An apparatus for cultivation of long-stem vegetable plants, related system, methods and uses are provided. The apparatus includes a frame rack with at least one essentially horizontal cultivation platform configured to support a stem portion of at least one long-stem vegetable plant rooted in a static cultivation tray, wherein each the cultivation platform is established by a conveying device and wherein speed of the conveying device is adjustable such, as to correspond to the speed of plant growth.

An apparatus for cultivation of long-stem vegetable plants, related system, methods and uses are provided. The apparatus includes a frame rack with at least one essentially horizontal cultivation platform configured to support a stem portion of at least one long-stem vegetable plant rooted in a static cultivation tray, wherein each the cultivation platform is established by a conveying device and wherein speed of the conveying device is adjustable such, as to correspond to the speed of plant growth.

The present invention provides novel bean cultivar Achiever and plant parts, seed, and tissue culture therefrom. The invention also provides methods for producing a bean plant by crossing the bean plants of the invention with themselves or another bean plant. The invention also provides bean plants produced from such a crossing as well as plant parts, seed, and tissue culture therefrom.

The present invention provides novel snap pea cultivar Sugar 153 and plant parts, seed, and tissue culture therefrom. The invention also provides methods for producing a pea plant by crossing the pea plants of the invention with themselves or another pea plant. The invention also provides pea plants produced from such a crossing as well as plant parts, seed, and tissue culture therefrom.

The present invention discloses a method and system for providing horticultural light to a plant. The said method and system includes at least one computer, at least one database, a communication network and a horticultural light emitting diode (LED) array configured to provide light to plants. The user provides an input to the computer and said computer accesses the databases to identify an outdoor light spectrum corresponding to the said input. Further, the said computer determines LED instruction parameters corresponding to the identified outdoor light spectrum and communicates the identified LED instruction parameters to the horticultural LED array. The horticultural LED array receives said instruction parameters and produces emission corresponding to the said outdoor light spectrum. The said outdoor light spectrum produced by the said horticultural LED array shines on at least one plant that corresponds to the selected user inputs.

The present invention relates to a method for producing consumer-ready vegetables, mushrooms or herbs, comprising the steps of culturing vegetables, mushrooms or herbs in a closed container under suitable growing conditions until maturity; and transferring the container with the mature vegetable, mushrooms or herb to a retail outlet. The culturing of the vegetables, mushrooms or herbs until maturity takes suitably place in or in the vicinity of the retail outlet. The invention further relates to a set for performing the method and to the container comprising the mature vegetables, mushrooms or herbs.

The present invention relates to a method for producing consumer-ready vegetables, mushrooms or herbs, comprising the steps of culturing vegetables, mushrooms or herbs in a closed container under suitable growing conditions until maturity; and transferring the container with the mature vegetable, mushrooms or herb to a retail outlet. The culturing of the vegetables, mushrooms or herbs until maturity takes suitably place in or in the vicinity of the retail outlet. The invention further relates to a set for performing the method and to the container comprising the mature vegetables, mushrooms or herbs.

The invention provides seed and plants of the bean line designated SV1137GF. The invention thus relates to the plants, seeds and tissue cultures of bean line SV1137GF, and to methods for producing a bean plant produced by crossing a plant of bean line SV1137GF with itself or with another bean plant, such as a plant of another line. The invention further relates to seeds and plants produced by such crossing. The invention further relates to parts of a plant of bean line SV1137GF, including the pods and gametes of such plants.

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.