A growing apparatus for plants, the growing apparatus including a planting side; a harvesting side; a flexible conveyor belt including cutouts that transports the plants in the cutouts along a conveying path from the planting side to the harvesting side; a nutrition device that feeds a liquid nutrition medium for the plants to a root side of the flexible conveyor belt so that the plants root at the root side and sprout at an illuminated sprout side of the conveyor belt that is arranged opposite to the root side, wherein the flexible conveyor belt is folded into creases at the planting side wherein the creases extend in a direction transversal to the conveying path, wherein the creases are moved from the planting side to the harvesting side and thus straightened and leveled along the conveying path, wherein the cutouts are respectively arranged on ridge lines of the creases.

A growing apparatus for plants, the growing apparatus including a planting side; a harvesting side; a flexible conveyor belt including cutouts that transports the plants in the cutouts along a conveying path from the planting side to the harvesting side; a nutrition device that feeds a liquid nutrition medium for the plants to a root side of the flexible conveyor belt so that the plants root at the root side and sprout at an illuminated sprout side of the conveyor belt that is arranged opposite to the root side, wherein the flexible conveyor belt is folded into creases at the planting side wherein the creases extend in a direction transversal to the conveying path, wherein the creases are moved from the planting side to the harvesting side and thus straightened and leveled along the conveying path, wherein the cutouts are respectively arranged on ridge lines of the creases.

A planter system including a base container and a transparent water evacuation tube located at a bottom portion of the base container. The transparent water evacuation tube is movable from a position pointing up holding water in the base container and a position pointing down to drain water from the base container. A platform/transplanter insert is located in the base container and has handles that extend upward. The handles are shaped to provide a passage to allow for feeding, watering and aeration.

A planter system including a base container and a transparent water evacuation tube located at a bottom portion of the base container. The transparent water evacuation tube is movable from a position pointing up holding water in the base container and a position pointing down to drain water from the base container. A platform/transplanter insert is located in the base container and has handles that extend upward. The handles are shaped to provide a passage to allow for feeding, watering and aeration.

There is provided A process for producing a biocompatible soil mixture from cremated ash remains, the process comprising: mixing cremated ash remains with a soil base material and a nutrient composition to produce a pre-conditioned mixture, the nutrient composition comprising at least one of paramagnetic material, soil conditioner and fertilizer; and conditioning the pre-conditioned mixture using a microbial conditioner to adjust the adverse chemical properties of the cremated ash remains biologically to produce a conditioned soil mixture being biocompatible for a legacy tree, wherein the pre-conditioned mixture comprises less than 10% of the cremated ash remains by volume.

There is provided A process for producing a biocompatible soil mixture from cremated ash remains, the process comprising: mixing cremated ash remains with a soil base material and a nutrient composition to produce a pre-conditioned mixture, the nutrient composition comprising at least one of paramagnetic material, soil conditioner and fertilizer; and conditioning the pre-conditioned mixture using a microbial conditioner to adjust the adverse chemical properties of the cremated ash remains biologically to produce a conditioned soil mixture being biocompatible for a legacy tree, wherein the pre-conditioned mixture comprises less than 10% of the cremated ash remains by volume.

The disclosed device includes a water storage container, an evaporation cover, a funnel, an indicator rod and a float. The water storage container has an evaporation cover. The evaporation cover is a gas permeable structure. A funnel is connected to the evaporation cover and an indication is provided in the leakage tube of the funnel. A rod. A float is connected to the lower end of the indicator rod and the float drives the indicator rod to indicate the water level in the water storage container. The method is as follows: the water storage container and the evaporation cover are buried in the soil of the plant root, and the water is filled into the water storage container through the funnel. The water in the water container naturally evaporates into the soil through the evaporation hood, which maintains the water in the soil to maintain the survival of the plant.

The disclosed device includes a water storage container, an evaporation cover, a funnel, an indicator rod and a float. The water storage container has an evaporation cover. The evaporation cover is a gas permeable structure. A funnel is connected to the evaporation cover and an indication is provided in the leakage tube of the funnel. A rod. A float is connected to the lower end of the indicator rod and the float drives the indicator rod to indicate the water level in the water storage container. The method is as follows: the water storage container and the evaporation cover are buried in the soil of the plant root, and the water is filled into the water storage container through the funnel. The water in the water container naturally evaporates into the soil through the evaporation hood, which maintains the water in the soil to maintain the survival of the plant.

Systems and methods for growing plants. The systems and methods can be used for growing plants in low, micro, or zero gravity environments. An injection device can inject a fluid or growth medium into the stem or root of a plant. A plant can also be supported on a platform and a light placed below the plant, or in a direction opposite gravity or a acceleration force to promote plant growth in a direction opposite gravity or the acceleration force.

Systems and methods for growing plants. The systems and methods can be used for growing plants in low, micro, or zero gravity environments. An injection device can inject a fluid or growth medium into the stem or root of a plant. A plant can also be supported on a platform and a light placed below the plant, or in a direction opposite gravity or a acceleration force to promote plant growth in a direction opposite gravity or the acceleration force.