A method and system for planting seedlings including a seedling handling system, a seedling chute system and a planting head. The method includes retrieving a row of seedlings and then delivering the row of seedlings to the planting head for individual planting of the seedlings.

The invention relates to a stackable container including a holding body, which has a bottom and a lateral wall, which bound a holding chamber. The holding body has stacking elements, which can be moved from a first position (P1) to a second position (P2) and which alternatively allow at least two such stackable containers to be stacked one inside the other and to be stacked one on the other. The holding body also has at least one drain opening in the region of the bottom of the holding body, and the bottom is designed to hold moisture and/or liquid present in the holding chamber and to guide the moisture and/or liquid toward the at least one drain opening. At least one of the stacking elements has a drain groove, which is designed to hold and to lead away moisture and/or liquid.

A horticultural raft includes a raft body, at least one top cavity, and a group of mid cavities. The top cavity includes an upper face defining a first projected area and a lower face defining a second projected area substantially equal to or less than the first projected area. The upper face provides a seeding pattern having one or two degrees of freedom in a growing medium disposed in the top cavity. Each mid cavity has an upper face defining a third projected area that is entirely contained within the second projected area. The mid cavities are configured to contribute to buoyancy of the floating horticultural raft, allow germinants in the growing medium to communicate via capillary action with a nutrient solution when the raft is floating in the nutrient solution, and mitigate hyperhydration and asphyxiation at respective root-stem junctions of the germinants.

An insert for growing plants, including a plurality of receptacles, adapted for insertion into a container, wherein each of the receptacles is arranged for receiving a separate plant with a portion of gel for feeding the plant. The receptacles may be arranged to allow communication between the portions of gel in the receptacles to allow the plants to share a common feed reservoir of the gel.

The present invention relates to an apparatus and system for transporting a length of growth medium cut into pieces of suitable size into a propagation tray.

A propagation tray for growing a plurality of plug plants in bounded transplantable growing media has two spaced apart aperture plates. The plug plants are held loosely in the apertures in a top plate while retained at the apertures in the bottom plate over air cells associated with and under the apertures in the bottom plate. The air cells provide a volume into which roots from the plug plant may grow, and the air cells have at least one port for drainage and/or ventilation and toward which roots are guided to be air pruned. The propagation tray maximizes air flow around the plug for air pruning of roots, while minimizing contact of the plug with the structures on the tray to reduce the formation of root defects.

A seedling raising device includes: a cell plug for seedling raising that is formed as a single pot body; and a supporting device configured to detachably arrange and support a plurality of cell plugs, wherein the supporting device is capable of supporting the cell plug in either one of a first supporting position where the cell plug is slidably supported in a horizontal direction and a second supporting position where the cell plug is detachably supported in an upward direction.

A cultivation and sampling method for plants grown in a multi-section sampling device, the sampling device including an upper section with an upper section identifier and a number of cultivation containers, and a lower section with a lower section identifier and an equal number of sample containers. When the sampling device is in an assembled position, the upper section is connected to the lower section such that the sample containers are arranged to correspond to the cultivation containers being underneath them.

A sampling device for plants having a lower section with a plurality of sample containers, an upper section with a plurality of cultivation containers, a cutter and a cutting tip, wherein a base opening is formed in each cultivation container and corresponds to a sample container opening of one of the sample containers, and wherein the cutter and cutting tip are arranged, when the sampling device is in a usage position, between the upper section and the lower section such that a part of a plant protruding out through the base opening of the cultivation container and in through the sample container opening into the sample container can be severed by the cutter and cutting tip.

The present invention may relate to Aeroponic Systems and their individual elements. More particularly to automated systems capable of monitoring and adjusting some if not all of the light, nutrient, water quality and environmental factors required for the propagation and sustained growth of all types of plants. It may also describe methods to support the plants during propagation from seeds and for growth and harvesting. It may describe various methodologies for reducing space requirements and for increasing plant density without detriment to the growth cycles.