Physiological processes in plants are regulated and reinforced, and crop vitality, yield, quality and post-harvesting storage life are improved. A plant vitalizer containing an amino acid or its salt and an oligosaccharide is applied to plants.

Physiological processes in plants are regulated and reinforced, and crop vitality, yield, quality and post-harvesting storage life are improved. A plant vitalizer that includes a cellooligosaccharide is applied to the plants.

The invention relates to pesticidal compositions comprising trisiloxane surfactants and a matrix-forming agent, which compositions are capable of controlling pests and pathogens using a physical mode of action. Accordingly, in one aspect, the present disclosure provides a pesticidal composition for controlling pests and pathogens with a physical mode of action. The composition comprises trisiloxane surfactants and matrix-forming agents. The composition may form a gel matrix or a film matrix. The trisiloxane surfactants may be selected from the group consisting of Silwet L-77, Silwet 408, Break-Thru S-240, and Silibase 2848. The matrixforming agents of a pesticidal composition are selected from the group consisting of chitosan salts and sol-gel precursors.

The invention relates to pesticidal compositions comprising trisiloxane surfactants and a matrix-forming agent, which compositions are capable of controlling pests and pathogens using a physical mode of action. Accordingly, in one aspect, the present disclosure provides a pesticidal composition for controlling pests and pathogens with a physical mode of action. The composition comprises trisiloxane surfactants and matrix-forming agents. The composition may form a gel matrix or a film matrix. The trisiloxane surfactants may be selected from the group consisting of Silwet L-77, Silwet 408, Break-Thru S-240, and Silibase 2848. The matrixforming agents of a pesticidal composition are selected from the group consisting of chitosan salts and sol-gel precursors.

The invention relates to inactivating mold spores in a beverage using pasteurization in the presence of natamycin and to a beverage comprising natamycin and mycosamine.

The invention relates to inactivating mold spores in a beverage using pasteurization in the presence of natamycin and to a beverage comprising natamycin and mycosamine.

A clathrate of 1-methylcyclopropene with α-cyclodextrin, obtained as a solid particulate product, is modified by comminuting, classifying, or both to obtain a modified particulate. When subjected to identical atmospheric disgorgement conditions of humidity and temperature, identical masses of the modified and unmodified particulates exhibit different rates of 1-methylcyclopropene disgorgement. Specifically, we have found that a smaller mean particle size is inversely related to a greater rate of 1-methylcyclopropene release.

The present disclosure provides a method for controlling Fusarium oxysporum f. sp. cubense tropical race 4 (Foc TR4). The present disclosure mainly aims to solve the problem of effectively inhibiting the Foc TR4, but the existing fungicides cannot effectively inhibit the Foc TR4 without damage to banana plants. By treating with the fungicide disclosed by the present disclosure, the growth of the Foc TR4 can be limited, and there is no adverse effect on banana plants.

The present disclosure provides a method for controlling Fusarium oxysporum f. sp. cubense tropical race 4 (Foc TR4). The present disclosure mainly aims to solve the problem of effectively inhibiting the Foc TR4, but the existing fungicides cannot effectively inhibit the Foc TR4 without damage to banana plants. By treating with the fungicide disclosed by the present disclosure, the growth of the Foc TR4 can be limited, and there is no adverse effect on banana plants.

A non-nematicidal composition comprises at least one glucan and/or at least one fucan which act individually or synergistically with mannitol to reduce losses in crop yield and marketable grade caused by the infestation of growth media with plant pathogenic nematodes, to levels equivalent to those achieved with commercial nematicides, but without posing a risk to the ecosystem or user. In some cases the composition comprises at least one glucan, at least one fucan and at least one mannitol which may be in a weight/weight ratio of approximately 1:2:3 of at least one glucan:at least one fucan:at least one mannitol or between approximately 1:1:1 to 1:1:3 of at least one glucan:at least one fucan:at least one mannitol.