A planter system includes fluid and light impervious first and second vessels, a plant growing medium, and a fluid impervious third vessel including a perimetric extremity and configured to hold the growing medium received therein through an opening defined by the perimetric extremity. The first and second vessels each includes a closed bottom and a rim encircling an opening over the closed bottom and configured with an inwardly-directed recess. The recess of the first vessel is configured to receive the perimetric extremity of the third vessel for supporting the third vessel over the first closed bottom. The recess of the second vessel is configured to receive the rim of the first vessel in a covering placement of the second vessel over the first vessel, and the closed bottom of the first vessel in a supporting placement of the second vessel under the first vessel.

A planter system includes fluid and light impervious first and second vessels, a plant growing medium, and a fluid impervious third vessel including a perimetric extremity and configured to hold the growing medium received therein through an opening defined by the perimetric extremity. The first and second vessels each includes a closed bottom and a rim encircling an opening over the closed bottom and configured with an inwardly-directed recess. The recess of the first vessel is configured to receive the perimetric extremity of the third vessel for supporting the third vessel over the first closed bottom. The recess of the second vessel is configured to receive the rim of the first vessel in a covering placement of the second vessel over the first vessel, and the closed bottom of the first vessel in a supporting placement of the second vessel under the first vessel.

According to at least one embodiment, a growing medium and method of making said growing medium is shown and described. This medium may include at least a first and second component such that at least one of the first or second component is coconut coir and the other of the at least first or second component is a wood fiber. In one embodiment, the at least first and second component are combined and then compressed via heat and pressure resulting in a finished medium for an end user.

A plant growing system, having a plant container made of flexible material, the container having a plurality of air and water exchange pores disposed throughout the flexible material and a cavity defined by the contours of the flexible material, and a volume of living horticultural media disposed inside the cavity. The distribution of the exchange pores, the nutrient profile, and the water retention profile of the living horticultural media promote desired plant growth and characteristics.

A plant growing system, having a plant container made of flexible material, the container having a plurality of air and water exchange pores disposed throughout the flexible material and a cavity defined by the contours of the flexible material, and a volume of living horticultural media disposed inside the cavity. The distribution of the exchange pores, the nutrient profile, and the water retention profile of the living horticultural media promote desired plant growth and characteristics.

This application discloses a geotextile-based structure for soil stabilization, erosion control, and vegetation-growth enhancement that is made from a cage having a hollow interior lined with a geotextile fabric designed to retain fine materials, which cage is attached to a geotextile mat capable of supporting vegetation.

This application discloses a geotextile-based structure for soil stabilization, erosion control, and vegetation-growth enhancement that is made from a cage having a hollow interior lined with a geotextile fabric designed to retain fine materials, which cage is attached to a geotextile mat capable of supporting vegetation.

The present disclosure relates to growing tray for a growth system, comprising a plurality of individual channels being distributed across a width of the growing tray and extending along a length of the growing tray. By means of the introduction of the channels it is possible to increase the yield of a crop to be grown at a growth substrate arranged on top of the channels. The present disclosure also relates to a growth system comprising a plurality of such growing trays.

The present disclosure relates to growing tray for a growth system, comprising a plurality of individual channels being distributed across a width of the growing tray and extending along a length of the growing tray. By means of the introduction of the channels it is possible to increase the yield of a crop to be grown at a growth substrate arranged on top of the channels. The present disclosure also relates to a growth system comprising a plurality of such growing trays.

The present invention is a plant cultivation device. The water tank supplies cultivation water to the cultivation tank via an irrigation conduit. The water tank also suctions cultivation water from the cultivation tank via a water-sucking pipe. The heat-collecting part receives sunlight, and the pressure of air that is heated inside the air-storage part presses the surface of the water inside the water tank. The water tank supplies cultivation water that has been pressed by said air to a culture medium material. The heat-collecting part raises the surface of the water inside the water tank as a result of the heated air being cooled by a decrease in the sunlight. The water tank suctions cultivation water from a bottom section of the cultivation tank.