In a method for treating wood, a wood treatment device for a long-term treatment of wood is provided. An active agent for wood treatment is applied to a carrier material and the carrier material provided with the active agent for wood treatment is introduced into the receiving space of a hollow cylindrical body of the wood treatment device. The wood treatment device is driven into the wood. A thrust pin of the wood treatment device is displaced to release a first outlet opening at an open end face of the hollow cylindrical body and a second outlet opening in a wall surface of the hollow cylindrical body of the wood treatment device to bring into contact the receiving space with the wood and to release the active agent for wood treatment into the wood. The wood treatment device is left behind in the wood.

A gardening apparatus includes one or more of a base, a fluid reservoir, and a plant tray or support disposed on the reservoir. The support is adapted for receiving one or more modular plant inserts, and can define a flow structure for channeling fluid to each insert. A pump supplies fluid from the reservoir to the plant tray or support, with a light assembly adapted to generate a spectrum of light for growth of plants from the inserts. A processor is configured for controlling fluid flow from the pump, the light spectrum generated by the lighting elements, or both. For example, the processor can use a dynamic recipe, algorithm or control schedule to modulate the fluid flow or spectrum based the plant type, growth stage, height, plant health data, digital phenotyping data, or ambient conditions, or a combination thereof.

A gardening apparatus includes one or more of a base, a fluid reservoir, and a plant tray or support disposed on the reservoir. The support is adapted for receiving one or more modular plant inserts, and can define a flow structure for channeling fluid to each insert. A pump supplies fluid from the reservoir to the plant tray or support, with a light assembly adapted to generate a spectrum of light for growth of plants from the inserts. A processor is configured for controlling fluid flow from the pump, the light spectrum generated by the lighting elements, or both. For example, the processor can use a dynamic recipe, algorithm or control schedule to modulate the fluid flow or spectrum based the plant type, growth stage, height, plant health data, digital phenotyping data, or ambient conditions, or a combination thereof.

Provided is a plant cultivation method that promotes plant growth and improves plant quality; also provided is a plant cultivation device. The plant cultivation method uses a nutrient liquid supply device that supplies a nutrient liquid to a plant, a fine bubble-generating device, a spraying device, and a control device. The plant cultivation method carries out plant cultivation by supplying the nutrient liquid in mist form, and comprises a first step in which an oxygen-containing gas is supplied as the gas into the nutrient liquid and the fine bubble-containing nutrient liquid is sprayed on the leaf surface of a plant, and a second step in which, after the first step, a carbon dioxide-containing gas is supplied as the gas into the nutrient liquid and the fine bubble containing nutrient liquid is sprayed on the leaf surface of the plant.

Provided is a plant cultivation method that promotes plant growth and improves plant quality; also provided is a plant cultivation device. The plant cultivation method uses a nutrient liquid supply device that supplies a nutrient liquid to a plant, a fine bubble-generating device, a spraying device, and a control device. The plant cultivation method carries out plant cultivation by supplying the nutrient liquid in mist form, and comprises a first step in which an oxygen-containing gas is supplied as the gas into the nutrient liquid and the fine bubble-containing nutrient liquid is sprayed on the leaf surface of a plant, and a second step in which, after the first step, a carbon dioxide-containing gas is supplied as the gas into the nutrient liquid and the fine bubble containing nutrient liquid is sprayed on the leaf surface of the plant.

The present invention is directed to an adjustable pressure injection device system for delivering an agent into a tree, comprising at least two fill bottles for containing the agent; a cap attached to the open end of the bottles, the cap comprising at least two ports and an on/off valve; a main line connected to the cap through a port, wherein the agent flows out of the bottle and into the main line; a parallel distribution system (PDS) connected to the main line, wherein the PDS comprises multiple ports, each port either being closed or connected to an injection line, and further wherein the PDS is optionally expandable by combining a PDS with additional PDS units; at least 2 injection lines connected to the PDS through the PDS ports, and an injection needle attached to each injection line, wherein the agent flows through the injection needle into the tree.

The present invention is directed to an adjustable pressure injection device system for delivering an agent into a tree, comprising at least two fill bottles for containing the agent; a cap attached to the open end of the bottles, the cap comprising at least two ports and an on/off valve; a main line connected to the cap through a port, wherein the agent flows out of the bottle and into the main line; a parallel distribution system (PDS) connected to the main line, wherein the PDS comprises multiple ports, each port either being closed or connected to an injection line, and further wherein the PDS is optionally expandable by combining a PDS with additional PDS units; at least 2 injection lines connected to the PDS through the PDS ports, and an injection needle attached to each injection line, wherein the agent flows through the injection needle into the tree.

A system for creating three-dimensional grass graphics can include a means for cutting grass with an adjustable cutting height, a chlorophyll-based agent for coloring grass, and at least one stencil. The chlorophyll-based agent can be non-detrimental to a health of the grass and can be available in multiple shades. The stencil can be securable to the grass and can define a graphic to be painted on the grass using the chlorophyll-based agent. The means for cutting the grass can be able to pass over and around the stencil without damaging the stencil. Application of different shades of the chlorophyll-based agent to varying heights of grass can produce a three-dimensional effect for the graphic when viewed.

A system for creating three-dimensional grass graphics can include a means for cutting grass with an adjustable cutting height, a chlorophyll-based agent for coloring grass, and at least one stencil. The chlorophyll-based agent can be non-detrimental to a health of the grass and can be available in multiple shades. The stencil can be securable to the grass and can define a graphic to be painted on the grass using the chlorophyll-based agent. The means for cutting the grass can be able to pass over and around the stencil without damaging the stencil. Application of different shades of the chlorophyll-based agent to varying heights of grass can produce a three-dimensional effect for the graphic when viewed.

The present invention includes a new formulation of a mono-alcohol having 12 to 19 carbon atoms or 20 to 30 carbon atoms, and its new methods of use in plants thereof.