Embodiments of the present disclosure are directed to a method that includes treating a Cannabis plant, plant part, or plant cell with a solution including a chemical agent configured to modify a ploidy level of the Cannabis plant, plant part, or plant cell. The method further includes, in response to the treatment, modifying the ploidy level of the cannabis plant, plant part, or plant cell.

A storage racking system for plant products can be capable of automated rotation and curing of dried cannabis and hemp flowers in sealed containers, which can maintain relative humidity along with a UV light and oxygen deficient environment to reduce degradation. The storage containers can be positioned horizontally to maintain a connection to the inert gas connection and allow for daily rotation in either direction. Each storage container can have a lid and a humidity pack. The lid can have a pressure relief valve that can exchange the gaseous atmosphere from the storage container with an inert gas through a check valve connection. The humidity pack can maintain the relative humidity in the storage container at about 58% to 62% during the curing and storage stages.

A storage racking system for plant products can be capable of automated rotation and curing of dried cannabis and hemp flowers in sealed containers, which can maintain relative humidity along with a UV light and oxygen deficient environment to reduce degradation. The storage containers can be positioned horizontally to maintain a connection to the inert gas connection and allow for daily rotation in either direction. Each storage container can have a lid and a humidity pack. The lid can have a pressure relief valve that can exchange the gaseous atmosphere from the storage container with an inert gas through a check valve connection. The humidity pack can maintain the relative humidity in the storage container at about 58% to 62% during the curing and storage stages.

The cannabis cultivar Zuchi can be briefly characterized by having a zigzag stem structure, medium length petioles, short internodal stacking, triangle-shaped flowers, and bulky flowers with little to no stem. It produces large towering colas up to 2′ in uninterrupted length. It has a short flowering time of less than 70 days, usually 60-65 days. Female plants having Zuchi as the male parent generally have deep purple and blue colorations in 50-75% of the progeny that are high yielding, greater than 50 grams/ft.sup.2 under optimal conditions.

The cannabis cultivar TZT can be briefly characterized by large green and white resin-coated flowers. With very short internodal space and vigorous growth characteristics, this cultivar is able to produce very high yields for both flower and hash production. Little to no purple coloration is observed. Flower clusters have been observed at over 1′ of uninterrupted colas.

The Cannabis cultivar AFZ can be briefly characterized by having large purple, green and blue streaked flower clusters that appear almost white due to an immense amount of glandular trichomes that cover every cubic inch of the flower. This hybrid is a very easy to grow and hardy plant that is resistant to most bugs and powdery mildew while able to yield 540-750 grams/m.sup.2 in a sea-of-green or dense canopy style grow.

The cannabis cultivar ZLT can be briefly characterized by towering green, white and purple streaking resin-coated flowers. With very short internodal space and vigorous growth characteristics, this cultivar is able to produce very high yields for both flower and hash production. ZLT yields as much as 6% from fresh frozen material. Flower clusters have been observed at over 1-1.5′ of uninterrupted colas.

The Cannabis cultivar POI can be briefly characterized by massive purple, white, green, and yellow streaking resin-coated flowers. With massive flower clusters and very short internodal space, this cultivar is able to produce very high yields for both flower and hash production.

Grafted cannabis plants and related methods for producing a grafted cannabis plant are provided. In some embodiments, a scion is provided from a first cannabis plant having at least one of a first desired phenotype and a first desired genotype and a rootstock is provided from a second cannabis plant having at least one of a second desired phenotype and a second desired genotype, the rootstock compatible with the scion. The scion may be grafted onto the rootstock to form the grafted plant. In some embodiments, the scion is from a drug-type cannabis plant and the rootstock is from a hemp plant. The grafted cannabis plant may have at least one enhanced plant trait, enhanced harvest trait, and/or emergent property. Related cannabis plant materials and cannabis-derived products are also provided.

Grafted cannabis plants and related methods for producing a grafted cannabis plant are provided. In some embodiments, a scion is provided from a first cannabis plant having at least one of a first desired phenotype and a first desired genotype and a rootstock is provided from a second cannabis plant having at least one of a second desired phenotype and a second desired genotype, the rootstock compatible with the scion. The scion may be grafted onto the rootstock to form the grafted plant. In some embodiments, the scion is from a drug-type cannabis plant and the rootstock is from a hemp plant. The grafted cannabis plant may have at least one enhanced plant trait, enhanced harvest trait, and/or emergent property. Related cannabis plant materials and cannabis-derived products are also provided.