81. Microbial Ecology Minor—Graduate School Catalog microbial ecology microbial ecology is an interdisciplinary research area concerned with the relationships of microorganisms to their natural environment. http://www.catalogs.umn.edu/grad/programs/g119.html

Return to: U of M Home One Stop Directories Search U of M ... Catalog Archives Frequently Asked Questions Contact Us Graduate School Admissions International Students Graduate School Fellowships ... Academic Calendars E-mail Graduate School Admissions Microbial Ecology Link to a list of faculty for this program. Minor Only Michael Sadowsky, Microbial Ecology Minor Program, University of Minnesota, 258 Borlaug Hall, 1991 Upper Buford Circle, St. Paul, MN 55108 (612-624-2706; sadowsky@soils.umn.edu Consult the director of graduate studies. Students are admitted each semester. Please contact the minor program office for information on relevant coursework. Inclusion of more than one 4xxx course on degree program forms is subject to adviser and director of graduate study approval. Minor Only Requirements Core Courses: EEB 5053 (4 cr); MicB 4111 (3 cr); MicB 4121 (3 cr); MIMP 8002 (4 cr). Additional Courses: CE 8541, 8542, 8551, EEB 4601, 4609, PlPa 8102, 8103, Soil 5515, 5611.

82. UWA Handbooks 2004 - Applied Microbial Ecology 303 Applied microbial ecology 303 (701.303). The availability of units in Semester 1, 2, full year, etc. was correct at the time of going http://units.uwa.edu.au/701.303

UWA Handbooks 2004 UWA Home Prospective Students Current Students Staff ... About Search UWA UWA Website This Site People UWA Expert Structure Intranet for Handbooks Home About Handbooks Undergraduate Postgraduate ... Search Applied Microbial Ecology 303 (701.303) The availability of units in Semester 1, 2, full year, etc. was correct at the time of going to press but may be subject to change. For the most up-to-date information click on the Timetable link below. Credit 6 points Availability Semester 2 (See Timetable) Two modules provide advanced analysis of ecological topics in plant-microbial symbioses, soil-plant-microbe interactions, and other areas of applied and environmental microbiology (e.g. microbiology of agricultural products such as fruit and silage, microbiology of lignin and hydrocarbon breakdown, rumen microbiology, and microbiology of dairy products and wine). Module 1: Microbial Interactions deal with microbial associations in a range of environmental situations and their consequences. Module 2: Advances in Applied Molecular Microbiology provides an in-depth analysis of a range of current research programmes applicable to agriculture, horticulture and natural environments (e.g. specificity in microbial associations, manipulation of rumen micro-organisms, remediation of contaminated sites).

83. Science Search > Microbial Ecology 1. Digital Learning Center for microbial ecology Michigan State University website with extensive resources on microbes and the environments they live in, as http://www.science-search.org/index/Biology/Ecology/Microbial_Ecology/

Search for: Current Category Everything What's new Top Searches Statistics Science News ... Home Current location: Biology Ecology > Microbial Ecology Digital Learning Center for Microbial Ecology Michigan State University website with extensive resources on microbes and the environments they live in, as well as links to other microbial ecolo http://commtechlab.msu.edu/sites/dlc-me/ detailed information Rating: [7.00] Votes: [1685] Astrobiology Web Microbes and other life forms in extreme environments. (Although the title of this site implies that it is about space, this is an excellent resource about microbial ecology in http://www.reston.com/astro/extreme.html detailed information Rating: [6.00] Votes: [1738] BacSim: Individual-based model of microorganisms BacSim is an Individual-based Model (IbM) of bacterial populations, such as colonies and biofilms. Online computer simulations give a feel for what http://www.cf.ac.uk/biosi/staff/kreft detailed information Rating: [6.00] Votes: [520] International Society for Microbial Ecology (ISME) Microbial Ecology for students, public, news media, and scientists. Also serves as the primary forum of discussion for ISME Society members.

84. Soil Microbiology And Microbial Ecology, Guy R. Knudsen: Research, PSES, Univers Soil Microbiology microbial ecology Guy R. Knudsen, PSES, University of Idaho People Current Research Links. People. Guy R. Knudsen http://soils.ag.uidaho.edu/gknudsen/research/research_main.htm

Guy R. Knudsen, PSES University of Idaho People Current Research ... Links People Guy R. Knudsen Professor, Microbial Ecology gknudsen@uidaho.edu Chris LaPaglia Scientific Aide lapaglia@uidaho.edu Tae Gwan Kim Ph.D. student kim8661@uidaho.edu Susan Bajimaya M.S. student baji7851@uidaho.edu Kati Orr Research Assistant Recently graduated M.S. student orr9345@uidaho.edu Belinda Henderson Lab Assistant findbelinda@yahoo.com Ryan Landa Lab Assistant ryanlanda@hotmail.com Sharon Schuhmann Programming and website schuhman@uidaho.edu back to top Current Research Projects Use of Microbial Biocontrol Agents and Brassica Tissues to Control Conifer Nursery Pathogens Molecular and Microscopic Methods to Evaluate Establishment of Beneficial Fungi in Soil Ecosystems More info and photos here! Microbial Source Tracking of E. coli in Recreational and Wilderness Watersheds More info and photos here! Microbial Iron Reduction in Wetland Soils More info and photos here!

85. The University Of Wisconsin-Madison Molecular Microbial Ecology Group The University of WisconsinMadison Molecular microbial ecology Group. An Introduction. Current Research suggestions or comments The microbial ecology Group. http://www.cs.wisc.edu/~soileco/

The University of Wisconsin-Madison Molecular Microbial Ecology Group An Introduction Current Research: Microbial Ecology of Soil Microbial Ecology of Acidic Mine Drainage Microbial Ecology of the Rhizosphere Computational Research in Microbial Ecology Members: Jillian F. Banfield Scott B. Bintrim Murray K. Clayton biostatistics, decision theory, adaptive sampling Ranjit K. Dasgupta Timothy J. Donohue bacterial physiology, photosynthesis Katrina Edwards Robert M. Goodman agricultural systems, plant molecular biology, host genotype - microbial community interactions Jo Handelsman molecular ecology, genetics of fitness/competitiveness antibiotics in plant-microbe interactions James S. Ireland Deborah A. Joseph computational algorithms for genome sequencing and molecular biology Sarah Lauffer Ken Nealson Gary P. Roberts bacterial genetics, nitrogen fixation Michelle Rondon Eric Schranz Matthew O. Schrenk Holly M. Simon Scheduled Meetings: All meeting times will be on Thursdays at 11 a.m. in 295 Russell Labs unless otherwise noted.

86. Microbial Ecology microbial ecology. Winter 2004 LH2 Wednesdays, 6945. Syllabus - microbial ecology - draft as of Dec. 2, 2003 -. This will be finalized http://academic.evergreen.edu/curricular/microbialecology/

Microbial Ecology Winter 2004 LH2 Wednesdays, 6-9:45 Syllabus Class Links Images Evergreen Phage Page ... Contact Info Microorganisms are by far the most abundant forms of life on this planet, with enormous impacts on all other aspects of life. This program is designed for MES students and advanced science students with a need and interest in understanding the basic principles and interactions in microbial systems and their roles in the broader ecology of earth. You are expected to have read the assignments before coming to class and be prepared to take active part in discussions. (Work outside of class should take 8 h weekly.) Texts: Brock Biology of Microorganisms Madigan et al. 10th edition this book is expensive but very well done and will also be an excellent resource for more specialized topics well into the future The Killers Within - Shnayerson and Plotkin Planned activities include: Illustrated lectures on broad ideas and patterns Readings-based small- and large-group discussions of basic concepts in microbiology and microbial ecology, including important experimental techniques using books and handouts

87. Molecular Investigations Of Marine Microbial Ecology Project 5. Molecular investigations of marine microbial ecology. Principal Investigators Chris Scholin, Ed DeLong. A diverse group http://www.mbari.org/rd/projects/1998/project5.html

1998 Projects Current Projects Biogeochemistry/ climate and ocean 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

88. Microbial Ecology Of Biofilms In Beef Processing Facilities microbial ecology of Biofilms in Beef Processing Facilities March 2000 by Rena Orr http//cattle.guelph.on.ca/communications/biofilmsschraft-mar00.html. http://cattle.guelph.on.ca/communications/biofilms-schraft-mar00.html

OCA Home Communication Industry Stats Market Info ... Communications Press Release Microbial Ecology of Biofilms in Beef Processing Facilities March 2000 by Rena Orr http://cattle.guelph.on.ca/communications/biofilms-schraft-mar00.html Biofilms are bacterial populations that adhere to each other and to surfaces in the environment while being enclosed in a dense matrix of carbohydrates or polysaccharides. Researchers at the University of Guelph are working to improve their understanding of microbial pathogens in beef, prevent their passage into the food chain and support the development of new processes which improve the quality of beef. Dr. Heidi Schraft, an assistant professor in the department of food science at the University of Guelph, says the work, supported by the Ontario Cattlemens Association, will contribute to a better understanding of the microbial ecology of biofilms present in the meat industry. Biofilm-associated microorganisms (BAM) can change their appearance or phenotype and develop a different type of growth pattern. The most important features of such bacteria are smaller cell size and resistance to antimicrobial agents such as disinfectants. Although they are alive and grow in the environment, these bacteria cannot be grown in a culture and identified in the laboratory. The term for this trait is viable but non-culturable (VBNC).

89. DEES Reno Facilities: Microbial Ecology Laboratory DRI, Division of Earth and Ecosystem Sciences (DEES) Facilities. microbial ecology Laboratory (Dr. C. Fritsen). microbial ecology Laboratory (C. Fritsen). http://www.dees.dri.edu/Facilities/micro-ecol.htm

Microbial Ecology Laboratory ( C. Fritsen The Microbial Ecology Laboratory provides facilities for conducting a broad range of ecological studies concerning soil, sediment, and aquatic microorganisms. These studies include the processing and analysis of water and sediment samples from Antarctic lakes and ice; culturing and characterizing of ice biota; and storing and processing periphyton samples from the western U.S. State-of-the-art equipment for analyses of microalgae include standard microbiological instrumentation for culturing and observing bacteria, algae and protozoa; including centrifuges, balances pH meters, fume hood, fluorometer (Turner Designs 10-AU), spectrophotometer (Crary 300), light and temperature-controlled incubators, DO and pH electrodes, water quality sondes (YSI), vacuum lines and pumps, vacuum manifolds and filtration apparatus, autoclave, drying and ashing ovens, refrigerator and freezer, and two gas chromatographs with FID and TCD detectors. A research epifluorescence microscope (Olympus BX-60 with cryostage) is equipped with Digital cameras and integrated to digital image analysis system. The p ositive-pressure clean rooms are temperature controlled for ice core processing and sample preparation. Freezer rooms dedicated for the cultivating of low temperature-brine biota are outfitted with backup power and alarm systems to maintain cold conditions necessary for long-term cold-oriented research.

90. DEES Reno Facilities: Molecular Microbial Ecology Laboratory Facilities. Molecular microbial ecology Laboratory (Dr. A. Murray). FACILITIES — Reno. Molecular microbial ecology Laboratory (A. Murray). The http://www.dees.dri.edu/Facilities/molecular-micro.htm

Molecular Microbial Ecology Laboratory ( A. Murray The Molecular Microbial Ecology Laboratory is fully equipped for state of the art molecular biology (RNA and DNA) research including capabilities to facilitate high-throughput work (multichannel pipettors, 96 sample gel apparatus, vacuum apparatus for 96-well plate mini-prepping and purifications). The lab is equipped with two thermal cyclers, refrigerated and room temperature microfuges, hybridization oven, several gel electrophoresis boxes and DGGE unit, UV transilluminator and digital camera, and software for image analysis. Specific equipment to perform DNA microarray hybridizations includes staining dishes and racks for array manipulations, hybridization cassettes, water baths, hot blocks, centrifuge with microtiter plate spinning capacity. The lab contains a Adjacent shared-use equipment include a Varian spectrophotometer, laminar flow hood, autoclave, and Olympus BX60 Epifluorescence Microscope with MTI CCD camera and image-Pro Plus image analysis software.

91. Microbial Ecology microbial ecology. broader ecology. other microorganisms. Soil microbes in boreal forest humus after fire. Presented in November 1999 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: 10 Jun 2004

92. Science Kit And Boreal Laboratories - Microbial Ecology Date 5/13/2004, Catalog Ecology Environment Population Ecology microbial ecology. microbial ecology. Click here to view all products in this category. http://www.sciencekit.com/category.asp_Q_c_E_429015

Your Shopping Cart Your cart contains Items Sub Total Shipping *Total 100% secure shopping Home Express Order Recommended Materials Free E-mail Newsletter Your e-mail here: Classroom Products... Choose a Category Elementary Highlights Middle School Highlights High School Highlights College Highlights Balances Forensics Gifts for Teachers Lab Supplies Microscopes Teacher Developed, Classroom Tested I am looking for... Choose a Subject Executive Toys Fun Science Gifts for Teachers Gifts for Kids Under 12 Gifts for Teens Science Games Gifts Under $50 Gifts $50-$99.99 Gifts Over $100 Date - 6/10/2004 Catalog Population Ecology Microbial Ecology Enter Keywords or Item # All Products Biology Chemistry/Chemicals Earth Science Elementary (K-6) Forensics Scientific Inquiry and Science Fairs Instructional Technology Labware and Furniture Physics Science Books Teacher Developed Classroom Tested HomeSchooling Science Teachers Make a World of Difference Publisher/Recommended Materials Lists Cool Science Helpful Tips Catalog Item Number? Quantity? New Products Professional Development Workshops NYS Lab / Test Kits Biology ... Find out the details for shipping, web pricing, and our return policy

93. Microbial Ecology Proposal to Create a Program of Excellence for the Study of microbial ecology in Food Animal Agriculture. The impact of food animal http://ansci.osu.edu/maple/microbial_ecology.htm

Microbial Ecology Home Up What is MAPLE MAPLE team members ... Contact MAPLE Proposal to Create a Program of Excellence for the Study of Microbial Ecology in Food Animal Agriculture. The impact of food animal production on the environment is a current, critical public issue. As the industry has made improvements in management, efficiency, and economic viability of food animal production to meet the needs for meat and milk throughout the world, the effect of this increased and concentrated production on the environment has become a focal point of concern. The microbiology of these environments can’t be ignored, as evidenced by the heightened public concerns of animal agriculture’s potential contribution to the onset and spread of bacteria resistant to antibiotics. Ohio agriculture requires a strong and innovative research program designed to assess, and ultimately minimize, the transference of antibiotic resistance genes among microbes in food animal production environments. The Departments of Animal Sciences and Veterinary Preventive Medicine have defined this as a key endeavor and have established a commonality of purpose, drawing on the affinity in research interests among new and established faculty in both Departments. The immediate focus for this team will be to investigate the spread of antibiotic resistance genes in food animal production environments. In addition to their use to thwart bacterial infections, antibiotics are also fed to food animals in sub-therapeutic levels to enhance growth. Bacteria, especially in environments where antibiotics are used, are constantly evolving, and through processes called

94. The Griffith University Microbial Ecology Research Group The Griffith University microbial ecology Research Group. microbial ecology, Environmental, bacteria, Cyanobacteria, biofilm, wetlands http://www.microbialecology.org/

The Griffith University Microbial Ecology Research Group Microbial ecology, Environmental, bacteria, Cyanobacteria, biofilm, wetlands, microbiology, Estuaries, Marine, Freshwater, Peter Pollard, Melissa Wos, Michelle Jones, Viruses, biofiltration, wastewater, stormwater, sewage treatment, physiology, environmental, Eloise Larsen, Sewage overflow Click here to enter http://www.gu.edu.au/school/eve/research/microbialecology/microbialecology.html mydomain.com - Register your domain name

95. Impact Of Elevated CO2 On Soil Microbial Ecology Imapct of Elevated CO 2 on Soil microbial ecology. Collaborators CSIRO, Division of Plant Industry, Canberra, Australia. Macaulay Contact http://www.mluri.sari.ac.uk/research/co2_res.html

Thursday June 10, 2004 "Research Today for Land Use Tomorrow" Text Only Version International Research EU Funded Contracts International Feed Resource Unit Imapct of Elevated CO on Soil Microbial Ecology Collaborators CSIRO, Division of Plant Industry, Canberra, Australia Macaulay Contact Sue Grayston Soil Plant Microbial Interactions 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

96. Biology Department - Woods Hole Oceanographic Institution Working Groups Microbiology microbial ecology. Microbiology microbial ecology Taylor, Waterbury, Webb, Dyhrman , Sievert Microbial http://www.whoi.edu/science/B/dept/working_groups/microbiology.htm

Benthic Ecology Biogeochemistry Coastal Studies Environmental Toxicology ... Sievert 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: Microbial processes at hydrothermal vents 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. Growth kinetics of oligotrophic marine bacteria 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.

97. Wiley-VCH - Journal Of Basic Microbiology The journal publishes results of fundamental research on procariotic and eucariotic microorganisms. Particular consideration is given to papers dealing with general aspects of microbial physiology, biochemistry, cytology, genetics, ecology, taxonomy, virology and biotechnology. http://www.wiley-vch.de/publish/en/journals/alphabeticIndex/2248

Journals Journals from A to Z Journal of Basic Microbiology Books Journals Please specify Accounting Architecture Business Chemistry Civil Engineering Computer Science Earth Science Education Electrical Engineering Finance Geography Graphics Design History Industrial Engin. Life Sciences Materials Science Mathematics Mechanical Engin. Medical Sciences Physics Social Science Statistics Journals from A to Z Online Submission of Manuscripts ... Electronic Media Please specify Accounting Architecture Business Chemistry Civil Engineering Computer Certification Computer Science Earth Science Economics Education Electrical Engineering End-User Computing Finance Geography Graphics Design History Hospitality Industrial Engin. Law Life Sciences Materials Science Mathematics Mechanical Engin. Medical Sciences Physics Psychology Social Science Statistics Journal of Basic Microbiology Latest Issue Access full text, free trials, sample copies, editorial and author information, news, and more. An International Journal on Biochemistry, Physiology, Genetics, Morphology and Ecology of Microorganisms Journal of Basic Microbiology publishes results of fundamental research on prokaryotic and eucharyotic microorganisms. Particular consideration is given to papers dealing with general aspects of microbial physiology, biochemistry, cytology, genetics, ecology, taxonomy, virology and biotechnology.

98. ProbeBase News database updated, now containing 1063 probes, 4 microarrays, 208 references (23.03.04) • search probebase by categories (11.2.03) • search target http://www.microbial-ecology.de/probebase/

Search Submit Links News: database updated, now containing probes, microarrays, references (23.03.04) search probebase by categories (11.2.03) search target site function returns E. coli brightness classes according to Fuchs et al. (28.10.02) probeBase uses the taxonomic nomenclature according to the Taxonomic Outline of the Bergey's Manual Trust Search probeBase by keywords Search for target organisms, probe names, target sites; use AND, OR - multiple terms will be linked automatically by AND if not specified otherwise! Important: Query results might contain probes that do not target the searched organism. Please re-check the specificity of each probe. Help with probeBase search Search target organisms probe names target sites List probes by category Show list of probes targeting a physiological, a taxonomic, or a ecological group of organisms. select probe category sulfate-reducing prokaryotes methanogenic archaea ammonia-oxidizing bacteria nitrite-oxidizing bacteria anaerobic ammonium-oxidizing bacteria methylotrophic bacteria organisms of medical or hygienical relevance symbiotic prokaryotes syntrophic prokaryotes eukaryotes organisms at higher taxonomic levels bacteria of relevance in wastewater treatment Find probe set Find all probes targeting your sequence(s), e.g. from a rRNA gene clone library. Paste or upload up to 150 sequences; rRNA or DNA

99. Centre For Ecology, Evolution And Conservation At The University Of East Anglia A group of 21 faculty, with interests in behavioural ecology, biodiversity, biogeochemistry, ecophysiology, genetics, environmental genomics, life histories, pollution, population biology, tropical, landscape, microbial, molecular and restoration ecology. http://www.uea.ac.uk/ceec/

Research Undergraduate degrees in Ecology MSc in Applied Ecology and Conservation PhD Opportunities ... Contact Us Centre for Ecology, Evolution and Conservation (CEEC) University of East Anglia Norwich UK The Centre for Ecology, Evolution and Conservation at UEA , Norwich, is one of the largest groups of ecologists and evolutionary biologists in Europe, with over 20 members of faculty and a community of around 70 research staff and PhD students. We offer: BSc degrees in Ecology , including options to spend a year in North America; Australasia or mainland Europe A one year Masters programme in Applied Ecology and Conservation Doctoral programmes in ecology, evolutionary biology and conservation. CEEC brings together staff and students based in two departments, the School of Biological Sciences and the School of Environmental Sciences . There are strong collaborative links in research and close integration of teaching between the two Schools, and some staff hold joint appointments. External collaborators include British Trust for Ornithology, RSPB, the John Innes Centre and CEFAS. We are also members of the NERC funded UK Population Biology Network (

100. International Microbiology The official Journal of the Spanish Society for Microbiology. The fields covered include microorganisms, microbial biology (physiology, ecology, morphology, taxonomy, genetics, pathogenesis) and microbial applications (environmental, soil, industrial, food, medical microbiology, biodeterioration, bioremediation, biotechnology). http://www.im.microbios.org

I NTERNATIONAL M ICROBIOLOGY is the official journal of the Spanish Society for Microbiology (SEM). The first journal published under the auspices of the SEM was , which was launched in 1947. From 1985 until 1997, the journal was called . In 1998, the title was changed to I NTERNATIONAL M ICROBIOLOGY . The journal addresses the international scientific community and publishes two types of contributions: Articles and Complements. Articles may be reviews, research articles, or research notes. Complements may be editorials, perspectives, opinions, book reviews, obituaries, etc. The fields covered by I NTERNATIONAL M ICROBIOLOGY are: microorganisms, both prokaryotes and eukaryotes (prions, viruses, bacteria, archaea, protists, yeast, molds), microbial biology (physiology, ecology, morphology, taxonomy, genetics, pathogenesis), and microbial applications (environmental, soil, industrial, food, medical microbiology, biodeterioration, bioremediation, biotechnology). Papers related to microbial science on a worldwide basis are also considered. Special emphasis is given to issues that go beyond the traditional boundaries of a microbiology journal: the state-of-the art of microbiology in different regions of the world, the research activities and interests of outstanding microbiologists, the role of microbiology in society and education, new findings from the frontiers of current research, et cetera. Critical reviews of new books on microbiology, related sciences, and social aspects of science are also welcome.

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