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Revision as of 02:53, 13 October 2018
To solve this environmental problem that caused by CC, we invent this Ark! It can float on the surface of water and use solar energy to collect CC like a “marine cage”.
So you may wonder, how can we do that? The Ark has been carefully designed : The core device is bio-conveyor. There is a track which our biofilm adhere to and it can shuttle between environment and interior periodically. The track and biofilm constitute bio-conveyor.
The outside water can pass through the turbine, allowing CC to be absorbed by the bio-conveyor. When the part of loaded conveyor is rotated into the inner of the Ark, it can release what it has absorbed earlier. That enables our Ark to collect CC continuously from the environment.
So, how does the bio-conveyor work—CC collection? The secret lies in our biological part. Actually, this biofilm is formed by both engineered bacteria and algae.
To achieve our goal, we construct this advanced multiorganism system—both bacteria and algae play a very important role in it.
1.Our bacteria:
We choose E.coli BL.21 as our chassis. Bacteria play a core role in the system since all the engineered process happens in them. We transformed two plasmids into them: one is responsible for element collection and the other is responsible for biofilm formation.
2.Algae perfectly match with bacteria:
Firstly, bacteria alone can’t survive and grow well in sewage environment, since there are many chemicals, organic agents and even antibiotics in the polluted water. However, the EPS(exopolysubstance) excreted by algae can give bacteria protect and resistance to make them work well.
Secondly, since we want to make it work in lakes or ocean, it will be better if it can work automatically. But toughly, to collect the diffused element is an anti-entropy matter, and it needs energy! In this situation, our algae can perfectly solve this problem by providing bacteria carbonhydrate through photosynthesis.
In next session—design, we will introduce how our bacteria collect specific element and stabilize the symbiotic biofilm through two pathways.