Environmental microbiology

Environmental microbiology

Environmental microbiology is the study of the composition and physiology of microbial communities in the environment. The environment in this case means the soil, water, air and sediments covering the planet and can also include the animals and plants that inhabit these areas. Environmental microbiology also includes the study of microorganisms that exist in artificial environments such as bioreactors.

Microbial life is amazingly diverse and microorganisms literally cover the planet. It is estimated that we know fewer than 1% of the microbial species on Earth. Microorganisms can survive in some of the most extreme environments on the planet and some, for example the Archaea, can survive high temperatures, often above 100°C, as found in geysers, black smokers, and oil wells. Some are found in very cold habitats and others in highly saline, acidic, or alkaline water.cite book | author = Blum P (editor). | title = Archaea: New Models for Prokaryotic Biology | publisher = Caister Academic Press | year = 2008 | id = ISBN 978-1-904455-27-1]

An average gram of soil contains approximately one billion (1,000,000,000) microbes representing probably several thousand species. Microorganisms have special impact on the whole biosphere. They are the backbone of ecosystems of the zones where light cannot approach. In such zones, chemosynthetic bacteria are present which provide energy and carbon to the other organisms there. Some microbes are decomposers which have ability to recycle the nutrients. Microbes have a special role in biogeochemical cycles. Microbes, especially bacteria, are of great importance because their symbiotic relationship (either positive or negative) have special effects on the ecosystem.

Microorganisms are used for "in-situ" microbial biodegradation or bioremediation of domestic, agricultural and industrial wastes and subsurface pollution in soils, sediments and marine environments. The ability of each microorganism to degrade toxic waste depends on the nature of each contaminant. Since most sites typically have multiple pollutant types, the most effective approach to microbial biodegradation is to use a mixture of bacterial species and strains, each specific to the biodegradation of one or more types of contaminants. It is vital to monitor the composition of the indigenous and added bacteria in order to evaluate the activity level and to permit modifications of the nutrients and other conditions for optimizing the bioremediation process.cite book | author = Diaz E (editor). | title = Microbial Biodegradation: Genomics and Molecular Biology | edition = 1st ed. | publisher = Caister Academic Press | year = 2008 | id = ISBN 978-1-904455-17-2]

Oil biodegradation

Petroleum oil is toxic, and pollution of the environment by oil causes major ecological concern. Oil spills of coastal regions and the open sea are poorly containable and mitigation is difficult; much of the oil can, however, be eliminated by the hydrocarbon-degrading activities of microbial communities, in particular the hydrocarbonoclastic bacteria (HCB). These organisms can help remedy the ecological damage caused by oil pollution of marine habitats. HCB also have potential biotechnological applications in the areas of bioplastics and biocatalysis.cite book |author=Martins VAP et al|year=2008|chapter=Genomic Insights into Oil Biodegradation in Marine Systems|title=Microbial Biodegradation: Genomics and Molecular Biology|publisher=Caister Academic Press|id= ISBN 978-1-904455-17-2]

Degradation of aromatic compounds by "Acinetobacter"

Acinetobacter strains isolated from the environment are capable of the biodegradation of a wide range of aromatic compounds. The predominant route for the final stages of assimilation to central metabolites is through catechol or protocatechuate (3,4-dihydroxybenzoate) and the beta-ketoadipate pathway and the diversity within the genus lies in the channelling of growth substrates, most of which are natural products of plant origin, into this pathway.cite book | author = Gerischer U (editor). | title = Acinetobacter Molecular Biology | publisher = Caister Academic Press | year = 2008 | id = ISBN 978-1-904455-20-2]

Analysis of waste biotreatment

Biotreatment, the processing of wastes using living organisms, is an environmentally friendly alternative to other options for treating waste material. Bioreactors] have been designed to overcome the various limiting factors of biotreatment processes in highly controlled systems. This versatility in the design of bioreactors allows the treatment of a wide range of wastes under optimized conditions. It is vital to consider various microorganisms and a great number of analyses are often required.cite book |author=Watanabe K and Kasai Y|year=2008|chapter=Emerging Technologies to Analyze Natural Attenuation and Bioremediation|title=Microbial Biodegradation: Genomics and Molecular Biology|publisher=Caister Academic Press|id= ISBN 978-1-904455-17-2]

Environmental genomics of Cyanobacteria

The application of molecular biology and genomics to environmental microbiology has led to the discovery of a huge complexity in natural communities of microbes. Diversity surveying, community fingerprinting and functional interrogation of natural populations have become common, enabled by a range of molecular and bioinformatics techniques. Recent studies on the ecology of Cyanobacteria have covered many habitats and have demonstrated that cyanobacterial communities tend to be habitat-specific and that much genetic diversity is concealed among morphologically simple types. Molecular, bioinformatics, physiological and geochemical techniques have combined in the study of natural communities of these bacteria.cite book| author = Garcia-Pichel F|year=2008 |chapter =Molecular Ecology and Environmental Genomics of Cyanobacteria | title = The Cyanobacteria: Molecular Biology, Genomics and Evolution | publisher = Caister Academic Press | id = ISBN 978-1-904455-15-8]


Corynebacteria are a diverse group Gram-positive bacteria found in a range of different ecological niches such as soil, vegetables, sewage, skin, and cheese smear. Some, such as "Corynebacterium diphtheriae", are important pathogens while others, such as "Corynebacterium glutamicum", are of immense industrial importance. "C. glutamicum" is one of the biotechnologically most important bacterial species with an annual production of more than two million tons of amino acids, mainly L-glutamate and L-lysine.cite book | author = Burkovski A (editor). | title = Corynebacteria: Genomics and Molecular Biology | publisher = Caister Academic Press | year = 2008 | id = ISBN 978-1-904455-30-1]


"Legionella" is common in many environments, with at least 50 species and 70 serogroups identified. "Legionella" is commonly found in aquatic habitats where its ability to survive and to multiply within different protozoa equips the bacterium to be transmissible and pathogenic to humans.cite book | author = Heuner K, Swanson M (editors). | title = Legionella: Molecular Microbiology | publisher = Caister Academic Press | year = 2008 | id = ISBN 978-1-904455-26-4 ]


Originally, Archaea were once thought of as extremophiles existing only in hostile environments but have since been found in all habitats and may contribute up to 20% of total biomass. Archaea are particularly common in the oceans, and the archaea in plankton may be one of the most abundant groups of organisms on the planet. Archaea are subdivided into four phyla of which two, the Crenarchaeota and the Euryarchaeota, are most intensively studied.cite book | author = Blum P (editor). | title = Archaea: New Models for Prokaryotic Biology | publisher = Caister Academic Press | year = 2008 | id = ISBN 978-1-904455-27-1 ]


"Lactobacillus" species are found in the environment mainly associated with plant material. They are also found in the gastrointestinal tract of humans, where they are symbiotic and make up a portion of the gut flora.cite book |author= Ljungh A, Wadstrom T (editors)| year=2009 |title=Lactobacillus Molecular Biology: From Genomics to Probiotics | publisher=Caister Academic Press | id= ISBN 978-1-904455-41-7]


In the late 1800s and early 1900s, Sergei Winogradsky, Russian microbiologist, pioneered the investigation of microbial auto trophy, and initiated the field of Environmental Microbiology. He was a strong supporter of examining freshly-isolated organisms rather than 'domesticated' laboratory strains.One of the methods he developed for the study of microbial nutrient cycling in the environment is what is now known as the "Windogradsky column". These can be set up in an amazing variety of ways to study sulfur, nitrogen, carbon, phosphorus, or other nutrients, most often cycling between the upper aerobic zone and the lower anaerobic zone. [ [http://www.sumanasinc.com/webcontent/animations/content/winogradsky.html The Winogradsky Column ] ] [ [http://www.microbiologytext.com/index.php?module=Book&func=displayarticle&art_id=32 The Microbial World :: They rule ] ]

ee also

* Microbial biodegradation
* Bioremediation
* Biotransformation
* Microbiology
* Sergei Winogradsky
* Industrial microbiology


External links

* [http://www.horizonpress.com/gateway/biodegradation.html Microbial Biodegradation, Bioremediation and Biotransformation]
* [http://www.horizonpress.com/gateway/environmental-microbiology.html Environmental Microbiology]

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