A breakable pearl containing a spore that, when activated, produces a fungus that is fatal to bed bugs, and a protective cover that prevents water from reaching the spore and causing it to germinate prematurely. Pearls are sprayed onto floors and furniture, and the spores are released only when the pearls are broken by bed bugs walking across them. The pearls have a water-resistant outer cover and a fragile inner cover such that they can be crushed by bed bugs walking over them. The pearls can be applied through traditional sprayers or as infused on one side of adhesive tape. When a bed bug touches the pearl, it breaks and the spore attaches itself to the bed bug's oily skin. Since it takes up to two weeks for the fungus to kill the bed bug, it will infect other bed bugs before it dies.

A breakable pearl containing a spore that, when activated, produces a fungus that is fatal to bed bugs, and a protective cover that prevents water from reaching the spore and causing it to germinate prematurely. Pearls are sprayed onto floors and furniture, and the spores are released only when the pearls are broken by bed bugs walking across them. The pearls have a water-resistant outer cover and a fragile inner cover such that they can be crushed by bed bugs walking over them. The pearls can be applied through traditional sprayers or as infused on one side of adhesive tape. When a bed bug touches the pearl, it breaks and the spore attaches itself to the bed bug's oily skin. Since it takes up to two weeks for the fungus to kill the bed bug, it will infect other bed bugs before it dies.

Compositions and methods for controlling pests are disclosed. The compositions can be electrostatically charged, can be attractive for translocation by the social insects into nesting, tunneling, and/or gathering structures of the social insects, or both. Kits comprising the compositions and a powder delivery device operable to electrostatically charge a pest control composition during delivery are also disclosed.

Compositions and methods for controlling pests are disclosed. The compositions can be electrostatically charged, can be attractive for translocation by the social insects into nesting, tunneling, and/or gathering structures of the social insects, or both. Kits comprising the compositions and a powder delivery device operable to electrostatically charge a pest control composition during delivery are also disclosed.

The subject invention provides microbe-based compositions comprising cultivated microorganisms and/or growth by-products thereof, as well as methods and systems for producing and using these compositions. More specifically, the subject invention provides microbe-based compositions comprising biologically pure yeast selected from the Pichia clade, and/or growth by-products thereof, such as biosurfactants, enzymes and solvents. Methods of using these compositions to enhance production in agriculture, horticulture, livestock rearing and aquaculture industries are also provided.

The subject invention provides microbe-based compositions comprising cultivated microorganisms and/or growth by-products thereof, as well as methods and systems for producing and using these compositions. More specifically, the subject invention provides microbe-based compositions comprising biologically pure yeast selected from the Pichia clade, and/or growth by-products thereof, such as biosurfactants, enzymes and solvents. Methods of using these compositions to enhance production in agriculture, horticulture, livestock rearing and aquaculture industries are also provided.

The subject invention provides microbe-based compositions comprising cultivated microorganisms and/or growth by-products thereof, as well as methods and systems for producing and using these compositions. More specifically, the subject invention provides microbe-based compositions comprising biologically pure yeast selected from the Pichia clade, and/or growth by-products thereof, such as biosurfactants, enzymes and solvents. Methods of using these compositions to enhance production in agriculture, horticulture, livestock rearing and aquaculture industries are also provided.

A method for producing an antimicrobial agent is provided. The method includes co-fermenting at least one seed of Lepidium Sativum and at least one yeast in a growth media to produce a yeast lees co-fermented by-product. The yeast lees by-product is then applied to a growth medium and at least one cell of Ganoderma Lucidum as a liquid medium under controlled conditions to produce mycelium and the liquid medium is agitated. The liquid medium is then filtered to isolate and extract an antimicrobial agent.

A method for producing an antimicrobial agent is provided. The method includes co-fermenting at least one seed of Lepidium Sativum and at least one yeast in a growth media to produce a yeast lees co-fermented by-product. The yeast lees by-product is then applied to a growth medium and at least one cell of Ganoderma Lucidum as a liquid medium under controlled conditions to produce mycelium and the liquid medium is agitated. The liquid medium is then filtered to isolate and extract an antimicrobial agent.

A method for producing an antimicrobial agent is provided. The method includes co-fermenting at least one seed of Lepidium Sativum and at least one yeast in a growth media to produce a yeast lees co-fermented by-product. The yeast lees by-product is then applied to a growth medium and at least one cell of Ganoderma Lucidum as a liquid medium under controlled conditions to produce mycelium and the liquid medium is agitated. The liquid medium is then filtered to isolate and extract an antimicrobial agent.