A treatment method for a river system in a reservoir area, comprising: S1. determining whether a time from a current date to the rainy season is less than a preset duration; S2. moving a pressure sensor upward; S3. determining whether the pressure data meets corresponding conditions; S4. determining whether a duration of the pressure data is less than the preset duration; S5. determining whether an interval between the current time and the time for collecting pressure/nitrogen and phosphorus is greater than a preset number of days; S6. acquiring an image information of a river bottom, and sending it to neural network model for identification to obtain a depth of a sludge; S7. determining whether the depth of a sludge has reached a dredging depth, if so, starting a sludge pump to clean up; S8. collecting nitrogen and phosphorus concentration, and removing nitrogen and phosphorus when the concentration exceeds a standard.

A treatment method for a river system in a reservoir area, comprising: S1. determining whether a time from a current date to the rainy season is less than a preset duration; S2. moving a pressure sensor upward; S3. determining whether the pressure data meets corresponding conditions; S4. determining whether a duration of the pressure data is less than the preset duration; S5. determining whether an interval between the current time and the time for collecting pressure/nitrogen and phosphorus is greater than a preset number of days; S6. acquiring an image information of a river bottom, and sending it to neural network model for identification to obtain a depth of a sludge; S7. determining whether the depth of a sludge has reached a dredging depth, if so, starting a sludge pump to clean up; S8. collecting nitrogen and phosphorus concentration, and removing nitrogen and phosphorus when the concentration exceeds a standard.

A plant growth medium, including: (a) a first segment; (b) a second segment; and (c) wherein the first segment comprises one or more nutrient(s) optimized for an initial stage of plant development, and wherein the second segment comprises one or more nutrient(s) optimized for a subsequent stage of plant development. The plant growth medium may optionally include additional segments for optimized plant growth and/or development.

A plant growth medium, including: (a) a first segment; (b) a second segment; and (c) wherein the first segment comprises one or more nutrient(s) optimized for an initial stage of plant development, and wherein the second segment comprises one or more nutrient(s) optimized for a subsequent stage of plant development. The plant growth medium may optionally include additional segments for optimized plant growth and/or development.

The disclosed composition for fertilization and treating trees, shrubs and climbing plants with programmed release of the active substance is comprising the active substance stored in capsules made by nanoencapsulation or microencapsulation method and wherein based on capsule membrane the time of release of the active substance is adjusted. The active component stored in the nanocapsules or microcapsules can be such that it acidifies the surrounding soil in the range of pH 2,5 to pH 6,5. One example of such active component is the use of citric acid, which is completely ecological and does not create environmental pollution. Also, the active component in the nanocapsules can be such that it regulates the acidity of the soil in the range of pH 6,5 to pH 7,0. Furthermore, the active component in the special capsules can be an insecticide and/or in the special capsules fungicide, and/or in the special capsules acaricide and/or in the special capsules pheromone and/or in the special capsules repellent.

The disclosed composition for fertilization and treating trees, shrubs and climbing plants with programmed release of the active substance is comprising the active substance stored in capsules made by nanoencapsulation or microencapsulation method and wherein based on capsule membrane the time of release of the active substance is adjusted. The active component stored in the nanocapsules or microcapsules can be such that it acidifies the surrounding soil in the range of pH 2,5 to pH 6,5. One example of such active component is the use of citric acid, which is completely ecological and does not create environmental pollution. Also, the active component in the nanocapsules can be such that it regulates the acidity of the soil in the range of pH 6,5 to pH 7,0. Furthermore, the active component in the special capsules can be an insecticide and/or in the special capsules fungicide, and/or in the special capsules acaricide and/or in the special capsules pheromone and/or in the special capsules repellent.

A method for disinfecting explants of Kadsura coccinea stems with buds and a method for directly inducing rapid proliferation of sterile buds by using the explants of Kadsura coccinea stems with buds involve processes such as selection, treatment and disinfection of explants, primary culture, subculture proliferation culture. The problem of difficulty in tissue culture and primary culture of Kadsura coccinea stems is solved, and the advantages include low contamination rate of explants, high propagation rate and robust proliferation of axillary buds. This allows obtaining sterile axillary buds of Kadsura coccinea through tissue culture, and provides support for tissue culture, rapid propagation and factory seedling of Kadsura coccinea in the future.

A method for disinfecting explants of Kadsura coccinea stems with buds and a method for directly inducing rapid proliferation of sterile buds by using the explants of Kadsura coccinea stems with buds involve processes such as selection, treatment and disinfection of explants, primary culture, subculture proliferation culture. The problem of difficulty in tissue culture and primary culture of Kadsura coccinea stems is solved, and the advantages include low contamination rate of explants, high propagation rate and robust proliferation of axillary buds. This allows obtaining sterile axillary buds of Kadsura coccinea through tissue culture, and provides support for tissue culture, rapid propagation and factory seedling of Kadsura coccinea in the future.

The present disclosure provides protection inserts comprising a discrete substrate-forming material holding a nutrient composition, the nutrient composition comprising a combination of nutrients for supporting selective growth of one or more bacteriocin-producing bacterium on said substrate and being essentially free of externally added microorganisms Also disclosed herein is a consumer goods package comprising goods to be protected and a protection insert disclosed herein as well as methods of protecting goods making use of the insert disclosed herein.

The present disclosure provides protection inserts comprising a discrete substrate-forming material holding a nutrient composition, the nutrient composition comprising a combination of nutrients for supporting selective growth of one or more bacteriocin-producing bacterium on said substrate and being essentially free of externally added microorganisms Also disclosed herein is a consumer goods package comprising goods to be protected and a protection insert disclosed herein as well as methods of protecting goods making use of the insert disclosed herein.