A method by means of which the processing of plants can be carried out in a more time- and cost-efficient manner. For this purpose, at least one plant or a component of the plant is detected by an image-recognition device. Using the patterns and features of the plants recognized by the image-recognition device, at least one option for processing the plant is suggested to a person. Upon selection of at least one option by the person, the plant or the component of the plant is autonomously or automatically processed by a processing means.

A method by means of which the processing of plants can be carried out in a more time- and cost-efficient manner. For this purpose, at least one plant or a component of the plant is detected by an image-recognition device. Using the patterns and features of the plants recognized by the image-recognition device, at least one option for processing the plant is suggested to a person. Upon selection of at least one option by the person, the plant or the component of the plant is autonomously or automatically processed by a processing means.

The present invention relates to a method for producing a cutting for a standard form Hydrangea plant. The invention also relates to a method for producing a standard form Hydrangea plant and a flowering standard form Hydrangea plant obtainable with this method. The invention also relates to a Hydrangea cutting for a standard form Hydrangea plant.

Provided herein are methods for providing improved vigor, and especially priming or improving root formation, of plant cuttings and to plant cuttings obtained thereby. Specifically, the methods include the steps of a) contacting a plant cutting with a polymeric solution, or suspension, optionally including one or more plant growth promoting and/or plant protecting compounds, thereby providing a coated plant cutting; b) allowing the polymeric solution, or suspension, of the coated plant cutting to solidify into a complexed coating, thereby providing an encapsulated plant cutting. The encapsulated plant cutting is coated with the complexed coating from the basal cut surface or tip of the plant cutting to less than 60% of the total length of said plant cutting to partially encapsulate the plant cutting with the complexed coating.

A method for mass-producing plants includes a step of accommodating a liquid cultivation medium and a plant material into each of a plurality of culture bags that are configured so as to be capable of standing up without assistance by being opened up from a folded state, sealing openings of the culture bags, and arranging the sealed culture bags in a row in a predetermined cultivation space, and a step of cultivating the plant material within each of the plurality of culture bags with an interior of each of the plurality of culture bags arranged in a row in the cultivation space being maintained at an environment appropriate for cultivation of the plant material.

A method for mass-producing plants includes a step of accommodating a liquid cultivation medium and a plant material into each of a plurality of culture bags that are configured so as to be capable of standing up without assistance by being opened up from a folded state, sealing openings of the culture bags, and arranging the sealed culture bags in a row in a predetermined cultivation space, and a step of cultivating the plant material within each of the plurality of culture bags with an interior of each of the plurality of culture bags arranged in a row in the cultivation space being maintained at an environment appropriate for cultivation of the plant material.

The present disclosure relates to a new and distinct hybrid plant named Mr. Grass Weedly characterized by a hybrid between Cannabis sativa L. ssp. SativaCannabis sativa L. ssp. Indica (Lam.), characterized by a Cannabis sativa L. ssp. Sativa content ranging from 3 weight percent to 90 weight percent, Cannabis sativa L. ssp. Indica (Lam.) content ranging from 8 weight percent to 80 weight percent, a cannabidiol content ranging from 0.00005 weight percent to 15 weight percent, a tetrahydrocannabinol ranging from 5 weigh percent to 63 weigh percent, and a volatiles content ranging from between 30 weight percent to 90 weight percent. Variable-scale, modular, easily manufacturable, energy efficient, reliable, and computer-operated farming superstructure systems (FSS) may be used to produce Mr. Grass Weedly for human consumption with minimal water and environmental impact. A FSS system may comprise modules including liquid distribution and plant growing. A FSS may be configured to be constructed out of a plurality of containerized modules.

A plant propagation system is provided that includes a holder for holding at least two plants in relative spaced apart relation to enable a predetermined operation (such as, for example, a cutting operation) to be performed on each of the plants within the holder during a single pass.

A plant propagation system is provided that includes a holder for holding at least two plants in relative spaced apart relation to enable a predetermined operation (such as, for example, a cutting operation) to be performed on each of the plants within the holder during a single pass.

The presently claimed invention is related to a method for vegetative propagation of poplar trees (Populus sp.), from prepared leaf cuttings, wherein the method comprises the steps of: a) providing cuts of leaf cuttings from a donor tree, b) immersing the prepared leaf cutting into a combination of growth regulators, c) planting the prepared leaf cutting into a solid substrate of organic and/or inorganic origin, d) inducing sprouting and rooting of the prepared leaf cutting, by means of controlled ambient temperature, humidity and illumination, wherein steps a) through d) always occur outside an in vitro environment; and embodiments thereof.