The present invention relates to feedstuffs for use in aquaculture, as well as methods for producing said feedstuffs. The invention also provides methods for rearing fish and/or crustaceans. In particular, the present invention provides a method of rearing a fish or crustacean, the method comprising feeding the fish or crustacean a feedstuff comprising lipid, the fatty acid of said lipid comprising at least 5.5% (w/w) stearidonic acid (SDA).

The present invention provides a method for editing the genome of at least one cell of a crustacean embryo, the method including contacting a crustacean embryo or a cell thereof with an effective amount of a gene editing agent. Further provided is a crustacean including at least one cell comprising an edited genome, obtained according to the method of the invention.

The present invention discloses a biological control composition comprising a cultivated rearing population of Phytoseiulus persimilis (P. persimilis) predatory mite individuals, and optionally a carrier material, wherein at least 5% of the P. persimilis individuals comprise within their genome at least one Single Nucleotide Polymorphism (SNP) marker associated with the trait of improved rearing properties on a non-Tetranychid arthropod prey as a factious host, preferably on an immobilized non-Tetranychid arthropod prey, such as on an Astigmatid prey, most preferably on an immobilized Astigmatid prey, as compared to a P. persimilis population characterized by less than 5% individuals comprising within their genome said at least one SNP marker.

The present invention relates to a modified Slmyc2 gene, which may comprise at least one modification as compared to the wild type sequence of SEQ ID No. 5, which modification leads to the reduction or absence of SlMYC2 protein activity, wherein the modified Slmyc2 gene is capable of conferring an aberrant glandular hair phenotype to a Solanum lycopersicum plant. The modification may be suitably selected from a modification that decreases the mRNA level of the Slmyc2 gene, a modification that decreases the level of the SlMYC2 protein and/or a modification that decreases the activity of the SlMYC2 protein, as compared to the wild type Slmyc2 gene of SEQ ID No. 5.

The present invention relates to a modified Slmyc2 gene, which may comprise at least one modification as compared to the wild type sequence of SEQ ID No. 5, which modification leads to the reduction or absence of SlMYC2 protein activity, wherein the modified Slmyc2 gene is capable of conferring an aberrant glandular hair phenotype to a Solanum lycopersicum plant. The modification may be suitably selected from a modification that decreases the mRNA level of the Slmyc2 gene, a modification that decreases the level of the SlMYC2 protein and/or a modification that decreases the activity of the SlMYC2 protein, as compared to the wild type Slmyc2 gene of SEQ ID No. 5.

Methods are disclosed for the production of mammalian voltage-gated ion channels in ciliates. In other aspects, compositions comprising lipid bilayers containing mammalian voltage-gated ion channels are disclosed. In other aspects, compositions comprising purified and reconstituted mammalian voltage-gated ion channels are disclosed.

This invention is directed to methods for manipulating sex, reversing sex, changing sex ratio, or moderating crustacean androgenic gland peptide expression in crustaceans for producing a monosex culture. In one embodiment, the present method comprises the step of injecting a dsRNA for the gene of IAG into a male crustacean. In another embodiment, the present method comprises the step of injecting a dsRNA for the gene of IAG into a female crustacean that had acquired a spermatophore (a sperm sac) after mating with a male. In another embodiment, the present invention provides a method of producing a monosex culture of crustacean by introducing a recombinant IAG peptide into the female crustacean, thereby obtains male with altered sexual characteristics for mating with a normal female. In one embodiment, the crustacean is a shrimp or lobster.

An automated oyster maturation system including a containment assembly rotatably disposed within a housing. The containment assembly includes a spiral construction that includes compartments that are in communication with one another, walls that define the compartments, and ramps. Openings disposed in the walls and ramps increase in size from the outer diameter to the inner diameter of the spiral construction so that, with every complete rotation of the containment assembly, every oyster will tumble further into the spiral construction and ascend from its original compartment into the adjacent inner compartment where opening size is larger than in the original compartment such that only oysters which have grown sufficiently remain in the adjacent inner compartment while oysters that have not grown sufficiently yet will fall through the openings of the adjacent inner compartment into the original compartment.

Methods, systems, and apparatus, including computer programs encoded on computer-storage media, for sensor data processing. The method may include the actions of obtaining sensor data regarding aquatic livestock over periods of time, where the sensor data is captured by at least one sensor at different depths, determining, for each of the periods of time, whether the sensor data captured at different depths during the period of time satisfy one or more evaluation criteria, generating an input data set that concatenates representations of the periods of time, providing the input data set to a machine-learning trained model, receiving, as an output from the machine-learning trained model, an indication of an action to be performed for the aquatic livestock, and initiating performance of the action for the aquatic livestock.