must understand how organisms affect each other, and how ecosystems modulate the environment through the processes of chemistry and the changing composition of the oceans and atmosphere due to natural geophysical processes and biology.

64. Marine Microbial Ecology Marine microbial ecology FIU course no. OCB 4990. Advanced Marine microbial ecology FIU course no. OCB 6990. Fall 2003 by. 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

65. CEH Oxford 1 Column Template Molecular microbial ecology (Professor Mark Bailey). Informational Popup, Section Head Dr Andrew Whiteley. Research Interests. microbial ecology. 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.

66. Home > Microbiology & Immunology > Microbial Ecology Home Microbiology Immunology microbial ecology. microbial ecology. BSD biodegradative strain database. Home page of the Biodegradative http://bioresearch.ac.uk/nb/90e64bc2f88885cbbd96000737c77e0a.html

low graphics Home Microbial ecology BSD : biodegradative strain database Home page of the Biodegradative Strain Database (BSD), developed at the Center for Microbial Ecology at Michigan State University in collaboration with the University of Minnesota Biocatalysis/Biodegradation Database and the Ribosomal Database Project II. The BSD aims to "consolidate strain-level microbial data" in order to "establish the phylogenetic distribution of described, biodegrading microorganisms with the goals of identifying patterns of microbial degradative processes within a phylogenetic context and of gaining insights into the evolution of those processes." The data can be accessed via either browsable data lists (strain lists, substrate (chemical) list, reference list) or by browsing The Phylogenetic Tree Interface. Alternatively, a search facility is also available. Made available on the Web by the Center for Microbial Ecology at Michigan State University. Industrial Microbiology Databases, Factual Database [Publication Type] Biodegradation ... Environmental microbiology The Environmental Microbiology journal, published by Blackwell Science, focuses on microbial communities, their interactions, responses to environmental signals and stress factors, microbial community genetics and evolutionary processes as well as new technological developments in microbial ecology. The site contains information regarding subscriptions, instructions to authors, tables of contents as well as referees reports and links to other relevant sites. Abstracts are also freely available from their online site, with full-text available to subscribers only.

67. Microbial Ecology Working Group microbial ecology Working Group. The microbial ecology Working Group facilitates interactions between ESI participants whose research http://www.geo.utexas.edu/esi/research/micro.html

@import url(../utTest.css); Microbial Ecology Working Group The Microbial Ecology Working Group facilitates interactions between ESI participants whose research is involved directly or indirectly with the microbial biosphere, the biosphere on which all more complex life forms depend. Present research interests of participants include geomicrobiology of aquifers and cave systems, nanobiology, soil food web biology, waste management systems, marine biology, UV damage in microbial populations, bioremediation and general microbial ecology. Outreach contacts via the list serve presently include the Texas Commission on Environmental Quality, State Estuarine Waters program, Texas Parks and Wildlife and the Texas Land Office. Members: Don Blankenship blank@utig.ig.utexas.edu Institute for Geophysics Ed Buskey buskey@utmsi.utexas.edu Marine Science Paul Gottlieb gottlieb@uts.cc.utexas.edu ICMB Robert Folk rlfolk@mail.utexas.edu Geological Sciences Wayne Gardner gardner@utmsi.utexas.edu

68. Microbial Ecology Group, University Of Zurich Home page of the microbial ecology group at the University of Zuerich (Switzerland). Education, Training, Collaborators, Special Events, Research, http://www.microeco.unizh.ch/

Education, Training Collaborators Special Events Research Diversity of Microorganisms (BioIII) Biochemistry of Prokaryotes Microbial Ecology Evolution of Microorganisms ... Biology and Environment (ETH) Geomicrobiology Seminar Research Colloquium Special Seminars Distance Learning Access to OLAT Projects Microbiology Engineering Biology Alpine Ecology Simulation/Modelling Patricia Colberg Kurt Hanselmann Thomas Horath Janine Kessi ... Munti Yuhana Group News Discussion Forum Field Trips/Excursions Marine Microbiology Geobiology Course ... Mountain Research Station Research Agencies Swiss NSF Swiss Acad. of Sciences Swiss Alpine Studies European Research Research Societies Swiss Soc Microbiology Am Soc Microbiology UK Soc Gen Microbiology VAAM Microbiol. German Food Hygiene Swiss Applied Microbiology AIBS Sigma-Xi Swiss Sigma-Xi Tools Former Collaborators Special Topics Thermodyn Methods Supply Companies Laws and Regulations ... Guests Microbiology Careers World Health and Epidemics Avian flu 2004 High Mountain Research Meromictic Lago Cadagno Lake Zürich Microbiology Iron Cycle Toxic Cyanobacteria Biofilms Microbial Evolution Water of the Alps Astrobiology Microbial Diversity Physiology/Biochemistry Microbial Ecology Prokaryote Genetics Geomicrobiology Environmental Microbiology Literature Searches Libraries

69. Microbial Ecology microbial ecology. Lecturer, Prof. Dr. ir. Jean Swings. Objectives. Although microorganisms are invisible for humans, they paly a key role in ecosystems. http://lmg.ugent.be/laboweb/Courses_microbial_ecology.htm

Microbiology part I Microbiology part II Microbiology part III Environmental biotechnology ... Molecular taxonomy [ Microbial ecology ] Fermentation Bacterial physiology Microbial ecology Lecturer Prof. Dr. ir. Jean Swings Objectives Although microorganisms are invisible for humans, they paly a key role in ecosystems. During this course, interactions between microorganisms, plants and animals and their functions in different ecosystems are highlighted. Contents Variable Course Material English copies

70. Ingenta: All Issues -- Microbial Ecology In Health And Disease user name. password. remember me. enter. Athens click here to login via Athens. Biology/Life Sciences Microbiology, microbial ecology in Health and Disease, http://www.ingenta.com/journals/browse/tandf/smic

guest need help? online articles fax/ariel articles user name password remember me Athens click here to login via Athens Biology/Life Sciences Microbiology Microbial Ecology in Health and Disease ISSN 0891-060X in our archives: Volume 10 (1998) through Volume 16 (2004) Publisher: Taylor and Francis Ltd see publisher's website see journal home page editorial board LATEST NEXT PREVIOUS EARLIEST Volume 16, Issue 1, April 2004 Volume 15, Issue 4, February 2004 Volume 15, Issues 2-3, Numbers 2-3/November 2003 LATEST NEXT PREVIOUS EARLIEST Publisher: Taylor and Francis Ltd terms and conditions

71. CPB: Microbial Ecology CPB Logo and back to homepage. microbial ecology. microbial ecology is a new theme for the CPB as part of our third (current) fiveyear programme. http://www.cpb.bio.ic.ac.uk/microbial/microb.html

M ICROBIAL E COLOGY Microbial ecology is a new theme for the CPB as part of our third (current) five-year programme. Microbial ecology means different things to different research traditions and what we hope to do might be called microbial population biology: the application of population ecology and population genetics to problems involving micro-organisms. The web pages devoted to this topic will increase as the different projects get going and on this page we summarise the main activities that have started, or will do so in the near future. (ME1) Population and genetic structure of bacteria/plasmid systems We have established a collaboration with Professor Mark Bailey's group at the Centre for Ecology and Hydrology, Oxford (the institute formally know as IVEM) who have for many years studied the biology of plant-associated Pseudomonas bacteria. Our main links are with Mark, Dr Andy Lilley and Dr Ian Thompson. We have recently completed a DETR-funded project that involved releasing manipulated Pseudomonas in the Ecotron facility. The aim of the last experiment was to compare gene flow when a neutral marker was placed in different locations in a bacterial genome (chromosome, plasmid, chromosome in the presence of a phage). The results of this experiment are currently submitted for publication.

72. ADVANCES IN MICROBIAL ECOLOGY|KLUWER Academic Publishers Bookseries » ADVANCES IN microbial ecology. ADVANCES IN microbial ecology. Add to cart. Volumes published in ADVANCES IN microbial ecology. http://www.wkap.nl/prod/s/AMIE

Title Authors Affiliation ISBN ISSN advanced search search tips Bookseries ADVANCES IN MICROBIAL ECOLOGY ADVANCES IN MICROBIAL ECOLOGY Add to cart Volumes published in ADVANCES IN MICROBIAL ECOLOGY Volume 16 Advances in Microbial Ecology, Volume 16 Bernhard Schink Hardbound, ISBN 0-306-46175-7, June 2000 Price: 163.50 EUR / 180.00 USD / 113.00 GBP Add to cart Volume 15 Advances in Microbial Ecology, Volume 15 J. Gwynfryn Jones Hardbound, ISBN 0-306-45559-5, September 1997 Price: 177.50 EUR / 195.00 USD / 122.00 GBP Add to cart Volume 14 Advances in Microbial Ecology, Volume 14 J. Gwynfryn Jones Hardbound, ISBN 0-306-45057-7, January 1996 Out of print Volume 13 Advances in Microbial Ecology, Volume 13 J. Gwynfryn Jones Hardbound, ISBN 0-306-44556-5, December 1993 Price: 204.00 EUR / 224.00 USD / 141.00 GBP Add to cart Volume 12 Advances in Microbial Ecology, Volume 12 K.C. Marshall Hardbound, ISBN 0-306-44266-3, December 1992 Out of print Volume 11 Advances in Microbial Ecology, Volume 11 K.C. Marshall Hardbound, ISBN 0-306-43340-0, February 1990 Out of print Volume 10 Advances in Microbial Ecology, Volume 10

73. Microbiology Microbial Ecology microbial ecology of the Oceans An excellent, wellintegrated book that ranges from marine viruses to filamentous cyanophyceans and treats the processes http://facultyofbiology.com/Microbiology_Microbial_Ecology.html

STUDENT BOOKS ONLINE Faculty Of Biology Student Books Online Back To Biology Search Featured Universities ... Renato Dulbecco Looking for more books? History Boats Claire Acher Ilkka Hanski Jeffrey Zeldman ... Michael Sewell Links For Students Lesson Tutor Shopping Links Shopping Directory Digital Cameras Big Shoes Consumer Electronics ... Manual of Environmental Microbiology One word describes this book - wow! This book is a great source of information for everybody that is seriously interested in environmental microbiology. The wealth of information given in this book is divided into 98 "short stories", most of them on average 10 pages long, each written by a different scientist. Even though the book is presented in a very scientific manner, it reads surprisingly easy, although the reader should have some knowledge of microbiology and biochemistry. This is not ... more... Written by Christon J. Hurst Ronald L. Crawford Guy R. Knudsen Michael J. McInerney ... Linda D. Stetzenbach Published by Amer Society for Microbiology (January 2002) ISBN 155581199X Price $129.95

74. Microbial Ecology microbial ecology. microbial ecology is the study of the function of microorganisms in the environment. Molecular microbial ecology. http://www.eastman.ucl.ac.uk/~microb/mol ecol.html

Microbial Ecology Microbial ecology is the study of the function of microorganisms in the environment. Our research is oriented towards understanding the role of microorganisms in a variety of oral diseases using: Molecular techniques Community Level Physiology Profiling In addition we are using a range of techniques to study bacterial quorum sensing in the oral cavity. Molecular Microbial Ecology The mechanisms involved in progression of this dynamic polymicrobial infection and its association with the disease state have not been elucidated. Cultivation studies fail to account for non-cultivable bacteria, which may constitute up to 50% of the oral flora. Recent developments in molecular techniques and phylogentics have redefined the the tree of life and have shown the prokaryotes to be far more diverse the previously suspected. These same tehcniques have allowed the characterization of the mixed oral microflora with a far greater resolution than previously achieved with the additional advantage of allowing characterisation of the non-culturable flora present. T hese techniques utilize the sequence information contained within the 16S ribosomal RNA molecule. These molecules are essential for the survival of all organisms and are highly conserved.

75. Application Of Molecular Methods In Microbial Ecology Application of molecular methods in microbial ecology to understand the natural attenuation of chlorinated solvents USGS Toxics Program. http://toxics.usgs.gov/sites/molecular_methods.html

Investigations Application of Molecular Methods in Microbial Ecology to Understand the Natural Attenuation of Chlorinated Solvents Degradation of chlorinated solvents and other contaminants in the subsurface requires that the proper kinds of bacteria are present. Traditional methods used to evaluate the kinds of bacteria in environmental samples were based on growing these bacteria in the laboratory. This is time-consuming and many bacteria cannot be readily grown. New methods in microbiology, based on analyses of DNA, allow microbiologists to study and interpret the kinds of bacteria present in the environment without growing them. These "molecular methods" can provide new information to those involved in understanding, modeling, and remediating contaminated sites. The USGS has applied these new DNA-based methods in order to understand how the variation with location and time in bacterial community structure affects the natural biodegradation of fuels and chlorinated solvents. Bacterial DNA extracted from subsurface samples provides information on the identities of the bacteria present and their ability to degrade contaminants. At the former Wurtsmith Air Force Base, Michigan, analyses based on DNA sequences have shown that the kinds of bacteria vary with depth in contaminated ground water. The variation in the kinds of bacteria can help to explain the variation in contaminants with depth and also over time. The variation in bacteria can explain why certain degradation processes occur while others do not.

76. Microbial Ecology - Addison-Wesley And Benjamin Cummings Catalog Atlas, University of Louisville Richard Bartha, Rutgers University © 1998 / 08053-0655-2 / Benjamin Cummings. microbial ecology. http://www.aw-bc.com/catalog/academic/course/0,1143,70100,00.html

Select a Discipline Chemistry Computer Science Economics Finance Life Science Mathematics Physics/Astronomy Statistics by Keyword by Author by Title by ISBN Advanced Search Sort by: Author Title Microbial Ecology: Fundamentals and Applications, 4/E Ronald M. Atlas, University of Louisville Richard Bartha, Rutgers University / 0-8053-0655-2 / Benjamin Cummings Microbial Ecology Pearson Education Legal Notice Permissions

77. Microbial Ecology of a Saltmarsh” 122KB (You must have the Acrobat Reader to view this file) This paper serves as a companion piece for the microbial ecology workshop. http://www.coastlive.org/120800_wkshop/120800_wkshop.htm

A live Internet session on December 8, 2000 (1-3:30pm) , highlighted the work of Dr. Paul del Giorgio and Dr. Roger Newell of the University of Maryland’s Center for Environmental Science. These researchers believe that differences in microbial activity will be noticeable among marshes of varying levels of restoration and pristine quality. In an effort to measure the success of restored salt marsh, these researchers have developed a biological indicator of bacterial activity that measures the functional value of the marsh community. Currently, managers may be limited to structural definitions of marsh health—like counts of the number of marsh grass sprouts, number of species, etc. Managers could use this indicator, Bacterial Growth Efficiency, or BGE, as a functional measure of success in restoration or improving marsh health. Additional Information “Using Microbial Metabolism to Assess Ecological Function of a Saltmarsh” (You must have the Acrobat Reader to view this file) This paper serves as a companion piece for the Microbial Ecology workshop. It outlines the role of microbes in the estuaries and introduces the concept of Bacterial Growth Efficiency (BGE). The paper and the workshop try to explain how BGE can be effective indicator of saltmarsh health. The report has background information on the researchers as well as the CICEET Research Program. In addition, technical information associated with the viewing of the Internet Streaming video presentation, and additional sources of information on Microbial Ecology is provided.

78. Microbial Ecology And Environmental Microbiology The Ward lab at Princeton University does research on microbial ecology, biological oceanography, and biogeochemistry. We re interested 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?

79. SpringerLink - Publication About Browse, LogOff. Home /. Publication, microbial ecology. Publisher SpringerVerlag New York, LLC. ISSN 0095-3628 (Paper) 1432-184X (Online). http://springer.lib.tsinghua.edu.cn/link.asp?id=100365

80. Microbial Ecology microbial ecology. Biology Directory Microbiology microbial ecology. Add Your Url. Results FREE! Having trouble finding microbial ecology? http://www.anpi.ca/index.php?c=142

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