A modular hydroponic tower array fixture system for the growth of organisms such as plants and fungi on arrays of hydroponic towers, allowing for the insertion and removal of individual towers from the array, is provided. Methods for the production of organisms such as plants and fungi using a modular hydroponic tower array fixture system are also provided herein.

A modular hydroponic tower array fixture system for the growth of organisms such as plants and fungi on arrays of hydroponic towers, allowing for the insertion and removal of individual towers from the array, is provided. Methods for the production of organisms such as plants and fungi using a modular hydroponic tower array fixture system are also provided herein.

An inexpensive wick watering system for potted plants and flowers is disclosed. An inner grower pot containing a plant/flower and soil has holes in its bottom surface along with a central indentation. The outer decorative pot into which the inner pot is inserted has a central protrusion which accepts the central indentation of the inner grower pot and a hole inserted into the center. A Wicking insert is inserted into the bottom of the outer decorative pot before inserting the inner grower pot with holes in its bottom surface. This wicking insert works to transfer water sitting in the volume created between the inner grower pot and the outer decorative pot when the inner grower pot is placed inside the outer decorative pot due to the soil's natural ability to be infiltrated and naturally hydrated by the water. Water that rises up to the hole in the center portion of the outer pot central protrusion drains from the outer pot.

An inexpensive wick watering system for potted plants and flowers is disclosed. An inner grower pot containing a plant/flower and soil has holes in its bottom surface along with a central indentation. The outer decorative pot into which the inner pot is inserted has a central protrusion which accepts the central indentation of the inner grower pot and a hole inserted into the center. A Wicking insert is inserted into the bottom of the outer decorative pot before inserting the inner grower pot with holes in its bottom surface. This wicking insert works to transfer water sitting in the volume created between the inner grower pot and the outer decorative pot when the inner grower pot is placed inside the outer decorative pot due to the soil's natural ability to be infiltrated and naturally hydrated by the water. Water that rises up to the hole in the center portion of the outer pot central protrusion drains from the outer pot.

A window planter includes a first compartment including a first sidewall and a second sidewall. The first compartment is configured to house a first group of plants. A second compartment is slidably coupled to the first compartment. The first compartment includes a first outer sidewall. The second compartment is configured to house a second group of plants separated from the first group of plants by the first sidewall of the first compartment. A third compartment is slidably coupled to the first compartment. The third compartment includes a second outer sidewall. The third compartment is configured to house a third group of plants separated from the first group of plants by the second sidewall. At least the first compartment and the second compartment are configured to be secured to a window frame.

A window planter includes a first compartment including a first sidewall and a second sidewall. The first compartment is configured to house a first group of plants. A second compartment is slidably coupled to the first compartment. The first compartment includes a first outer sidewall. The second compartment is configured to house a second group of plants separated from the first group of plants by the first sidewall of the first compartment. A third compartment is slidably coupled to the first compartment. The third compartment includes a second outer sidewall. The third compartment is configured to house a third group of plants separated from the first group of plants by the second sidewall. At least the first compartment and the second compartment are configured to be secured to a window frame.

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.

A self watering bottle planter insert allows a regular bottle to be transformed into a hydroponic planter. The self watering bottle planter insert is insertable into a bottle and removes the need for a separate source of nutrients. The planter uses composite media with an enriched substrate layered beneath a more standard hydroponic growth media to add nutrients to the water for the life cycle of the plant. Also provided is a substrate assembly for use in a bottle planter assembly.

A self watering bottle planter insert allows a regular bottle to be transformed into a hydroponic planter. The self watering bottle planter insert is insertable into a bottle and removes the need for a separate source of nutrients. The planter uses composite media with an enriched substrate layered beneath a more standard hydroponic growth media to add nutrients to the water for the life cycle of the plant. Also provided is a substrate assembly for use in a bottle planter assembly.