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Application US20200157017
Published 2020-05-21
Methods And Compositions For Increasing The Yield Of, And Beneficial Chemical Composition Of, Certain Plants
The present specification describes increasing the Brix degree, nutrient transport and density, and yields of cannabis crops through the application of photoacoustic resonance to a nutrient formulation. An activated nutrient solution is obtained by forming an unactivated nutrient solution and applying to the unactivated nutrient solution ultra-rapid impulses of modulated laser light, from one or more laser systems. An increase of at least 5% in the Brix degree of the crop, relative to an unactivated nutrient formulation, can be achieved. In addition, an increase of at least 5%, relative to an unactivated nutrient formulation, is seen with respect to nutrient density and crop yield through application of the activated nutrient solution.
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- 1. A method of growing cannabis comprising:
applying an activated composition to an untreated cannabis crop, wherein said activated composition comprises an amount of photoacoustic energy deposited therein in a range of 0.05 to 5 milliwatt-minutes per liter; and wherein, after said application, the treated cannabis crop exhibits an increased yield in a range of 5% to 50% relative to the untreated cannabis crop.
- 8. A method of growing cannabis comprising:
applying an activated composition to an untreated cannabis crop, wherein said activated composition comprises an amount of photoacoustic energy deposited therein in a range of 0.05 to 5 milliwatt-minutes per liter; and wherein, after said application, at least one of a plurality of cannabinoids constituents of said treated cannabis crop has an increased amount in a range of greater than 5% relative to the untreated cannabis crop.
- 15. A method of growing cannabis comprising:
applying an activated composition to an untreated cannabis crop, wherein said activated composition comprises an amount of photoacoustic energy deposited therein in a range of 0.05 to 5 milliwatt-minutes per liter; and wherein, after said application, at least one of a plurality of terpene constituents of said treated cannabis crop is increased by an amount in a range of greater than 5% relative to the untreated cannabis crop.