Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, enhanced feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, enhanced feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.

A formulation and a composition that comprises it for promoting the pollination of pear crops (Pyrus) by biasing the foraging preferences of the honey bee (Apis mellifera). The formulation comprises the compounds limonene, linalool and -pinene. Additionally, a method for targeting the bees' pollination activity towards the pear crops by using the formulation comprising the compounds limonene, linalool and -pinene.

A formulation and a composition that comprises it for promoting the pollination of pear crops (Pyrus) by biasing the foraging preferences of the honey bee (Apis mellifera). The formulation comprises the compounds limonene, linalool and -pinene. Additionally, a method for targeting the bees' pollination activity towards the pear crops by using the formulation comprising the compounds limonene, linalool and -pinene.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, enhanced feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, liquid mixing, shaping, cooking, flavoring, biocatalyst mixing, exoskeleton separation, liquid separation, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.

Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer operated Insect Production Superstructure Systems (IPSS) may be used to produce insects for human and animal consumption, and for the extraction and use of lipids for applications involving medicine, nanotechnology, consumer products, and chemical production with minimal water, feedstock, and environmental impact. An IPSS may comprise modules including feedstock mixing, enhanced feedstock splitting, insect feeding, insect breeding, insect collection, insect grinding, pathogen removal, multifunctional flour mixing, liquid mixing, shaping, cooking, flavoring, biocatalyst mixing, exoskeleton separation, liquid separation, and lipid extraction. An IPSS may be configured to be constructed out of a plurality of containerized modules.

An artificial diet for ghost moth larvae and a preparation method thereof. The artificial diet comprises root of Polygonum viviparum, soybean powder, bran, yeast powder, sucrose, casein, agar, water, choline chloride, ascorbic acid, sorbic acid, nipagin and multivitamin. After being fed for 60 days, third-instar larvae fed with the artificial diet showed an average survival rate of up to 92.67%, higher than those fed with carrots with an average survival rate of 90.33%. After being fed for 140 days, the larvae fed with the artificial diet showed an average survival rate of up to 86.67%, significantly higher than those fed with carrots with an average survival rate of 73.67%. Also, the larvae fed with the artificial diet showed significant increase in body weight, without the contamination of bacterium and fungi.

An artificial diet for ghost moth larvae and a preparation method thereof. The artificial diet comprises root of Polygonum viviparum, soybean powder, bran, yeast powder, sucrose, casein, agar, water, choline chloride, ascorbic acid, sorbic acid, nipagin and multivitamin. After being fed for 60 days, third-instar larvae fed with the artificial diet showed an average survival rate of up to 92.67%, higher than those fed with carrots with an average survival rate of 90.33%. After being fed for 140 days, the larvae fed with the artificial diet showed an average survival rate of up to 86.67%, significantly higher than those fed with carrots with an average survival rate of 73.67%. Also, the larvae fed with the artificial diet showed significant increase in body weight, without the contamination of bacterium and fungi.

The present disclosure describes bee feed products formulated to increase consumption and methods of feeding such products to bees. Feeding methods involve feeding a bee feed composition on an ad libitum basis to bees where the composition contains an amount of a flavor agent that results in increased consumption. The flavor agent may be hydrated with a liquid to form a solution in some examples. The flavor agent may also be mixed directly with the bee feed composition high in protein.

The present disclosure describes bee feed products formulated to increase consumption and methods of feeding such products to bees. Feeding methods involve feeding a bee feed composition on an ad libitum basis to bees where the composition contains an amount of a flavor agent that results in increased consumption. The flavor agent may be hydrated with a liquid to form a solution in some examples. The flavor agent may also be mixed directly with the bee feed composition high in protein.