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Microbial Ecology:     more books (100)

Microbial Ecology of Growing Animals: Biology of Growing Animals Series by Wilhelm Holzapfel, Patrick Naughton, 2005-04-19 Molecular Microbial Ecology of the Soil: Results from an FAO/IAEA Co-ordinated Research Programme, 1992-1996 (Developments in Plant and Soil Sciences) Advances in Microbial Ecology, Volume 16 Microbial Ecology of Soil and Plant Growth by Pierre Davet, 2004-01-11 Microbial Ecology and Intestinal Infections Molecular Microbial Ecology Manual Including Supplement 3 Molecular Techniques in the Microbial Ecology of Fermented Foods (Food Microbiology and Food Safety) Fundamental Processes in Ecology: An Earth Systems Approach by David M. Wilkinson, 2007-12-05 Microbial Mats: Modern and Ancient Microorganisms in Stratified Systems (Cellular Origin, Life in Extreme Habitats and Astrobiology) Bioremediation: Applied Microbial Solutions for Real-World Environment Cleanup First International Meeting on Microbial Phosphate Solubilization (Developments in Plant and Soil Sciences) Algal Ecology: Freshwater Benthic Ecosystem (Aquatic Ecology) The Ecology of Mycobacteria: Impact on Animal's and Human's Health by Jindrich Kazda, Ivo Pavlik, et all 2009-08-12 Environmental Impacts of Microbial Insecticides: Need and Methods for Risk Assessment (Progress in Biological Control)

lists with details

81. Ecology Department
    The Ecology Department intends to maintain the highest quality and highest Molecular microbial ecology Realtime assessment of bioavailability and  
    http://www-esd.lbl.gov/ECO/
    
    Extractions: Scientific Focus Areas The Ecology Department intends to maintain the highest quality and highest visibility for its research and development in four areas: For additional information about bioremediation, check out the PBS program " Intimate Strangers: Unseen Life on Earth ." Funding: Ecology Department

82. CPB: Microbial Ecology
    microbial ecology means different things to different research traditions and what we hope to do might be called microbial population biology the  
    http://www.cpb.bio.ic.ac.uk/microbial/microb.html
    
    Extractions: 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. Microbes and their interactions are also increasing being used as model systems to understand phenomena that are widely applicable to all ecological study and those trends are also reflected in this research theme. (ME1) Population and genetic structure of bacteria/plasmid systems Since October 2000, Dr Richard Ellis has been developing research in these areas, partly in collaboration with Centre for Ecology and Hydrology, Oxford . Currently, he is investigating the co-operation between plasmid-bearing and plasmid-free variants of the same bacterium. Artificial soil microcosms have also been developed that permit examination of microbial interactions under controlled conditions that closely mimic the natural environment. The work has included understanding dynamics of plasmid transfer within a Pseudomonas population in the artificial soil.

83. Microbial Ecology
    Required is basic knowledge of ecology and microbiology. coordinator. LA Huisman, drs. contents. Lectures theory, and possibilities for ecological  
    http://www.rug.nl/biologie/informatievoor/exchangestudents/MicrobEcol
    
    Extractions: Geavanceerd zoeken english site-info contact ... login Informatie voor... Informatie voor... Studenten Studiekiezers Docenten Alumni Aankomende eerstejaars biologie Foreign students Informatie voor... Nieuws Actueel Archief Nieuws Onderwijs Reglementen Bacheloropleiding Masteropleidingen Studieadviseur Studentenadministratie Studiegidsen Cursusaanmelding Collegeroosters Overzicht vakken Onderzoekonderwerpen Algemeen Vormende Vakken Topmasters Bachelorscriptie Onderwijs Onderzoek Over het onderzoek Onderzoekscholen Onderzoekgroepen Onderzoekinstituten Contractonderzoek Onderzoek Organisatie Medewerkers Faculteit Organisatie Voorzieningen Studentenadministratie ICT-beheer Isotopenlaboratorium Progresswww Nestor Wetenschapswinkels Facultair Technische Dienst Links Voorzieningen Bibliotheek Bibliotheek der Rijksuniversiteit Groningen Bibliotheek FWN Bibliotheek Biologie Bibliotheek Vacatures Algemene informatie Vacatures bij de Rijksuniversiteit Groningen Engelstalige vacatures bij de Rijksuniversiteit Groningen Vacatures bij het Kernfysisch Versneller Instituut Rosalind Franklin Fellowships Vacatures Home RUG F W N Biologie ... Informatie voor...

84. BBSR Microbial Ecology Course
    Marine microbial ecology June 26 July 9, 2005. Instructors Dr. Craig Carlson, University of California at Santa Barbara; Dr. Robert M. Morris,  
    http://www.bbsr.edu/Education/summercourses/microbial_ecology/microbial_ecology.
    
    Extractions: June 26 - July 9, 2005 Instructors: Dr. Craig Carlson, University of California at Santa Barbara; Dr. Robert M. Morris, Cornell University; Dr. Stephen Giovannoni, Oregon State University Interactions among microbes and with their environment greatly affect the cycling of elements and energy in the marine system. The course will cover traditional microbiological topics such as physiology, microbial diversity and growth within the context of biogeochemical processes. The lectures will focus on how biological processes and the ecological structure within the water column control the cycling of important elements in the ocean such as carbon, nitrogen and phosphorus. A series of field trips and laboratory experiments will be conducted to investigate microbial processes in the open ocean and in the coral reef dominated waters of Bermuda. We will introduce modern methodology used in microbial ecological studies. We will also focus on modern molecular techniques and how they are used to break apart the "black" boxes often associated with biogeochemical processes. Syl labus 1. What are marine bacterioplankton?

85. :::: SAMS Website ::::
    PELAGIC microbial ecology. PELAGIC GROUP OVERVIEW. Dr Eric Fouilland, Dr Johanna Fehling, Mr Romain Pete, Dr Keith Davidson, Mr Sam Wilson  
    http://www.sams.ac.uk/research/pelagic/pelagic.htm
    
    Extractions: Microbial Ecology Nutrients Arctic Microbial Ecology Microbes and Larval Fish ... National Facilities Arctic Research Animal Environment Arabian Sea Coastal Impacts ... Honorary Fellows PELAGIC MICROBIAL ECOLOGY PELAGIC GROUP OVERVIEW Dr Eric Fouilland, Dr Johanna Fehling, Mr Romain Pete, Dr Keith Davidson, Mr Sam Wilson Dr Ray Leakey (Group Leader), Mrs Elaine Mitchell, Dr Kate Willis, Dr Angela Hatton, Mrs Avril Wilson Research within the Pelagic Group encompasses a wide range of activities including the study of microbial and zooplankton communities, trace gases, and organic matter. Our studies have been conducted in a range of temperate, polar and tropical environments including the North Atlantic, Arctic, Northern European coastal waters, the Arabian Sea and Pakistan coast. We employ a range of techniques and methodological approaches encompassing molecular biology, taxonomy, biochemistry, population dynamics and food web modelling. Current research activities in the Pelagic Group include: Effects of nutrient inputs from fish farms on the activity of bacterioplankton and protozooplankton in Scottish sea lochs.

86. Microbial Ecology At UMass Lowell
    home recent publications ongoing work lab members courses links Juliette N. RooneyVarga Associate Professor Biological Sciences  
    http://faculty.uml.edu/jrooney/Research/

87. Microbial Ecology
    The Department of microbial ecology was established in 1994 after a major Unfortunately, species identification in microbial ecology does not always  
    http://www.nioo.knaw.nl/SCIENCE/PLAN/ResPlanME.htm
    
    Extractions: Download pdf version 1. Introduction 1.1 Short history of the department The Department of Microbial Ecology was established in 1994 after a major reorganisation of the Netherlands Institute of Ecology. During eight years emphasis was given to the study of structure and function of freshwater microbial communities in general and to communities dominated by cyanobacteria and nitrifying bacteria in particular. In 2002, the research programme of the department was evaluated by its members and its was decided to concentrate on the role of microbial diversity in geochemical cycles with a strong focus on inland waters including shallow lakes and wetlands. New projects will be formulated in the sense of the newly chosen research theme. 1.2 Personnel Permanent scientific staff

88. Australian Antarctic Division - Marine Microbial Ecology
    Marine microbial ecology. This program studies the microscopic life in the Southern Ocean single celled plants and animals (phytoplankton and protozoa),  
    http://www.aad.gov.au/default.asp?casid=3381

89. Faculty Research Interest Molecular/Microbial Ecology Penn
    Molecular Dynamics, Molecular Genetics, Molecular Microbiology, Molecular/microbial ecology, Mycology 9 result(s) for Molecular/microbial ecology  
    http://www.environment.psu.edu/faculty/faculty_results_keyword.asp?varKeyword_ID

90. Biology Department - Woods Hole Oceanographic Institution
    Working Groups Microbiology microbial ecology Microbial studies encompass the distribution, abundance, physiological status, and growth rates of  
    http://www.whoi.edu/science/B/dept/working_groups/microbiology.htm
    
    Extractions: Microbial studies encompass the distribution, abundance, physiological status, and growth rates of these organisms as well as their symbiotic interactions, population diversity and dynamics, and biochemical adaptations. Molecular biological methods are increasingly applied to these areas of research. Other marine microbial stud ies include food-chain dynamics, production of bioactive compounds such as toxins and extracellular enzymes, and speciation and phylogeny. Some of the current research areas in microbiology include: Bacterial chemosynthesis is the base of the food chain for the hydrothermal vent biota. The laboratory of Carl Wirsen and Stefan Sievert investigates the diversity of aerobic sulfide oxidizing bacteria and anaerobic, hyperthermophilic, sulfur reducing archaea, as well as their physiology, ecology and biotechnological applications. The bacterial turnover of dissolved organic matter in the world oceans is pivotal for the global carbon budget. A pressurized chemostat is used in the laboratory of Carl Wirsen and Stefan Sievert to measure metabolic activities of bacterial isolates that are adapted to high pressure, low temperature and low concentrations of organic substrates.

91. Impact Of Elevated CO2 On Soil Microbial Ecology
    Through international collaboration with CSIRO in Canberra we were able to address these questions, bringing together their expertise in plant physiological  
    http://www.mluri.sari.ac.uk/research/co2_res.html
    
    Extractions: Saturday September 24, 2005 "Research Today for Land Use Tomorrow" Updated - User Survey Text Only Version International Research EU Funded Contracts ... International Feed Resource Unit Macaulay Contact Through international collaboration with CSIRO in Canberra we were able to address these questions, bringing together their expertise in plant physiological responses to elevated CO2 and our expertise on microbial community assessment. The phytotron growth facilities at CSIRO, dedicated to elevated CO2 studies, were used to grow swards of Danthonia richardsonii (a native C3 Australian grass) at ambient and twice ambient CO2 and varying levels of low N application (20, 60, 180 kg N ha-1). We were able to show that the C:N ratio of shoots, plant litter, roots and soil increased in plants grown at elevated CO2 and there was an increase in total soil carbon at elevated CO2 across all N treatments. We used the Biolog system to construct community level physiological profiles (CLPP) of the microorganisms from the rhizosphere of D. richardsonii. We used Biolog GN and MT plates, the latter to which more ecologically relevant root exudate C sources were added, to characterise the communities. We showed that microbial community structure, in the rhizosphere of D. richardsonii, changes when the plants are grown at elevated CO2, with a preferential stimulation of fungal growth (Figure 1). This is the first study to demonstrate such a change. These changes were due to the grass exuding compounds with a higher C:N ratio when grown at elevated CO2. This was reflected in a significantly greater utilisation of all C sources, except those with a low C:N ratio (neutral and acidic amino acids, amides, N-heterocycles, long chain aliphatics) by microbial communities from the rhizosphere of elevated CO2

92. Microbial Ecology
    microbial ecology. microbial ecology. This page is only available in Dutch (this course is given in Dutch). last modified 23 Sep 2004. Naar boven  
    http://www.microbiology.science.ru.nl/education/ecomicro/

93. Error Message (www.onderzoekinformatie.nl)
    Program microbial ecology. Show printerfriendly view Print View switch to nl Abstract, The Department of microbial ecology at the University of  
    http://www.onderzoekinformatie.nl/en/oi/nod/onderzoek/OND1304996/toon

94. Molecular Investigations Of Marine Microbial Ecology
    Green_Ball.gif (257 bytes) Marine microbial ecology. Green_Ball.gif (257 bytes) New tools and Molecular investigations of marine microbial ecology  
    http://www.mbari.org/rd/projects/1998/project5.html
    
    Extractions: circulation ... 1997 Projects Project 5 Molecular investigations of marine microbial ecology Principal Investigators: Chris Scholin , Ed DeLong A diverse group of microorganisms, from unicellular algae to bacteria and viruses, play integral roles in the cycling of nutrients and other compounds in the ocean. Current methods for identifying microbial species and linking them to specific biogeochemical processes are time consuming and often problematic, hindering scientific pursuits to understand the role microbes play in the environment. For the rapid identification of certain toxic algae , MBARI researchers have devised molecular probes which are being evaluated in many locations around the world. These probes continue to undergo refinements to improve their reliability and make them easier to use. At the same time, the microbial researchers are expanding investigations into the far broader realm of non-toxic species to determine whether a similar genetic-based strategy is viable for pinning down the identity of these other, more prevalent microorganisms. This work could potentially contribute to a much more detailed understanding of marine ecosytems and their biodiversity, as well as improve our understanding of the evolution of marine microorganisms. Over the long term, the goal is to integrate ecological studies of marine microbes with the more broad-scale chemical, biological, and physical oceanographic research of

95. SwetsWise: Login
    microbial ecology Research Group SoBS UoBmicrobial ecology Research Group, School of Biological Sciences, University of Bristol.  
    http://www.swetswise.com/link/access_db?issn=0095-3628

96. HighWire Press Browse By Topic Microbial Ecology
    Introduction and progress of molecular microbial ecology The effect of thermal power plant on microbial ecology and environmental quality  
    http://highwire.stanford.edu:4141/cgi/topics?category=627645&journal=mywire

97. Vls.icm.edu.pl/cgi-bin/sciserv.pl?collection=sprin
    HighWire Browse Journals microbial ecologyBrowse Journals publishing on microbial ecology, (return to Topic List page) Alphabet, , Frequency of articles in microbial ecology  
    http://vls.icm.edu.pl/cgi-bin/sciserv.pl?collection=springer&journal=00953628

98. ARS Project: Understanding Competitive Exclusion Through Microbial Ecology (4041
    1) Develop an increased understanding of the microbial ecology of the gut and the mode of action of CE as it relates to improving the benefits of CE,  
    http://www.ars.usda.gov/research/projects/projects.htm?ACCN_NO=404160

99. ARS Project: Microbial Ecology And Transmission Of Human Pathogens During Poultr
    Research Project microbial ecology and Transmission of Human Pathogens During Poultry Processing. Location Bacterial Epidemiology and Antimicrobial  
    http://www.ars.usda.gov/research/projects/projects.htm?ACCN_NO=404326

100. DOE GTL Boston
     microbial ecology, Proteogenomics Computational Optima. DOE Genomes to Life Center at Harvard/MIT/BWH/MGH. Polonies Collaborating Principal investigators  
     http://arep.med.harvard.edu/DOEGTL/
     
     Extractions: George Church Sallie Chisholm Martin Polz Roberto Kolter ... Mike Laub May 2002 Proposal: Introduction Goal 1 Goal 2 : Regulatory Networks and RNA quantitation. Goal 3 : Microbial Communities, Tn tags, Single Cell Activity Multiplexing, and biofilms Goal 4 Conclusion/Management/Bibliography Scheduled Full Project Meetings on 3rd Wed of each month at noon. (exceptions indicated by *) Location: NRB 258 (77 Ave Pasteur)

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