Abstract: High-growth plant cultivation techniques are provided that create efficient, optimized growing conditions, including a high concentration of photosynthetically active radiation (“PAR”) in terms of photon flux density, and with extremely low heat. In some aspects of the invention, these techniques comprise a specialized growth chamber and a control system that promote an enhanced level of growth, particularly for autoflowering cannabis. In addition, aspects of the invention create an accessible, user-friendly, aesthetically pleasing new type of display for a plant, ideal for cultivating cannabis and, in particular, autoflowering cannabis. The unique combination of techniques set forth in the invention create high yields of cannabis plant matter (up to 3 or 4 times greater than other methods) in substantially less time (just 60 days from seed to harvest).
Abstract: High-growth plant cultivation techniques are provided that create efficient, optimized growing conditions, including a high concentration of photosynthetically active radiation (“PAR”) in terms of photon flux density, and with extremely low heat. In some aspects of the invention, these techniques comprise a specialized growth chamber and a control system that promote an enhanced level of growth, particularly for autoflowering cannabis. In addition, aspects of the invention create an accessible, user-friendly, aesthetically pleasing new type of display for a plant, ideal for cultivating cannabis and, in particular, autoflowering cannabis. The unique combination of techniques set forth in the invention create high yields of cannabis plant matter (up to 3 or 4 times greater than other methods) in substantially less time (just 60 days from seed to harvest).
Abstract: High-growth plant cultivation techniques are provided that create efficient, optimized growing conditions, including a high concentration of photosynthetically active radiation (“PAR”) in terms of photon flux density, and with extremely low heat. In some aspects of the invention, these techniques comprise a specialized growth chamber and a control system that promote an enhanced level of growth, particularly for autoflowering cannabis. In addition, aspects of the invention create an accessible, user-friendly, aesthetically pleasing new type of display for a plant, ideal for cultivating cannabis and, in particular, autoflowering cannabis. The unique combination of techniques set forth in the invention create high yields of cannabis plant matter (up to 3 or 4 times greater than other methods) in substantially less time (just 60 days from seed to harvest).