A device comprises a dispenser assembly comprising a frame having a first surface and a second surface. The frame defines a pathway, an inlet opening in the first surface of the frame and a drain opening in the second surface of the frame. The inlet opening and the drain opening may provide access to the pathway. The device also includes a moveable member having at least one bore oriented perpendicular to the pathway. The moveable member may be translatable within the pathway between a first position and a second position.

A device comprises a dispenser assembly comprising a frame having a first surface and a second surface. The frame defines a pathway, an inlet opening in the first surface of the frame and a drain opening in the second surface of the frame. The inlet opening and the drain opening may provide access to the pathway. The device also includes a moveable member having at least one bore oriented perpendicular to the pathway. The moveable member may be translatable within the pathway between a first position and a second position.

One example method includes receiving information indicating a population of wild insects within a geographic region; determining a number of wild insects per unit area within the geographic region; placing, based on the number of wild insects per unit area, one or more insect release points based on the number of wild insects per unit area, each insect release point indicating a release of a predefined quantity of insects; and generating an insect release route through the geographic region, the insect release route passing through each insect release point.

One example method includes receiving information indicating a population of wild insects within a geographic region; determining a number of wild insects per unit area within the geographic region; placing, based on the number of wild insects per unit area, one or more insect release points based on the number of wild insects per unit area, each insect release point indicating a release of a predefined quantity of insects; and generating an insect release route through the geographic region, the insect release route passing through each insect release point.

Enclosures for raising cocoon-forming insects are provided. The enclosures, and methods using those enclosures, provide simpler, safer, and more efficient insect raising and reduce the chances of spreading infectious diseases, for example, Ophryocystis Elektroscirrha, between sequential groups of insects being raised. Typically, a first enclosure and second enclosure provide for the growth of the insects until the cocoon is formed and a place for the cocoons to hang until the insects emerge, respectively.

Enclosures for raising cocoon-forming insects are provided. The enclosures, and methods using those enclosures, provide simpler, safer, and more efficient insect raising and reduce the chances of spreading infectious diseases, for example, Ophryocystis Elektroscirrha, between sequential groups of insects being raised. Typically, a first enclosure and second enclosure provide for the growth of the insects until the cocoon is formed and a place for the cocoons to hang until the insects emerge, respectively.

The present invention relates to a degenerative disease model Drosophila. More particularly, a technique is disclosed for alleviating the phenotypes of a degenerative disorder symptom of Drosophila. Using this technique, illumination with low dose radiation on a degenerative disease model Drosophila alleviates symptoms of the degenerative disease.

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 can 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.

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 can 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.

Embodiments of the present disclosure can provide an automated mass rearing system for insect larvae. The automated mass rearing system can facilitate hatching, feeding, monitoring the growth and emergence of insect larvae and pupae. In some embodiments, the automated mass rearing system can include a production unit, a transportation unit, a storage unit, a dispensing unit, and a monitoring unit. In some embodiments, this automated mass rearing system can facilitate mass mosquito growth from egg hatching all the way through to full adults or certain stages in between such as the larvae rearing process (i.e., from larvae to pupae) with little or no human intervention. By automating the rearing and transportation of insect eggs, larvae, and pupae, deaths or developmental issues can be minimized. Various techniques and apparatuses are used in this automation that causes minimal disturbance to the insects during development, and thereby maximizing survival rate and fitness of the insects.