Team:DTU-Denmark

From 2013.igem.org

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(Requiem for a Stream:From Ammonia Pollution to Energy Production via Denitrification)
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== Requiem for a Stream:<br>From Ammonia Pollution to Energy Production via Denitrification ==
== Requiem for a Stream:<br>From Ammonia Pollution to Energy Production via Denitrification ==
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Intense agriculture is the base of feeding a growing world population. However it comes at a cost for the environment. As the demand for food articles is steadily increasing farmers turn to extensive use of fertilizers and nitrogen-enriched animal feeds to increase their yield. Much of this nitrogen comes in the form of ammonia and accumulates in the argicultural runoff, which pollutes streams and the groundwater.  
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Intense agriculture is the base of feeding a growing world population. However it comes at a cost for the environment. As the demand for food articles is steadily increasing farmers turn to extensive use of fertilizers and nitrogen-enriched animal feeds to increase their yield. Much of this nitrogen comes in the form of ammonia and accumulates in the argicultural runoff, which pollutes surface bodies of water like lakes and streams but also the groundwater.  
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Our project removes ammonia from waste water, and via two ''E. coli'' mutants turns it into nitrous oxide.
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Our project is a requiem for those streams. Our goal is to remove surplus ammonia from wastewater, and via two ''E. coli'' mutants turn it into nitrous oxide.

Revision as of 08:38, 3 October 2013

Requiem for a Stream:
From Ammonia Pollution to Energy Production via Denitrification

Intense agriculture is the base of feeding a growing world population. However it comes at a cost for the environment. As the demand for food articles is steadily increasing farmers turn to extensive use of fertilizers and nitrogen-enriched animal feeds to increase their yield. Much of this nitrogen comes in the form of ammonia and accumulates in the argicultural runoff, which pollutes surface bodies of water like lakes and streams but also the groundwater. Our project is a requiem for those streams. Our goal is to remove surplus ammonia from wastewater, and via two E. coli mutants turn it into nitrous oxide.


Dtu overview.png

Ammonia is a common pollutant in agricultural runoff, and excess ammonia in the environment leads to increased algae growth and eutrophication, which starves other water-borne organisms for oxygen. Our project reverses nitrogen fixation, and is a means to clean up polluted streams and wastewater. The final product is nitrous oxide, which can be sold as an industrial product or reclaimed and used as a source of small scale sustainable energy.

For more information on the mutants, please see project details, and for information on the experiments we did to characterize the mutants, see an overview of the experiments we conducted. Also be sure to check out our online lab notebook, and the human practices events that we hosted.