Often, the limiting factor in cage stocking density is dissolved oxygen levels due to fish metabolism during slack water. The propellers used in this research provide an opportunity to supplement water flow through the cage during those brief events, thereby allowing larger crops of fish by boosting the dissolved oxygen within the cage.

One of the impacts of temperature rises is an accompanying decrease in the amount of dissolved oxygen in the water. It is possible that transportable cages such as those being developed at MIT might provide a mechanism to replenish dissolved oxygen within cages when sea temperatures rise during the coming decades.

In the future it could be a case that your mobile fish farm incorporates all the above and more. A vessel could be created that grows and monitors fish and located accordingly. As the fish mature and are ready for harvesting, the vessel could have on board facilities to prepare the fish for market. It would then only be a matter for the vessel to moor at the market door for delivery.

Another advantage I see of this type of technology is that the vessel could be located anywhere in the world to produce fish that the market demands. So if the market for salmon is a little low, they could give Tuna a go for a season or two.

http://www.forbes.com/technology/2008/09/23/aquaculture-fish-farms-tech-sciences-cz_jf_0924fish.html