A system for an assembly line grow pod includes a germination hub including a tank, a water source in selective fluid communication with the tank, a pump in selective fluid communication with the tank and the water source, a pod line in selective fluid communication with the germination hub, a seeder assembly in selective fluid communication with the pod line, the seeder assembly including a seeder tank, and a metering device in selective fluid communication with the seeder tank, where the metering device selectively releases seeds from the seeder tank, and a cart positioned below the metering device.

Use of motion sensing and tracking equipment to image, monitor, track, and/or determine a parameter of plant growth kinetics (e.g., plant leaf elongation and height growth rate). Some embodiments concern methods for screening plants for the presence of one or more agronomic trait(s), and/or to study the growth kinetics of particular plants and cultivars, for example, in an automated high-throughput platform.

Use of motion sensing and tracking equipment to image, monitor, track, and/or determine a parameter of plant growth kinetics (e.g., plant leaf elongation and height growth rate). Some embodiments concern methods for screening plants for the presence of one or more agronomic trait(s), and/or to study the growth kinetics of particular plants and cultivars, for example, in an automated high-throughput platform.

Large scale systems for the activation of water and other aqueous solution using molecular resonant effect technology. Methods of using activated liquids to affect biological systems, including the inhibition of tumor cell proliferation, NK cell mediated cytolysis of tumor cells, the prevention of amyloid plaques, the inhibition of microbial growth, and the prevention or reduction of viral and bacterial infection. The methods include administration of liquids subjected to molecular resonant effect technology to those in need thereof.

Large scale systems for the activation of water and other aqueous solution using molecular resonant effect technology. Methods of using activated liquids to affect biological systems, including the inhibition of tumor cell proliferation, NK cell mediated cytolysis of tumor cells, the prevention of amyloid plaques, the inhibition of microbial growth, and the prevention or reduction of viral and bacterial infection. The methods include administration of liquids subjected to molecular resonant effect technology to those in need thereof.

Cryo-sprouts are germinated, grown and shipped in the same covered container with reduced numbers of pathogenic organisms. Seeds are placed on a membrane in the container with sufficient water. The container with the seeds is incubated at a pathogen antagonistic temperature during the growth phase. The pathogen antagonistic temperature is preferably between about 35° F. and about 45° F. The cryo-sprouts grown according to these methods have reduced numbers of pathogenic organisms, are greener and have an extended shelf-life.

Cryo-sprouts are germinated, grown and shipped in the same covered container with reduced numbers of pathogenic organisms. Seeds are placed on a membrane in the container with sufficient water. The container with the seeds is incubated at a pathogen antagonistic temperature during the growth phase. The pathogen antagonistic temperature is preferably between about 35° F. and about 45° F. The cryo-sprouts grown according to these methods have reduced numbers of pathogenic organisms, are greener and have an extended shelf-life.

Disclosed is a process for the preparation of moringa (Moringa oleifera Lam.) sprouts by hydroponic cultivation from seed, as well as a process for the preparation of a raw material enriched with isothiocyanates and polyphenols, starting from moringa (Moringa oleifera Lam.) sprouts obtained from seed by the process and/or from the adult plant, and to the raw material obtained by the process.

Disclosed is a process for the preparation of moringa (Moringa oleifera Lam.) sprouts by hydroponic cultivation from seed, as well as a process for the preparation of a raw material enriched with isothiocyanates and polyphenols, starting from moringa (Moringa oleifera Lam.) sprouts obtained from seed by the process and/or from the adult plant, and to the raw material obtained by the process.

The present invention discloses a method for remedying sandy land by using a simulated loam substrate spray-seeding technology. The method includes the following steps: first, carrying out a simple sand-fixing treatment to lay a metal mesh in sandy land, the metal mesh being fixed to the surface of the sandy land by a sand-fixing pile; second, spray-seeding a seed into the sandy land by means of simulated loam substrate spray-seeding; and finally, when the spray-seeding is completed, carrying out maintenance management, including adding a protective plate around the metal mesh, covering with a non-woven fabric, watering, fertilizing, reseeding, and post-monitoring. The method for remedying sandy land by using a simulated loam substrate spray-seeding technology provided by the present invention adopts a two-layer spray-seeding method, and rapidly simulates a simulated loam substrate suitable for plant growth in natural world by bionics; the simulated loam substrate has a good water retention capacity, which is conducive to a higher germination rate of a seed, root development, a microbial activity, nutrient transformation, and plant growth and development; and with less investment and a quick effect, the method is suitable for large-scale sand control.