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Page 1: Bioremediation

Ecology

Page 2: Bioremediation

THE BASIC PROBLEM:RELEASE OF HAZARDOUS MATERIALS

Enormous quantities of organic & inorganic compounds are released into the environment each year as a result of human activities.

The release may be:Deliberate and well regulated (industrial

emissions)Accidental and largely unavoidable

(chemical/oil spills)US EPA estimated that in 1980 at least 57

millions metric tons of the total waste can be categorized into three general groups:

Lecturer
This include organic chemicals, inorganic chemicals, biological organisms and radionuclides.
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Heavy metal, Pb, Hg, Cd, Ni and Be can accumulate in various organs, interfere with normal enzymatic reactions and cause disease including cancer

Chlorinated hydrocarbons, also known as organochlorides including pesticides and other organic compounds such as PCB (polychlorinated biphenyls) Research proven a positive correlation between cancer

in lab animals and organochlorides.

Nuclear waste including radioactive material such as plutonium which are dangerous for thousands of years

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is defined as the process whereby organic wastes are biologically degraded under controlled conditions to an innocuous state, or to levels below concentration limits established by regulatory authorities.

Simply:

The use of bacteria and fungi and plants to break down or degrade toxic chemical compounds that have accumulated in the environment

BioremediationBioremediation

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BIOREMEDIATION

It requires the control and manipulation of microbial processes in surface reactors or in the subsurface.

The contaminants can be biodegraded in situ or removed and placed in bioreactor (at or off the contamination sites).

Idea:To isolate microbes that can degrade or eat a

particular contaminant

To provide the conditions whereby it can do this most effectively, thereby eliminating the contaminant

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MICROORGANISMS

ENERGYSOURCE

ELECTRON ACCEPTOR

MOISTURE pH

NUTRIENTS TEMPERATURE

ABSENCE OFTOXICITY

REMOVAL OFMETABOLITIES

ABSENCE OFCOMPETITIVEORGANISMS

BIOREMEDIATION

Lecturer
The requirements for biodegradation in descending order of importance. Of prime importance are microorganisms capable of producing enzymes that will degrade hazardous chemicals (target compound). Enzymes degrade compounds through exploitation of the organism's energy needs.
Lecturer
microorganisms gain their energy through oxidation-reduction (redox) reactions, therefore an energy source and electron acceptor are important.
Lecturer
adequate moisture, pH, nutrients and temperature for cellular growth
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Microbial DivisionsTwo kinds of cells are recognized, the procaryotic

and eucaryotic.

The most important groups to bioremediation are bacteria and fungi.

Procaryotic cell Eucaryotic cell

Bacteria

Blue-green bacteria or cyanobacteria

Plants

Animals

Rotifers

Protozoa

Fungi

Most algae

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Microorganisms destroy organic contaminants in the course of using the chemicals for their own growth and reproduction.

Organic chemicals provide: carbon, source of cell building material,

electrons, source of energy

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TYPES OF BIOREMEDIATION

The two main types of bioremediation are in situ bioremediation and ex situ bioremediation. In addition, another offshoot of bioremediation is phytoremediation.

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In Situ BioremediationIn situ bioremediation is when the contaminated

site is cleaned up exactly where it occurred.

It is the most commonly used type of bioremediation because it is the cheapest and most efficient, so it’s generally better to use.

There are two main types of in situ bioremediation: intrinsic bioremediation and accelerated bioremediation.

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Intrinsic BioremediationIntrinsic bioremediation uses

microorganisms already present in the environment to biodegrade harmful contaminant.

There is no human intervention involved in this type of bioremediation, and since it is the cheapest means of bioremediation available, it is the most commonly used.

When intrinsic bioremediation isn’t feasible, scientists turn next to accelerated bioremediation.

Lecturer
IB relies on the intrinsic (naturally occurring)supplies of electron acceptors, nutrients, and other necessary materialsto develop biologically active zone and prevent the migration of contaminants away from the source.Involves no engineered measures to increase the supply rates of oxygen, nutrients or other stimulants.
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Accelerated Bioremediation

In accelerated bioremediation, either substrate or nutrients are added to the environment to help break down the toxic spill by making the microorganisms grow more rapidly.

Usually the microorganisms are indigenous, but occasionally microorganisms that are very efficient at degrading a certain contaminant are additionally added.

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Main advantage is that site disturbance is minimized, which is particularly important when the contaminated plume has moved under permanent structures.

Biggest limitation of in situ treatment has been the inability to deal effectively with metal contaminants mixed with organic compounds.

The goal of in situ treatment is to manage and manipulate the subsurface environment to optimize microbial degradation.

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In Situ BioremediationLand treatments:

Bioventing is the most common in situ treatment and involves supplying air and nutrients through wells to contaminated soil to stimulate the indigenous bacteria.

Lecturer
contaminants are trapped in the unsaturated zone (also known as vadose zone) above the water table, the easiest way to supply oxygen is by pulling air through the unsaturated soil.vacuum pumps create negative pressure that sweeps air through the soil and past the contaminated soil.by passing air through the unsaturated zone evaporates moisture and can dessicate the soil enough that microbiological activity is slowed down or prevented.
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In situ biodegradation involves supplying oxygen and nutrients by circulating aqueous solutions through contaminated soils to stimulate naturally occurring bacteria to degrade organic contaminants.

Bioaugmentation Bioremediation frequently involves the addition of microorganisms indigenous or exogenous to the contaminated sites.

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Biosparging involves the injection of air under pressure below the water table to increase groundwater oxygen concentrations and enhance the rate of biological degradation of contaminants by naturally occurring bacteria.

Biosparging increases the mixing in the saturated zone and thereby increases the contact between soil and groundwater.

Lecturer
Originally developed in Europe, and has become a popular means of engineered bioremediation in North America for strictly aerobic biodegradation. Biosparging can strip volatile contaminants from the saturated zone into the unsaturated zone and a vapor-capture system.Not effective when low-permeability geological zones trap or divert the gas flow.
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Ex Situ Bioremediationwhich is when contaminated land are taken out

of the area to be cleaned up by the organisms.

This type of bioremediation is generally used only when the site is threatened for some reason, usually by the spill that needs to be cleaned up.

Ex situ bioremediation is only used when necessary because it’s expensive and damaging to the area, since the contaminated land is physically removed.

Lecturer
Most applicable for small, heavily contaminated sources and when a rapid site cleanup is desired.Excavation incurs major costs and potentially increases exposure to workers and those who reside nearby.
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Ex Situ BioremediationLandfarming is a simple technique in which

contaminated soil is excavated and spread over a prepared bed and periodically tilled until pollutants are degraded.

Composting is a technique that involves combining contaminated soil with non-hazardous organic compounds such as agricultural wastes.

The presence of these organic materials supports the development of a rich microbial population and elevated temperature characteristic of composting.

Lecturer
LF is a simple, low tech form of ex situ bioremediation.contaminated solids are mixed into the surface layer of topsoil. nutrients and moisture can be added initially and throughout the treatment period to optimize conditions for microbial growth.
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Landfarming & Compost

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Bioreactors-Slurry reactors or aqueous reactors are used for ex situ treatment of contaminated soil and water pumped up from a contaminated plume.

Bioremediation in reactors involves the processing of contaminated solid material (soil, sediment, sludge) or water through an engineered containment system.

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PhytoremediationPhytoremediation is the use of plants to clean up

potentially damaging spills.

The plants work with soil organisms to transform contaminants, such as heavy metals and toxic organic compounds, into harmless or valuable forms.

Classified based on the contaminant fate: Phytoextraction, Phytotransformation, Phytostabilization, Phytodegradation, Rhizofiltration

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Advantages of bioremediation

Bioremediation is a natural process and is therefore perceived by the public

Bioremediation is useful for the complete destruction of a wide variety of contaminants.

Instead of transferring contaminants from one environmental medium to another, for example, from land to water or air, the complete destruction of target pollutants is possible.

Advantages and Disadvantages

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AdvBioremediation can often be carried out

on site, often without causing a major disruption of normal activities.

Bioremediation can prove less expensive than other technologies that are used for cleanup of hazardous waste

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4. Advantages and Disadvantages (2/2)

Disadvantages of bioremediation

Bioremediation is limited to those compounds that are biodegradable. Not all compounds are susceptible to rapid and complete degradation.

There are some concerns that the products of biodegradation may be more persistent or toxic than the parent compound.

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Biological processes are often highly specific. microbial populations, suitable environmental growth conditions, and appropriate levels of nutrients and contaminants.

It is difficult to extrapolate (deduce) from bench and pilot-scale studies to fullscale field operations.

Bioremediation often takes longer than other treatment options.

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Thanks for your attention!