A storage and release mechanism for aerial distribution and release of insects from an unmanned aerial vehicle, the release being aimed at controlling a wild insect population, the wild population having fluctuating local densities, the mechanism comprising a switch for switching between two or more different sustainable insect delivery rates for release of the insects. The method is particularly suitable for sterile male mosquitoes in programs to control wild mosquito populations.

A storage and release mechanism for aerial distribution and release of insects from an unmanned aerial vehicle, the release being aimed at controlling a wild insect population, the wild population having fluctuating local densities, the mechanism comprising a switch for switching between two or more different sustainable insect delivery rates for release of the insects. The method is particularly suitable for sterile male mosquitoes in programs to control wild mosquito populations.

An animal food composition comprising cannabis and two or more ingredients selected from the group consisting of insects, a fiber-starch material, a binding agent, a density improving textural supplement, and a moisture improving textural supplement is described. The animal food composition may include bacteria, fungi, water, fermentation waste, spent microorganisms, an alcohol production coproduct, scales of fish, soft tissues of fish, radulae of mollusks, taurine, a fatty acid, or meat. The composition includes inflammation reduction properties, cannabis volatile feedstock components and wherein the cannabis includes powdered cannabis, ground cannabis, or dried cannabis.

An animal food composition comprising cannabis and two or more ingredients selected from the group consisting of insects, a fiber-starch material, a binding agent, a density improving textural supplement, and a moisture improving textural supplement is described. The animal food composition may include bacteria, fungi, water, fermentation waste, spent microorganisms, an alcohol production coproduct, scales of fish, soft tissues of fish, radulae of mollusks, taurine, a fatty acid, or meat. The composition includes inflammation reduction properties, cannabis volatile feedstock components and wherein the cannabis includes powdered cannabis, ground cannabis, or dried cannabis.

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.

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.

The invention relates to a method for breeding insects, comprising growth phases during which the insects are stored in a controlled environment, said growth phases alternating with operating sequences during which at least one specific breeding operation is performed. The method comprises a sequence, referred to as synchronization sequence, during which a batch of insects is sorted and divided into a plurality of size or maturity categories in separate containers, then said containers (31, 32) are grouped together to form basic breeding units (UE) comprising a predefined number of containers (31, 32), a basic breeding unit (UE) comprising only insects of the same category.

The invention relates to a method for breeding insects, comprising growth phases during which the insects are stored in a controlled environment, said growth phases alternating with operating sequences during which at least one specific breeding operation is performed. The method comprises a sequence, referred to as synchronization sequence, during which a batch of insects is sorted and divided into a plurality of size or maturity categories in separate containers, then said containers (31, 32) are grouped together to form basic breeding units (UE) comprising a predefined number of containers (31, 32), a basic breeding unit (UE) comprising only insects of the same category.

There is provided a rearing apparatus for rearing an organism includes: a box-shaped rearing case; at least one perching member that is held in the rearing case and that is capable of perching the organism; and a separating member that is provided in the rearing case and that is movable along the perching member. The separating member is configured to separate the organism perched at the perching member from the perching member by the separating member moving along the perching member.

There is provided a rearing apparatus for rearing an organism includes: a box-shaped rearing case; at least one perching member that is held in the rearing case and that is capable of perching the organism; and a separating member that is provided in the rearing case and that is movable along the perching member. The separating member is configured to separate the organism perched at the perching member from the perching member by the separating member moving along the perching member.