Team:Bielefeld-Germany/Environment
From 2012.igem.org
Line 12: | Line 12: | ||
__NOTOC__ | __NOTOC__ | ||
[[File:Bielefeld2012_Env_Interview.jpg|150px|thumb|left|'''Figure 1:''' Dipl.-Biol. Nicolai Fricke of the [http://www.vti.bund.de/de/startseite/institute/foe.html Heinrich von Thünen-Institute of Fisheries Ecology.]]] | [[File:Bielefeld2012_Env_Interview.jpg|150px|thumb|left|'''Figure 1:''' Dipl.-Biol. Nicolai Fricke of the [http://www.vti.bund.de/de/startseite/institute/foe.html Heinrich von Thünen-Institute of Fisheries Ecology.]]] | ||
- | + | == Introduction == | |
- | + | ||
We interviewed Nicolai Fricke, an expert of the [http://www.vti.bund.de/de/startseite/institute/foe.html Heinrich von Thünen-Institute of Fisheries Ecology] to get a brief abstract about the problems, which we want to solve. | We interviewed Nicolai Fricke, an expert of the [http://www.vti.bund.de/de/startseite/institute/foe.html Heinrich von Thünen-Institute of Fisheries Ecology] to get a brief abstract about the problems, which we want to solve. | ||
- | + | == Questions == | |
'''How strong is the effect of steroid hormones onto aquatic organisms?''' | '''How strong is the effect of steroid hormones onto aquatic organisms?''' | ||
There needs to be a differentiation between marine ecological systems and freshwater ecological systems. There are a lot of references, that indicate a strong influence on aquatic organisms. In the baltic sea serious concentrations above the no-effect level have been detected. The concentration of vitellogenin (a protein indicating hormone pollution) has been significantly increased and substances such as estrogens could be detected. | There needs to be a differentiation between marine ecological systems and freshwater ecological systems. There are a lot of references, that indicate a strong influence on aquatic organisms. In the baltic sea serious concentrations above the no-effect level have been detected. The concentration of vitellogenin (a protein indicating hormone pollution) has been significantly increased and substances such as estrogens could be detected. | ||
Line 30: | Line 29: | ||
And of course marine systems are very fragile. No one can predict the consequences of a collapsing big marine ecological system. Even the costs and the influence on the local economy can hardly be predicted. Even higher costs and an unfavorable cost-benefit evaluation of an alternative system for waste water treatment may be acceptable to prevent dramatic ecological problems. | And of course marine systems are very fragile. No one can predict the consequences of a collapsing big marine ecological system. Even the costs and the influence on the local economy can hardly be predicted. Even higher costs and an unfavorable cost-benefit evaluation of an alternative system for waste water treatment may be acceptable to prevent dramatic ecological problems. | ||
- | + | == Conclusion == | |
The seriousness of the problems of aquatic organisms are much bigger then we thought. Some ecological systems are close to collapsing and the aftereffects can only be predicted. Damage to local economy would be unavoidable. Therefore it is time for alternative applications to show that hormones can be eliminates. | The seriousness of the problems of aquatic organisms are much bigger then we thought. Some ecological systems are close to collapsing and the aftereffects can only be predicted. Damage to local economy would be unavoidable. Therefore it is time for alternative applications to show that hormones can be eliminates. |
Revision as of 14:51, 26 October 2012
Introduction
We interviewed Nicolai Fricke, an expert of the [http://www.vti.bund.de/de/startseite/institute/foe.html Heinrich von Thünen-Institute of Fisheries Ecology] to get a brief abstract about the problems, which we want to solve.
Questions
How strong is the effect of steroid hormones onto aquatic organisms? There needs to be a differentiation between marine ecological systems and freshwater ecological systems. There are a lot of references, that indicate a strong influence on aquatic organisms. In the baltic sea serious concentrations above the no-effect level have been detected. The concentration of vitellogenin (a protein indicating hormone pollution) has been significantly increased and substances such as estrogens could be detected. Many fish species spawn in coastal waters, where the highest concentrations of hormones could be detected. The further away the input sources of hormones are, the smaller are the effects. In rivers the problem with hormones is far bigger. Feminization could be shown for several fish species in rivers. But effect could also been shown for crustaceans and microorganisms.
Do you think that commonly used methods for wastewater treatment are sufficient for elimination of hormones? The currently used methods are definitely not sufficient for elimination, effects on fish species constantly increase.
Do you think that alternative methods could possibly solve this problem? In the end it is always about the costs. If alternative systems can be produced less cost-intensive, chances are they will find their way into commercial applications. And of course marine systems are very fragile. No one can predict the consequences of a collapsing big marine ecological system. Even the costs and the influence on the local economy can hardly be predicted. Even higher costs and an unfavorable cost-benefit evaluation of an alternative system for waste water treatment may be acceptable to prevent dramatic ecological problems.
Conclusion
The seriousness of the problems of aquatic organisms are much bigger then we thought. Some ecological systems are close to collapsing and the aftereffects can only be predicted. Damage to local economy would be unavoidable. Therefore it is time for alternative applications to show that hormones can be eliminates.
55px |