A rooting agent for woody plants cutting includes raw materials of: sodium naphthalene-1-acetate, naphthalene acetamide, catechol, vitamin C, oxadixyl-mancozeb, boric acid, white sugar and urea. The rooting agent of the present invention contains various beneficial substances and rich nutrients and is easy absorbing. The rooting agent is capable of effectively improving rooting rate of woody plants cutting, and plants which are difficult to root has a high rooting rate after applying the rooting agent.

A rooting agent for woody plants cutting includes raw materials of: sodium naphthalene-1-acetate, naphthalene acetamide, catechol, vitamin C, oxadixyl-mancozeb, boric acid, white sugar and urea. The rooting agent of the present invention contains various beneficial substances and rich nutrients and is easy absorbing. The rooting agent is capable of effectively improving rooting rate of woody plants cutting, and plants which are difficult to root has a high rooting rate after applying the rooting agent.

An aeroponics system is provided which includes a rack with multiple shelves thereon and with a tray accommodated on each shelf. Light modules are located above each shelf. Each tray has a hood with openings therein leading into a hollow chamber and above a base which includes spray heads therein. Water from a reservoir upon the rack is pumped to each of the spray heads to provide a spray within the hollow chambers. Plant cuttings are placed passing through the openings in the hood so that lower portions of the cuttings can receive the spray (and nutrients added into the reservoir) for propagation of the plant cuttings.

The present invention relates to the cultivation (preferably indoor) of Hydrangea species for increased production of phyllodulcin and the provision of a plant material, preferably a dried plant material, having an increased content of phyllodulcin.

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.

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.

Disclosed herein are compositions and products of Arundo grass plants and methods of producing the same.

A method for the production of biomass including: planting rows of poplar saplings or cuttings of the species Populus nigra or Populus tremula in ridges with a density greater than 40,000 units per hectare; cutting the plantation annually at the ridge level for a period of 15 to 20 years, and obtaining in each annual cut poplar stalks having a length less than 7 meters and a diameter less than 6 centimeters, and cutting the poplar stalks transversely into substantially cylindrical blocks of biomass having an adjustable length and a variable diameter, coinciding with the diameter of the poplar stalks in the cutting areas.

The present invention is directed at a method to produce a substantial number of seeds (e.g., 10,000) from a single plant. The method involves growing a mother plant under conditions designed to substantially maintain the mother plant in a vegetative state and substantially delay reaching reproductive stage. Then, removing the apical meristem once the mother plant has reached a desired stage of growth. The method further involves removing one or more branches from the mother plant (as branch cuttings). The method additionally involves maintaining each of the branch cuttings in growth media under acclimation conditions until each of the branch cuttings resume growing vegetatively as clone plants, then inducing the clone plants to flower and once the clone plants have been induced to flower, returning them to vegetative growth conditions. The clone plants are then maintained under vegetative growth conditions until they have produced a desired number of seeds.

The present invention is directed at a method to produce a substantial number of seeds (e.g., 10,000) from a single plant. The method involves growing a mother plant under conditions designed to substantially maintain the mother plant in a vegetative state and substantially delay reaching reproductive stage. Then, removing the apical meristem once the mother plant has reached a desired stage of growth. The method further involves removing one or more branches from the mother plant (as branch cuttings). The method additionally involves maintaining each of the branch cuttings in growth media under acclimation conditions until each of the branch cuttings resume growing vegetatively as clone plants, then inducing the clone plants to flower and once the clone plants have been induced to flower, returning them to vegetative growth conditions. The clone plants are then maintained under vegetative growth conditions until they have produced a desired number of seeds.