Engineered food to promote health and maintain homeostasis in a subject and methods of producing the food.

A membrane for covering the cut end of a tree trunk to prevent the tree from creating a seal after it has been cut. The membrane is attachable to the cut end surface of the tree trunk and includes a hydrating layer comprising a hydrogel. The hydrogel, made up primarily of water, adheres to the cut end surface of the tree trunk to continue hydrating the tree, and prevents air from reaching the tree's exposed transport tissue. In some embodiments, the membrane includes a backing layer and a release layer on opposite sides of the hydrating layer.

Methods to grow cannabis plants within an interior of an enclosure are described, the method comprises condensing water vapor from the interior of the enclosure to produce a source of liquid water and supplying the liquid water to the cannabis plants. The source of liquid water may be supplied to a common reservoir and then transferred to the cannabis plants. The common reservoir includes fish, a microorganism, or treated water. Water drained from the cannabis plants may be recycled back to the common reservoir. The water may be filtered or oxygenated and mixed with a pH adjustment solution, a macro-nutrient, a micro-nutrient, a carbohydrate, an enzyme, or a vitamin. Solar panels may be used to provide electricity for electrically powered lights that illuminate the cannabis plants. The cannabis plants may be grown within a growing medium, harvested, trimmed, ground, heated, and made into multifunctional compositions or foodstuffs.

Infrastructure and methods to implement a platform for a horticultural operation are disclosed. Sensor data is received from one or more sensors configured to capture data for plants within a plant growth operation. Accumulated data associated with other plants in other plant growth operations is access. The data is analyzed to determine conditions of the plants within the plant growth operation. Plant grower actions to improve plant growth are determined. Instructions are transmitted to a controller device associated with the plant growth operation. Agricultural products or services associated with the plant grower actions are determined. An agricultural exchange service processes electronic commerce information from servicers of the products or services. Bids from the servicers are received, and selection and fulfillment of the bids are facilitated.

Infrastructure and methods to implement a platform for a horticultural operation are disclosed. Sensor data is received from one or more sensors configured to capture data for plants within a plant growth operation. Accumulated data associated with other plants in other plant growth operations is access. The data is analyzed to determine conditions of the plants within the plant growth operation. Plant grower actions to improve plant growth are determined. Instructions are transmitted to a controller device associated with the plant growth operation. Agricultural products or services associated with the plant grower actions are determined. An agricultural exchange service processes electronic commerce information from servicers of the products or services. Bids from the servicers are received, and selection and fulfillment of the bids are facilitated.

The present invention relates to the field of soilless cultivation, in particular to a method for cultivating Mesembryanthemum crystallinum. The method involves the following steps: sowing; accelerating germination; growing seedlings; transplanting; separating seedlings; harvesting. In this method, Mesembryanthemum crystallinum is cultivated using a nutrient solution and under continuous indoor lighting; as a result, the Mesembryanthemum crystallinum has a shortened life cycle, no flowering period, and a long harvesting period. Edible salt is added to the nutrient solution at a specific ratio, which further promotes the growth of Mesembryanthemum crystallinum and changes its taste. Meanwhile, the nutrient solution of Mesembryanthemum crystallinum has a high EC, which promotes the growth of Mesembryanthemum crystallinum. In this method, the step of separating seedlings is carried out at a reasonable time to ensure the quality of Mesembryanthemum crystallinum growth, and to fully utilize light energy and growth space.

The present invention relates to the field of soilless cultivation, in particular to a method for cultivating Mesembryanthemum crystallinum. The method involves the following steps: sowing; accelerating germination; growing seedlings; transplanting; separating seedlings; harvesting. In this method, Mesembryanthemum crystallinum is cultivated using a nutrient solution and under continuous indoor lighting; as a result, the Mesembryanthemum crystallinum has a shortened life cycle, no flowering period, and a long harvesting period. Edible salt is added to the nutrient solution at a specific ratio, which further promotes the growth of Mesembryanthemum crystallinum and changes its taste. Meanwhile, the nutrient solution of Mesembryanthemum crystallinum has a high EC, which promotes the growth of Mesembryanthemum crystallinum. In this method, the step of separating seedlings is carried out at a reasonable time to ensure the quality of Mesembryanthemum crystallinum growth, and to fully utilize light energy and growth space.

Provided are methods for growing a plant under certain stressed conditions that alter the morphology of the plant. In certain aspects, however, although the plant is altered and may be undesirable for commercial purposed, the plant still produces an adequate number of seeds for breeding purposes. Further, because plants may be smaller in size, they can be grown at higher densities, allowing the production of large populations of plants to be brought under controlled conditions which can exclude pollinating insects and thus increase the genetic purity achievable in a breeding program.

A plant cultivation pot comprises a first paper fiber board constituting a wall portion of the plant cultivation pot and a second paper fiber board constituting a bottom portion of the plant cultivation pot. The plant cultivation pot comprises a plinth portion so that a part of the wall portion is below the bottom portion in the height direction of the plant cultivation pot. An outline of a lower edge of the first paper fiber board constituting the plinth portion is provided with cuts extending towards an upper rim of the plant cultivation pot. Thus, the cuts form openings in the wall portion through which roots of a plant can grow out from the plant cultivation pot.

The application discloses a method for replacing seedbed culture substrate and a conveyor belt seedbed, the flatbed truck is used to receive the dropped culture substrate at the end of the conveyor belt that has been driven all the time, without manual removal by workers. The conveyor belt continues to drive until the flatbed truck is fully loaded or only when the culture substrate on the conveyor belt is emptied, only need to place the flatbed truck full of culture substrate at the head end of the conveyor belt when placing new culture substrate, and turn on the conveyor belt, which speeds up the efficiency of replacing the culture substrate, and this method only requires one person can complete the replacement of the culture substrate on the seedbed, which solves the technical problem that the existing method of replacing the culture substrate is to manually remove the culture substrate on the seedbed, which leads to the long time for replacing the culture substrate and low work efficiency.