A plant cover apparatus includes a bag having an interior encompassed by a wall that extends from a top end of the bag and tapers inwardly to a bottom end of the bag. The bottom end includes a rim that laterally circumscribes a plant-receiving opening formed through the bag. The bag has a slot that extends vertically from the opening through the wall. The slot includes opposed margins having cooperatively interlocking parts that can temporarily be joined and separated to increase the size of the opening. The bag may be vertically suspended from a support member positioned next to the plant. An exterior perimeter of the bag may be rigid enough to help the bag maintain its shape when suspended.

A plant cover apparatus includes a bag having an interior encompassed by a wall that extends from a top end of the bag and tapers inwardly to a bottom end of the bag. The bottom end includes a rim that laterally circumscribes a plant-receiving opening formed through the bag. The bag has a slot that extends vertically from the opening through the wall. The slot includes opposed margins having cooperatively interlocking parts that can temporarily be joined and separated to increase the size of the opening. The bag may be vertically suspended from a support member positioned next to the plant. An exterior perimeter of the bag may be rigid enough to help the bag maintain its shape when suspended.

A method of growing grapes comprising fitting a plurality of longitudinal sleeves to posts, respectively, each sleeve having at least one retainer; attaching at least two lines so that they are held by the retainers in an elevated disposition so that the lines at least partially support a grape vine; mechanically removing the lines from the retainers after harvesting grapes, each sleeve being secured to its respective post by fixing means so that the sleeves remain fitted to the posts when the line is being mechanically removed; pruning parts of the grape vine that remain with the lines when they are removed; and reattaching the lines so that they are again held by the retainers in an elevated disposition for further use.

The purpose of the present invention is to provide a gypsum fertilizer for blueberries and a method for suppressing blueberry abscission that can suppress abscission of blueberry fruits without adversely affecting the growth of the blueberry fruits, and not only increases the crop yield but also eliminates the need for frequently collecting fallen fruits, thus yielding a major practical effect. The purpose is achieved by a gypsum fertilizer for blueberries containing gypsum having a BSA specific surface area of 15000 cm.sup.2/g or less as a main component, and a method for suppressing blueberry abscission using the gypsum fertilizer.

The purpose of the present invention is to provide a gypsum fertilizer for blueberries and a method for suppressing blueberry abscission that can suppress abscission of blueberry fruits without adversely affecting the growth of the blueberry fruits, and not only increases the crop yield but also eliminates the need for frequently collecting fallen fruits, thus yielding a major practical effect. The purpose is achieved by a gypsum fertilizer for blueberries containing gypsum having a BSA specific surface area of 15000 cm.sup.2/g or less as a main component, and a method for suppressing blueberry abscission using the gypsum fertilizer.

A system for growing plants includes an elevated track circuit comprising two straight track sections and two arcuate track sections, with the straight track sections each including a cavity. A plurality of wheeled trolleys that each include a wheel configured to roll within the cavities and each include a shaft extending downwardly form the wheel. A drive system is configured to move the wheeled trolleys along the track circuit with the wheeled trolleys connected together by a cable, and with the shafts of the trolleys configured to support plants coupled thereto to selectively move the plants along the track circuit. Uses of the system include for growing produce of vine plants in a lean-and-lower manner, or transporting hanging plants through an irrigation device of the system.

An example plant monitoring system can include sensors connected to a horticultural monitor. The sensors can measure the soil, the environment, individual plant characteristics, etc. At least one horticultural monitor can send sensor data to a local beacon. The local beacon can then receive the data and send it to cloud resources which can process the data. The cloud resources can determine the health of the plant and monitor its development. A user can track this health and development using an interaction device.

An agricultural yield pod or agricultural yield pad with holed root membrane overlay. The agricultural yield pod encloses soil and vegetation in the soil. The top of the agricultural yield pod is closed except for at least one water and nutrition port and at least one vegetation growth port (or neck). The trunk of the vegetation passes through the at least one vegetation growth port (or neck). The agricultural yield pad is closed by the holed root membrane overlay and contains soil and vegetation in the soil. The trunk of the vegetation passes through the holes in the holed root membrane overlay. Root direction channels 38 may be beneath the overlay.

A dormancy control system for use with plants such as fruit trees, nut trees, and perennial berry bushes planted in commercial settings. The dormancy control system employs vertical shade structures to control the dormancy of plants such as fruit trees, nut trees, and perennial berry bush crops. The dormancy control system results in dramatic increases in crop yield, and may be coupled with orchard planting directional orientation, evaporative cooling systems, and chemical and hormone based spray applications

A dormancy control system for use with plants such as fruit trees, nut trees, and perennial berry bushes planted in commercial settings. The dormancy control system employs vertical shade structures to control the dormancy of plants such as fruit trees, nut trees, and perennial berry bush crops. The dormancy control system results in dramatic increases in crop yield, and may be coupled with orchard planting directional orientation, evaporative cooling systems, and chemical and hormone based spray applications