Team:Bielefeld-Germany/Project/Description
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- | The pollution of waterbody and wastewater by endocrine disruptors is steadily increasing and is filtered by sewage treatment plants | + | The pollution of waterbody and wastewater by endocrine disruptors is steadily increasing and is only inadequately filtered by sewage treatment plants. Municipal and industrial wastewaters contain a variety of pollutants, such as estrogens and xeno-estrogens, which can cause severe disorders in humans and animals. By using synthetic estrogens in the place of natural estrogen in hormonal contraceptives, the natural hormone degradation is slowed down and the substances remain longer in water. The effect of hormonally active substances on the environment and humans is very complex. They can cause reduced fertility in both humans and animals and result in feminization of males and hermaphrodism, especially in aquatic animals. Besides synthetic estrogen, other chemical substances can also have the same effects on the nature, e.g. bisphenol A. These so-called endocrine substances can also be detected in wastewater. These substances belong to the chemical class of polycyclic aromatic hydrocarbons. |
- | Polycyclic aromatic hydrocarbons (PAHs) emerge from burning fossil fuels. They are bioaccumulating, toxic and have a low biodegradability. Furthermore, numerous polycyclic aromatic hydrocarbons are cancerogen, which illustrates the danger they pose to the environment. | + | Polycyclic aromatic hydrocarbons (PAHs) emerge from burning fossil fuels. They are bioaccumulating, toxic, and have a low biodegradability. Furthermore, numerous polycyclic aromatic hydrocarbons are cancerogen, which illustrates the danger they pose to the environment. |
- | Synthetic estrogens and polycyclic aromatic hydrocarbons are among the substances, which | + | Synthetic estrogens and polycyclic aromatic hydrocarbons are among the substances, which cannot be removed sufficiently by conventional wastewater purification methods. These microcontaminants affect associated aquatic or dependent terrestrial ecosystems and interfere with the existing or future uses of groundwater. Caused by the significant and sustained upward trends of concentrations of pollutants in the waterbody, the European Parliament is about to define limit values for the most problematic substances. |
- | To reduce the | + | To reduce the concentrations of microcontaminants in the waterbody, it is necessary to find new methods and solutions. Synthetic biology and the use of laccases may offer solutions especially for such substances. |
=The Potential Solution= | =The Potential Solution= | ||
The goal of Bielefeld's iGEM team is to develop a concept based on immobilized laccases for municipal and industrial wastewater purification. Besides toxic aromatic compounds, synthetic estrogens, which are persistent in nature, should particularly be depleted from wastewater. Moreover, laccases are also able to dehalogenate chlorophenols and are therefore suitable for the bioremediation and restoration of lindane and PCBs (biochlorinated biphenyls) contaminated soil. | The goal of Bielefeld's iGEM team is to develop a concept based on immobilized laccases for municipal and industrial wastewater purification. Besides toxic aromatic compounds, synthetic estrogens, which are persistent in nature, should particularly be depleted from wastewater. Moreover, laccases are also able to dehalogenate chlorophenols and are therefore suitable for the bioremediation and restoration of lindane and PCBs (biochlorinated biphenyls) contaminated soil. | ||
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Latest revision as of 23:08, 2 December 2012
Dangerous Contaminants in the Waterbody
The pollution of waterbody and wastewater by endocrine disruptors is steadily increasing and is only inadequately filtered by sewage treatment plants. Municipal and industrial wastewaters contain a variety of pollutants, such as estrogens and xeno-estrogens, which can cause severe disorders in humans and animals. By using synthetic estrogens in the place of natural estrogen in hormonal contraceptives, the natural hormone degradation is slowed down and the substances remain longer in water. The effect of hormonally active substances on the environment and humans is very complex. They can cause reduced fertility in both humans and animals and result in feminization of males and hermaphrodism, especially in aquatic animals. Besides synthetic estrogen, other chemical substances can also have the same effects on the nature, e.g. bisphenol A. These so-called endocrine substances can also be detected in wastewater. These substances belong to the chemical class of polycyclic aromatic hydrocarbons. Polycyclic aromatic hydrocarbons (PAHs) emerge from burning fossil fuels. They are bioaccumulating, toxic, and have a low biodegradability. Furthermore, numerous polycyclic aromatic hydrocarbons are cancerogen, which illustrates the danger they pose to the environment.
Synthetic estrogens and polycyclic aromatic hydrocarbons are among the substances, which cannot be removed sufficiently by conventional wastewater purification methods. These microcontaminants affect associated aquatic or dependent terrestrial ecosystems and interfere with the existing or future uses of groundwater. Caused by the significant and sustained upward trends of concentrations of pollutants in the waterbody, the European Parliament is about to define limit values for the most problematic substances. To reduce the concentrations of microcontaminants in the waterbody, it is necessary to find new methods and solutions. Synthetic biology and the use of laccases may offer solutions especially for such substances.
The Potential Solution
The goal of Bielefeld's iGEM team is to develop a concept based on immobilized laccases for municipal and industrial wastewater purification. Besides toxic aromatic compounds, synthetic estrogens, which are persistent in nature, should particularly be depleted from wastewater. Moreover, laccases are also able to dehalogenate chlorophenols and are therefore suitable for the bioremediation and restoration of lindane and PCBs (biochlorinated biphenyls) contaminated soil.
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