 |
|
OU Researchers Isolate Microorganisms That Convert Hydrocarbons to Natural Gas
August 20, 2008When a group of University of Oklahoma researchers began studying the environmental fate of spilt petroleum, a problem that has plagued the energy industry for decades, they did not expect to eventually isolate a community of microorganisms capable of converting hydrocarbons into natural gas.
The researchers found that the groundbreaking process-known as anaerobic hydrocarbon metabolism-can be used to stimulate methane gas production from older, more mature oil reservoirs like those in Oklahoma. The work has now led to the recognition that similar microorganisms may also be involved in problems ranging from the deterioration of fuels to the corrosion of pipelines.
A new OU initiative led by Joseph Suflita, Director of the Institute for Energy and Environment within the Mewbourne College of Earth and Energy, brings together researchers from multiple disciplines and departments to attack the corrosion problems affecting pipelines, storage tanks and tankers as well as the deterioration of fuels inside such facilities. Suflita says, "The OU initiative is the only major U.S. initiative of its kind devoted to the problem of biodeterioration and biocorrosion."
Biodeterioration and biocorrosion are fundamental microbiological processes that can cause pipelines, storage facilities and tankers to leak and contaminate the environment. "First, we have to understand how Mother Nature cleans up these spills and we can do this by studying the way microorganisms interact with hydrocarbons," says Suflita. OU researchers have isolated some interesting organisms that metabolize hydrocarbons in the absence of oxygen-insight that was lacking for a long time.
OU researchers have extended their studies to how energy is produced in this country by investigating biocorrosion that leads to pipeline failures on the North Slope of Alaska. "We want to better understand how organisms eat through these pipelines. Several fundamental mechanisms cause this problem, but it is spotty and doesn't occur all of a sudden. Rather, biocorrosion occurs over a long period of time, and we are using a series of new molecular and chemical tools to find out why and how this happens," says Suflita.
"We think cells grow in communities that adhere to the inner surface of pipelines and form three-dimensional biofilms that can sometimes cause pitting. Once we understand what these microorganisms are doing, we can interrupt their processes or diagnose them more effectively. The science is rudimentary at this stage. The modern tools of molecular microbiology have not been applied yet, but a National Science Foundation grant, support from the DOE's Joint Genome Institute and the cooperation of the energy industry, allowed us to study pipeline biocorrosion on the North Slope."
Interruptions in energy supply are significant and cause price spikes that have global impact. Over 500,000 miles of pipeline that crisscross the United States carry over 75 percent of crude oil and 65 percent of refined product. Problems occur throughout the industry, in storage facilities, refineries and tankers, and have similar consequences. Microorganisms grow inside the pipelines because water often accompanies hydrocarbons pumped from the ground. As reservoirs age, more water is pumped creating an even greater problem.
"For many years, no one ever thought anaerobes could grow by metabolizing hydrocarbons in the absence of oxygen, but that is simply wrong. The organisms are actually quite good at it. The underlying mechanisms will be even more important as we introduce newer biofuels to augment our fossil fuel supply. We are putting new fuel combinations into the existing pipelines that service the entire country. The new biofuels can be less stable, so there is a different problem to deal with. The chemistry of biofuels may not allow us to store them as long and more research is needed to determine the stability, compatability and composition of such fuel mixtures."
While biocorrosion and biodeterioration can be problematic, anaerobic hydrocarbon metabolism also has an upside. The OU researchers found that they can use their organisms to convert hydrocarbons in oil reservoirs to natural gas. "Because two-thirds of U.S. oil is still in place, we can use these organisms to convert residual hydrocarbons into natural gas and create a new source of domestic energy. The concept of anaerobic metabolism is an innovative process and the OU initiative is the only one of its kind in the United States at the present time. We are also experimenting with shales and other unconventional reservoirs."
"Biotechnology can influence recovery and address some of today's problems if we can understand how microorganisms degrade hydrocarbons in the absence of oxygen. OU is one of the top universities in the world to study anaerobic microbiology with 14 experts performing research in some aspect of this field. It is rare for universities to have even a single individual with this specialization. OU is an exciting place to be if you are an environmental microbiologist. This initiative has unified this group of experts and led to the groundbreaking research we have just begun to understand."
"We know that bacterial cells communicate much like those that cause disease. If we know the language they use, we can send signals and interrupt their communications so they will change their behavior. The best way to treat the biocorrosion problem has not yet been determined. Active ongoing monitoring of pipelines tells us there is an ongoing process, but we need to get to the problem before it gets to the critical stage. Some and perhaps most microorganisms are not routinely monitored, so we have to understand the role they play in this process-information we can use to more effectively diagnose and treat the consequences."
The University of Oklahoma
Biodeterioration and biocorrosion are fundamental microbiological processes that can cause pipelines, storage facilities and tankers to leak and contaminate the environment. "First, we have to understand how Mother Nature cleans up these spills and we can do this by studying the way microorganisms interact with hydrocarbons," says Suflita. OU researchers have isolated some interesting organisms that metabolize hydrocarbons in the absence of oxygen-insight that was lacking for a long time.
OU researchers have extended their studies to how energy is produced in this country by investigating biocorrosion that leads to pipeline failures on the North Slope of Alaska. "We want to better understand how organisms eat through these pipelines. Several fundamental mechanisms cause this problem, but it is spotty and doesn't occur all of a sudden. Rather, biocorrosion occurs over a long period of time, and we are using a series of new molecular and chemical tools to find out why and how this happens," says Suflita.
"We think cells grow in communities that adhere to the inner surface of pipelines and form three-dimensional biofilms that can sometimes cause pitting. Once we understand what these microorganisms are doing, we can interrupt their processes or diagnose them more effectively. The science is rudimentary at this stage. The modern tools of molecular microbiology have not been applied yet, but a National Science Foundation grant, support from the DOE's Joint Genome Institute and the cooperation of the energy industry, allowed us to study pipeline biocorrosion on the North Slope."
Interruptions in energy supply are significant and cause price spikes that have global impact. Over 500,000 miles of pipeline that crisscross the United States carry over 75 percent of crude oil and 65 percent of refined product. Problems occur throughout the industry, in storage facilities, refineries and tankers, and have similar consequences. Microorganisms grow inside the pipelines because water often accompanies hydrocarbons pumped from the ground. As reservoirs age, more water is pumped creating an even greater problem.
"For many years, no one ever thought anaerobes could grow by metabolizing hydrocarbons in the absence of oxygen, but that is simply wrong. The organisms are actually quite good at it. The underlying mechanisms will be even more important as we introduce newer biofuels to augment our fossil fuel supply. We are putting new fuel combinations into the existing pipelines that service the entire country. The new biofuels can be less stable, so there is a different problem to deal with. The chemistry of biofuels may not allow us to store them as long and more research is needed to determine the stability, compatability and composition of such fuel mixtures."
While biocorrosion and biodeterioration can be problematic, anaerobic hydrocarbon metabolism also has an upside. The OU researchers found that they can use their organisms to convert hydrocarbons in oil reservoirs to natural gas. "Because two-thirds of U.S. oil is still in place, we can use these organisms to convert residual hydrocarbons into natural gas and create a new source of domestic energy. The concept of anaerobic metabolism is an innovative process and the OU initiative is the only one of its kind in the United States at the present time. We are also experimenting with shales and other unconventional reservoirs."
"Biotechnology can influence recovery and address some of today's problems if we can understand how microorganisms degrade hydrocarbons in the absence of oxygen. OU is one of the top universities in the world to study anaerobic microbiology with 14 experts performing research in some aspect of this field. It is rare for universities to have even a single individual with this specialization. OU is an exciting place to be if you are an environmental microbiologist. This initiative has unified this group of experts and led to the groundbreaking research we have just begun to understand."
"We know that bacterial cells communicate much like those that cause disease. If we know the language they use, we can send signals and interrupt their communications so they will change their behavior. The best way to treat the biocorrosion problem has not yet been determined. Active ongoing monitoring of pipelines tells us there is an ongoing process, but we need to get to the problem before it gets to the critical stage. Some and perhaps most microorganisms are not routinely monitored, so we have to understand the role they play in this process-information we can use to more effectively diagnose and treat the consequences."
The University of Oklahoma
Science News and Science Current Events Tag Cloud
This tag cloud is a visual representation of term frequencies of random science news topics with common terms grouped together and emphasized by their display size.
Positron emission tomography Heart Surgery Circumcision Sustainable Energy Quantum Physics Brain Imaging Neurotransmitter Cell Membrane Chimpanzees Rem Sleep Saturns Rings Huntington's disease Language Development Weight Loss Fossil Fuel Autism Upper Atmosphere Drought Drug Addiction Plastic Surgery Ankylosing Spondylitis Hip Fracture Stereotypes Liver Injury Public Health
See More: Science News Tags
Microorganisms Current Events and Microorganisms News RSSMaking nanoparticles in artificial cells
Two new construction manuals are now available for the world's smallest lamps. Based on these protocols, scientists from the Max Planck Institute of Colloids and Interfaces have tailor-made nanoparticles that can be used as position lights on cell proteins and, possibly in the future as well, as light sources for display screens or for optical information technology.
Plant protein 'doorkeepers' block invading microbes, study finds
A group of plant proteins that "shut the door" on bacteria that would otherwise infect the plant's leaves has been identified for the first time by a team of researchers in Denmark, at the University of California, Davis, and at UC Berkeley.
Nickel isotope may be methane producing microbe biomarker
Nickel, an important trace nutrient for the single cell organisms that produce methane, may be a useful isotopic marker to pinpoint the past origins of these methanogenic microbes, according to Penn State and University of Bristol, UK, researchers.
Israeli scientists show bacteria can plan ahead
Bacteria can anticipate a future event and prepare for it, according to new research at the Weizmann Institute of Science.
University of Colorado team finds definitive evidence for ancient lake on Mars
A University of Colorado at Boulder research team has discovered the first definitive evidence of shorelines on Mars, an indication of a deep, ancient lake there and a finding with implications for the discovery of past life on the Red Planet.
Plant Microbe Shares Features with Drug-Resistant Pathogen
An international team of scientists has discovered extensive similarities between a strain of bacteria commonly associated with plants and one increasingly linked to opportunistic infections in hospital patients.
A tiny frozen microbe may hold clues to extraterrestrial life
A novel bacterium that has been trapped more than three kilometres under glacial ice in Greenland for over 120 000 years, may hold clues as to what life forms might exist on other planets.
Zebra mussels hang on while quagga mussels take over
The zebra mussels that have wreaked ecological havoc on the Great Lakes are harder to find these days - not because they are dying off, but because they are being replaced by a cousin, the quagga mussel. But zebra mussels still dominate in fast-moving streams and rivers.
Unexpected discovery can open a new chapter in the fight against tuberculosis
A close relative of the microorganism that causes tuberculosis in humans has been found to form spores.
Research identifies 3-D structure of key nuclear pore building block
The genome of complex organisms is stashed away inside each cell's nucleus, a little like a sovereign shielded from the threatening world outside.
More Microorganisms Current Events and Microorganisms News Articles
 |
Brock Biology of Microorganisms (12th Edition) by Michael T. Madigan (Author), John M. Martinko (Author), Paul V. Dunlap (Author), David P. Clark (Author) The authoritative text for introductory microbiology, Brock Biology of Microorganisms, 12/e, continues its long tradition of impeccable scholarship, outstanding art and photos, and accuracy. It balances the most current coverage with the major classical and contemporary concepts essential for understanding microbiology. Now reorganized for greater flexibility and updated with new content, the authors’ clear, accessible writing style speaks to today’s readers while maintaining the depth and precision they need. Microorganisms and Microbiology, A Brief Journey to the Microbial World, Chemistry of Cellular Components, Structure/Function in Bacteria and Archaea, Nutrition, Culture and Metabolism of Microorganisms, Microbial Growth, Essentials of Molecular... |
 |
Freshwater Microbiology: Biodiversity and Dynamic Interactions of Microorganisms in the Aquatic Environment by Wiley This unique textbook takes a broad look at the rapidly expanding field of freshwater microbiology. Concentrating on the interactions between viruses, bacteria, algae, fungi and micro-invertebrates, the book gives a wide biological appeal. Alongside conventional aspects such as phytoplankton characterisation, seasonal changes and nutrient cycles, the title focuses on the dynamic and applied aspects that are not covered within the current textbooks in the field. Complete coverage of all fresh water biota from viruses to invertebrates Unique focus on microbial interactions including coverage of biofilms, important communities on all exposed rivers and lakes. New information on molecular and microscopical techniques including a study of gene exchange between bacteria in... |
 |
A World of Microorganisms (Microlife/2nd Edition) by Robert Snedden (Author) |
 |
Microorganisms, Fungi, and Plants (Holt Science & Technology) by Katy Z. Allen (Author), Linda R. Berg (Author) |
 |
Prepared Microscope Slides - Microorganisms by Other Set of 12 microorganism prepared microscope slides includes Spirogyra and more. |
 |
Earlex RayCop - Mattress Vacuum Cleaner With Micro-Organism Killing UV Light by Earlex The Ewbank Earlex RayCop is a wonderful new product that should be used by all people who suffer from allergies, and people who fight with Asthma on a seemingly daily basis. This machine uses UV-C rays to sterilize up to 99.9% of all micro organisms that are living inside your mattress. Studies show you spend 1/3 of your life in your bed, but it is usually the place you clean the least, if at all! In an average mattress, there are approximately 1-2 million dust mites living in the average persons mattress. Dust Mites feed on our dead skin cells, which are also very numerous in the average mattress. With the combination of UV-C Anti-Bacterial Ray, a vibrating pad that loosens the dust mites, and throws them directly into the UV ray, and a strong vacuum that sucks all the now dead dust... |
 |
Soil Mineral-Organic Matter-Microorganism Interactions and Ecosystem Health : Dynamics, Mobility and Transformation of Pollutants and Nutrients by Elsevier Science 623435-28a.gif Volume A deals with the dynamics, mobility and transformation of pollutants and nutrients. Soil is a dynamic system in which soil minerals constantly interact with organic matter and microorganisms. Close association among abiotic and biotic entities governs several chemical and biogeochemical processes and affects bioavailability, speciation, toxicity, transformations and transport of xenobiotics and organics in soil environments. This book elaborates critical research and an integrated view on basic aspects of mineral weathering reactions; formation and surface reactivity of soil minerals with respect to nutrients and environmental pollutants; dynamics and transformation of metals, metalloids, and natural and anthropogenic organics; effects of soil colloids on... |
 |
Essential Probiotics - 3 Billion Viable Microorganisms As Lactobacillus Acidophilus, Lactobacillus Rhamnosus, and Bifidobacterium Longum by Being Well at Hillcrest Experts agree that to qualify as a high quality probiotic supplement, the beneficial bacteria must reach the site of action in the gut in quantities large enough to produce the desired effect. This is accomplished In TheraDophilusTM by using three compatible microbial strains with clinically documented activity and implantation ability: L. acidophilus R0052, L. rhamnosus R0011, and Bifidobacterium longum. Patent-pending microencapsulation technology is used to coat the fragile bacteria with vegetable derived fatty acids, thus helping to protect the microorganisms from destruction by stomach acid and thereby enhance viability. This process also dramatically increases shelf-life at room temperature so that refrigeration is not required. Essential Probiotics is a good choice for helping to... |
 |
Worm Bin Creatures Alive Through a Microscope Starring: Microorganisms Directed By: Warren Hatch This captivating video zeroes in on the tiny organisms often seen but rarely identified in a worm bin. Under Warren's microscope, well-lit colorful, and in focus, busy little creatures such as springtails and mites amuse and entertain as they busily go about in search of food or shelter. Concise, interesting, and informative narration makes this video not only fun to watch, but another excellent teaching tool for all ages. |
 |
Airpura UV600 Microorganisms Filtration Air Purifier by Airpura Features: Activated Carbon and HEPA filters filter airborne chemicals, odors and particles. UV Germicidal lamp sterilizes antigens, pathogens and mold spores. Warranty: Limited Warranty 5 years parts 10 years labor. 17 inches germicidal surface U shaped lamp. 40 square foot HEPA filtration surface. Effective for up to 2000 square feet. Dimensions: 22" high, 15" wide. 18 pounds Carbon. |
| © 2009 BrightSurf.com |