An aquacultured shrimp contains carotenoid and does not have a broken 2nd antenna.

The present invention generally relates to an aquatic farming system (200) comprising one or more stacked levels of an array of one or more aquatic farming modules (100). Each aquatic farming module (100) comprises an intermodal container (102) comprising a pair of opposing side walls (104) and a pair of opposing end entrances (106), and a housing structure (110) disposed in the intermodal container (102) and extending between the side walls (104) thereof. The aquatic farming module (100) further comprises a set of access doors (130) disposed at one or both end entrances (106) of the intermodal container (100), the access doors (130) actuatable planarly for selectively opening/closing the respective end entrances (106). Selective opening/closing of the end entrances (106) of the intermodal containers (102) in each stacked level facilitates user accessibility to the housing structures (110) in said stacked level for farming aquatic organisms.

A circular integrated ecological breeding and planting system including a plurality of units capable of growing vegetables, producing worms, breeding and raising chickens, and growing seaweed is provided to collectively construct a simplified simulated food. It not only unifies the lower and upper ecological food chains, but also minimizes pollution and undesirable waste. The system is particularly suitable for enclosed and intensive production within a single enclosed building to greatly reduce the production cost. This proposed eco-agricultural model has applications beyond its current configuration and can be applied to grow other plants, and to breed and raise other animals in the future.

A circular integrated ecological breeding and planting system including a plurality of units capable of growing vegetables, producing worms, breeding and raising chickens, and growing seaweed is provided to collectively construct a simplified simulated food. It not only unifies the lower and upper ecological food chains, but also minimizes pollution and undesirable waste. The system is particularly suitable for enclosed and intensive production within a single enclosed building to greatly reduce the production cost. This proposed eco-agricultural model has applications beyond its current configuration and can be applied to grow other plants, and to breed and raise other animals in the future.

An aquaculture system can include an aquafarm with one or more aquatic pods of aquatic organisms and a remote device to manage the aquafarm. An aquatic pod may be associated with an aquatic structure with a buoyancy system and a control device to automatically perform daily farming functions. The aquatic structure may include an enclosure to hold the aquatic organisms. The control device may be configured to use a smart buoyancy assistant to control the buoyancy system and to determine the farming task to perform in response to environmental stimuli. The remote device can receive data representing crop metrics, harvest results, and sensor data. The remote device can aggregate data from multiple aquatic pods and correlate the data to generate aquaculture models to improve the harvest results. The remote device can generate overview and maintenance reports for the aquafarm.

The present invention relates to a method of raising an aquatic animal in an aquaculture system, the method comprising: (a) contacting the aquaculture system with a water-treatment composition over a first period of time, wherein the water-treatment composition comprises Bacillus subtilis, Bacillus amyloliquefaciens, Bacillus licheniformis, Bacillus pumilus, Bacillus mojavensis, Pediococcus acidilactici, Pediococcus pentosaceus, and Lactobacillus plantarum; and (b) contacting the aquaculture system with a feed additive composition to feed the aquatic animal over a second period of time, wherein the feed additive composition comprises Pediococcus acidilactici, Pediococcus pentosaceus, Lactobacillus plantarum, and Bacillus subtilis 34 KLB.

A system and method for the long-term preservation of crustaceans, particularly crawfish. Certain embodiments sort quantities of live crawfish into tightly-packaged bags for rapid freezing to minimize damage to the crawfish and enhance the effectiveness of the preservation process.

A system and method for the long-term preservation of crustaceans, particularly crawfish. Certain embodiments sort quantities of live crawfish into tightly-packaged bags for rapid freezing to minimize damage to the crawfish and enhance the effectiveness of the preservation process.

In certain aspects, disclosed herein are novel compositions and methods related to aquaculture.

In certain aspects, disclosed herein are novel compositions and methods related to aquaculture.