Bioremediation can be defined as any process that uses microorganisms, fungi, green plants or their enzymes to return the natural environment altered by contaminants to its original condition.
Bioremediation uses living organisms to clean up contaminated soil or water. Despite its broad definition, bioremediation usually refers specifically to the use of microorganisms. Bioremediation is a combination of two words - bio, short for biological, and remediation, which means to remedy. The use of plants to clean up the environment, known as phytoremediation, is also considered a type of bioremediation.Bioremediation can occur on its own (natural attenuation or intrinsic bioremediation) or can be spurred on via the addition of fertilizers to increase the bioavailability within the medium (biostimulation). Recent advancements have also proven successful via the addition of matched microbe strains to the medium to enhance the resident microbe population's ability to break down contaminants. Microorganisms used to perform the function of bioremediation are known as bioremediators.
Bioremediation can be harmful if not properly monitored and managed. There is a risk of releasing toxins into the environment if certain bacteria or fungi used in the process are not properly contained or if the process fails to completely break down contaminants. Additionally, bioremediation could inadvertently impact non-target organisms or disrupt the ecosystem if not implemented carefully.
Uranium bioremediation is a process that uses microorganisms to clean up environments contaminated with uranium. These microorganisms can either immobilize the uranium in the soil or convert it into less harmful forms, reducing its toxicity and environmental impact. This technique is considered a more environmentally friendly and cost-effective alternative to traditional remediation methods.
Gibberella fusarium is a soil fungus that is normally pathogenic but it does help to breakdown crude oil spilled in soils.
Some examples of algae used in bioremediation include Chlorella, Spirulina, and Euglena. These species have the ability to absorb and metabolize pollutants such as heavy metals, nutrients, and organic compounds from contaminated water bodies, contributing to the cleanup of polluted environments.
Bioremediation of petroleum is not effected by amount of oxygen present
yes, bioremediation is very safe because it used bacteria to clean up contaminated environments.
so hows everyone here in this website bioremediation
John T. Cookson has written: 'Bioremediation Engineering' -- subject(s): Bioremediation
The correct spelling is bioremediation and not bioremediation. Bioremediation is using deliberately introduced or naturally occurring microorganisms to break down environmental pollutants. Other forms of life can be used to consume the pollutants as well. The process cleans up a polluted area.
Bioremediation is using a species to clean up a specific area.
Bioremediation microbes
when recovering metals from ores
Eve Riser-Roberts has written: 'Bioremediation of petroleum contaminated sites' -- subject(s): Petroleum, Bioremediation, Biodegradation
Bioremediation is a process that uses microorganisms to remove or neutralize contaminants in the environment. These microorganisms break down pollutants into less harmful substances through metabolic processes. By enhancing the activity of these naturally occurring organisms, bioremediation can help to clean up soil, water, and air pollution.
Bioremediation is a process that uses microorganisms to break down or remove contaminants from a polluted area. These microorganisms can metabolize organic pollutants into less harmful substances or extract and concentrate metals for easier removal. Bioremediation can occur naturally or be enhanced through the introduction of specific microorganisms.
J. L Sims has written: 'In-situ bioremediation of contaminated ground water' -- subject(s): In situ bioremediation, Groundwater, Pollution