Prepared by Eugene Nester, Ph.D., Linda S. Thomashow, Ph.D., Matthew Metz, Ph.D., and Milton Gordon, Ph.D.
Presents the case of Bacillus thuringiensis (Bt) and its use in agriculture. Compares genetic modification of crops to alternatives and addresses the current controversy, positive outcomes, and potential risks associated with transgenic plants. Makes specific recommendations for future research, evaluation and environmental monitoring, scientific coordination, and public education.
According to the report, it is possible to co-exist with resistance by- developing new strategies to prevent resistance from spreading and, where it already exists, identify the strains we need to protect against; find new ways to treat resistance infections effectively in patients; and manage reservoirs of antibiotic strains in the environment. The report summarizes the current scientific understanding of antibiotic resistance, the scope of the problem, and methods at our disposal for detecting emergence and preventing spread. The knowledge gaps about the prevalence of resistant strains and resistant infections are highlighted as are the unique problems and challenges in developing countries.
Synthesizes conclusions reached by working groups at 1999 colloquium. Takes a broad view of the problem of increasing resistance to antimicrobials and its consequences for human, animal, and environmental health. Provides an overview of the current situation and offers specific recommendations for scientific research, surveillance programs, and education efforts.
Prepared by Merry Buckley, Thomas Slezak, and Thomas Brettin.
Bioinformatics, the application of computer analysis to molecular biology, is a fundamental corollary to biodefense research. As we face new security threats involving pathogens and infectious disease, bioinformatics databases must be improved and a plan must be made for integrating biodefense research throughout the world. This report outlines the recommendations made by the world's leaders in bioinformatics at a colloquium held in Baltimore.
The Academy joined with the American College of Microbiology to examine the central roles of professional microbiologists and clinicians in recognizing the occurrence of possible bioterrorism events. Issues of medical laboratory and practitioner training, emergency preparedness plans, public education, collaboration, and communication across health care and law enforcement agencies from the local to the federal level are discussed.
It is a familiar scenario experienced around the world: an outbreak of gastrointestinal illness suddenly emerges in a community, and no one knows where it came from or how to stop it. At the start of the outbreak, only a few people are affected, most often the very old and the very young. As the outbreak worsens, more and more people fall ill, and people who were weak or unwell may develop life-threatening complications. Such outbreaks sometimes originate from a source that most people in the United States and other developed countries trust unquestioningly: drinking water. This report examines the risks related to pathogens in the water supply and puts forth recommendations for areas of research, communication needs, and methods of microbial risk assessment.
Prepared by Rita R. Colwell, and Jonathan A. Patz.
Discusses research issues relating to the effects of climate on the incidence and distribution of infectious disease. Addresses specific infectious diseases and offers recommendations for future research.
Assesses the impact of current and future changes in health care on clinical microbiologists and the practice of clinical microbiology. Considers issues related to changes in patient demographics, technology, the work force, and the economic environment. Discusses the clinical microbiologist as consultant and educator.
Includes an in-depth analysis of the issues involved in collaborative scientific research and makes recommendations to educators, the broader microbiology community, policy makers, and the public.
Prepared by Richard J. Roberts, Peter Karp, Simon Kasif, Stuart Linn, and Merry R Buckley.
This report details the continued work in genome annotation that will likely lead to new applications and progress in healthcare, bio-defense, energy, the environment, and agriculture. The report also discusses the critical challenges and ways to accelerate progress in the field of genome annotation.
Analyzes new challenges affecting the safety of the food supply in the United States, charts directions for future research, and offers specific recommendations. Discusses factors that influence the incidence of foodborne disease, sampling and surveillance, risk assessment, and the food safety community.
{audio}http://www.asm.org/academy/wimpy/wimpy_button.swf?theFile=http://www.flpradio.com/microbeworld/audio/071029-071123/MW071105.mp3{/audio} A new food-borne pathogen? Canadian scientists have discovered the presence of a potentially troublesome microbe usually found in hospitals on 18% of meat samples they tested from various grocers. Air Date: 11/05/2007.
{audio}http://www.flpradio.com/microbeworld/audio/071029-071123/MW071102{/audio} Wine waste and E. coli. California growers who use grape pomace to supplement their fields may be increasing E. coli related outbreaks. Air Date: 11/02/2007.
{audio}http://www.flpradio.com/microbeworld/audio/071029-071123/MW071101.mp3{/audio} H. pylori survival on spinach. One graduate student tested spinach to see if this ulcer-causing microbe can survive on produce. Air Date: 11/01/2007.
{audio}http://www.flpradio.com/microbeworld/audio/070806-070831/070831.mp3{/audio} Spinach, swine, and E. coli. Researchers at the California Department of Health Services took hundreds of samples to locate the source of the 2006 E. coli outbreak.
{audio}http://www.flpradio.com/microbeworld/audio/070806-070831/070822.mp3{/audio} Sanitizing against E. coli. There are several effective products on the market that consumers can use to wash bacteria from fresh produce.
{audio}http://www.flpradio.com/microbeworld/audio/070806-070831/070817.mp3{/audio} Enterococci and fast food. One researcher believes immuno-compromised people might be at risk of infection from bacteria at fast food restaurants.
{audio}http://www.flpradio.com/microbeworld/audio/070806-070831/070806.mp3{/audio} Irradiated beef. Researchers say irradiating beef can remove pathogenic microbes with no adverse impact on taste.
{audio}http://www.flpradio.com/microbeworld/audio/070416-070511/070503.mp3{/audio} Culinary microbes take the spotlight. Scientists have sequenced the genomes of 11 bacteria used for food fermentation to take greater advantage of their capabilities.
{audio}http://www.flpradio.com/microbeworld/audio/070416-070511/070430.mp3{/audio} Antimicrobial food coatings. Researchers have learned that adding oregano oil to an edible film, that can be used to wrap food such as sushi, can prevent E. coli from growing.
{audio}http://www.flpradio.com/microbeworld/audio/070319-070413/070409.mp3{/audio} Milk: It does a body good. New scientific evidence suggests that milk’s benefits are more than nutritional; the lipids it contains may prevent mastitis infections in nursing women.
{audio}http://www.flpradio.com/microbeworld/audio/070219-070316/070223.mp3{/audio} Good bug, bad bug. The harmful effects of the E. coli commonly found in ground beef may be moderated by a harmless strain of the same microbe.
{audio}http://www.flpradio.com/microbeworld/audio/070122-070216/070214.mp3{/audio} Chocolate for Valentine's Day. Without bacteria and fermentation, chocolate would just be a bitter-tasting bean.
Prepared by Gerard A. Cangelosi, Nancy E. Freitag, and Merry R. Buckley.
While many infectious diseases are caused by human-to-human transmission, others are caused by microorganisms that exist in the outside environment. The difference between the two is the ability for environmental pathogens to survive and thrive outside the host. The report recommends that scientists from different fields work together to address the challenges presented by these environmental pathogens.
Prepared by Arturo Casadevall, Joe Heitman, and Merry Buckley.
Fungi can cause a number of life-threatening diseases but they also are becoming increasingly useful to science and manufacturing every year. However, many people, scientists among them, are largely unaware of the roles fungi play in the world around us. Research on fungi and fungal diseases are seriously neglected as a result – a situation with grave negative repercussions for human health, agriculture, and the environment. The Fungal Kingdom explores the roles fungi play in the world around us.
This report details the study of pathogenesis and how far we have come to having a complete understanding of pathogenesis and a phylogenetic framework for understanding the phenomenon.
Prepared by Timothy E. Ford, Ph.D., and Rita R. Colwell, Ph.D., D.Sc.
Discusses issues in identification of the current extent of waterborne disease outbreaks, the future threat of waterborne outbreaks, and epidemics (and potential pandemics) within both developed and developing countries. Provides a framework for addressing these water quality issues globally.
Examines the current state of knowledge of microbial genomics, the technical challenges of using genomics in microbial systems, and the achievements that may now be possible by applying genomics to the study of microbiology. Makes recommendations for future directions in education and research.
Prepared by Joan B. Rose, Anwar Huq, and Erin K. Lipp.
Takes a look at the combined advances in microbiology, meteorology, climatology, epidemiology, oceanography, ecology, medicine, and space science that are shedding light on the intricate connections between weather, oceans, and emerging and re-emerging diseases. Makes specific recommendations for future data collection, research collaboration, risk assessment, and the use of technology and molecular techniques.
Scientists can gain insights into new ways to use microorganisms in medicine and manufacturing through a coordinated large-scale effort to sequence the genomes of not just individual microorganisms but entire ecosystems, according to a new report from the American Academy of Microbiology that outlines recommendations for this massive effort. The report, “Large-Scale Sequencing: The Future of Genomic Sciences?” is based on a colloquium convened by the Academy in September 2008. The report outlines recommendations for large-scale microbial sequencing efforts directed toward cultivated isolates and single cells, as well as a community-scale approach to characterize a set of defined ecosystems of varying complexity.
Prepared by: Jennie Hunter-Cevera, David Karl, and Merry Buckley.
The report outlines how life on Earth may owe its existence to tiny microorganisms living in oceans, but the effect of human-induced change on the vital services these microbes perform for the planet remains largely unstudied.
Discusses issues surrounding microbial communities and their role in human health, industrial processes, and ecological functions, with recommendations for future research, education, and collaboration.
Examines the explosion of new information in microbial biology made available by recent advances in molecular technology--and looks at the important questions that remain. Recommends next steps for the integration of genomics with microbial systematics, evolution, and ecology.
Prepared by David A. Relman, M.D., and Evelyn Strauss, Ph.D.
Details the enormous advances made possible through the genetic wealth and biological aptitude of microbes--and the new challenges arising from the advent of large-scale DNA sequencing. Discusses project selection and coordination, data management and analysis, training and education, funding, and ethics, and makes specific recommendations for future action.
The opinions expressed in this report are those solely of the colloquium participants and do not necessarily reflect the official position of our sponsors or the American Society for Microbiology.
Prepared by Kathryn M. Carbone, Ronald B. Luftig, and Merry Buckley.
Details how the increase aging populations in the United States and throughout the developed world, appears to correlate with a switch from acute infectious diseases to chronic diseases as the major cause of morbidity and mortality. The report also recommends new criteria be developed for evaluating the strength of association between microbes and chronic illness.
Prepared by James T. Staley, Ph.D., Richard W. Castenholz, Ph.D., Rita R. Colwell, Ph.D., D.Sc., John G. Holt, Ph.D., Matthew D. Kane, Ph.D., Norman R. Pace, Ph.D., Abigail A. Salyers, Ph.D., and James M. Tiedje, Ph.D.
Addresses the urgent need for increasing knowledge of the diversity of microorganisms. Interdisciplinary perspective deals with basic research, the role of culture collections and databases, applications and expected benefits, and issues of education, training, and communication.
Prepared by Moselio Schaechter, Roberto Kolter and Merry Buckley.
This report details the central importance of microbes to life on earth, the direction microbiology research will take in the 21st Century and ways to foster public microbial literacy beginning at an elementary school level.
People with Crohn’s disease (CD) are seven-fold more likely to have in their gut tissues the bacterium that causes a digestive-tract disease in cattle called Johne’s disease. The role this bacterium may or may not play in causing CD is a top research priority. This report points out that the cause of Crohn’s disease is unknown, and the possible role of this bacterium, which could conceivably be passed up the food chain to people, has received too little attention from the research community.
Prepared Richard E. Isaacson, Mary Torrence, and Merry R. Buckley.
Recent outbreaks of a number of foodborne illnesses have been linked to contamination occuring in the preharvest stage of food processing. The report also recommends creating an accessible international database of genetic sequences for known foodborne pathogens along with new and improved tools for detecting and cataloging pathogens on the farm.
This report details how beneficial microbes could represent the future of medicine, with the potential to treat a variety of diseases in humans and animals from diarrhea and eczema to gum disease and autoimmune disorders.
A new report, released by the American Academy of Microbiology, focuses on how until a decade ago, scientists categorized microorganisms almost exclusively by their physical characteristics: how they looked, what they ate, and the by-products they produced. With the advent of genomic sequencing and genetic analysis in the 1990s, our understanding of the relationships between different microorganisms fundamentally changed. In light of this new knowledge, what exactly is the definition of a microbial species, and how should microbiologists be categorizing microorganisms? These questions are the focus of this new report.
Prepared by Joan B. Rose, Ph.D., and D. Jay Grimes, Ph.D.
Evaluates current status of water quality, discusses new and emerging issues, and examines shortcomings of current practices. Outlines gene probes, genotyping, antibody, and PCR (polymerase chain reaction) techniques that stand to replace outdated testing methods. Makes specific recommendations for risk assessment, technology use, data collection, research collaboration, and evaluation and development of best practices.
Prepared by Michael Doyle, Lee-Ann Jaykus, and Matthew Metz.
Details the ever-present threats to the food supply posed by disease, spoilage, and the specter of agro-terrorism, along with how the commitment to research in food and agricultural microbiology is on the decline.
Looks at incidence, severity, and duration and discusses routes of transmission of gastrointestinal disease around the world. Recommends future directions for the clinical arena, research, education, disease prevention, and communication.
Prepared by Richard E. Isaacson, Ph.D., and Mary E. Torrence, D.V.M., Ph.D.
Addresses the complicated questions around the use of antibiotics in agriculture. Examines the current state of research on origins and reservoirs of resistance, transfer of resistance,and modulating resistance by altering usage. Makes recommendations for surveillance, risk assessment, prudent use guidelines, management and production practices, and education.
Responds to the need for evaluation of the scientific underpinnings of bioremediation and the future needs of the science underlying the technology of bioremediation. Removing PCB's. One group of bacteria might be used to help clean toxic chlorine-based compounds out of the environment.
Prepared by Harriet L. Robinson, Harold S. Ginsberg, Heather L. Davis, Stephen A. Johnston, and Margaret A. Liu.
Provides in-depth analysis of relevant issues and outlines a strategy for funding and coordinating a massive research effort to increase knowledge about the mechanism of genetic immunizations and to identify potential applications.
Details the power of applying a systems approach to the study of biology and to microbiology, specifics about current research efforts, technical limitations, database requirements, education needs, and communication issues that surround the field of systems microbiology.
Humans live in the midst of a seething, breathing microbial world. Microorganisms populate every conceivable habitat, both familiar and exotic, from the surface of the human skin, to rainforest floors, to hydrothermal vents in the ocean floors. Despite the powerful and pervasive role of microbes in sustaining life, most of the microbial world remains a mystery. This is the subject of The Uncharted Microbial World: Microbes and Their Activities in the Environment.
Prepared by James Kaper, Rino Rappuoli, and Merry Buckley.
This report outlines the challenges society needs to confront in order to combat plagues of the 21st Century, and provides recommendations to overcome obstacles that prevent the best use of existing vaccines.
View/Download this Report in Color
View/Download this Report
View/Download this Report in French
Prepared by Mark Lechevallier and Merry Buckley
ABC Radio Broadcast Transcript
Prepared by: Jennie Hunter-Cevera, David Karl, and Merry Buckley.
Prepared Richard E. Isaacson, Mary Torrence, and Merry R. Buckley. 
Prepared by Merry Buckley and Richard J. Roberts
Prepared by David T. Gibson and Gary S. Sayler.
