Invention for Hemp cultivar named ?05.09.24.S1?

Invented by Mark Anthony LEWIS, Steven Robert Haba, BIOTECH INSTITUTE LLC

The market for the hemp cultivar named “05.09.24.S1” is rapidly growing as more and more farmers are becoming interested in growing this particular strain. This cultivar is known for its high yield and excellent quality, making it a popular choice among hemp farmers.

One of the main reasons why this cultivar is so popular is because it has a high CBD content. CBD, or cannabidiol, is a non-psychoactive compound found in hemp that has been shown to have numerous health benefits. As a result, there is a growing demand for hemp strains that are high in CBD, and 05.09.24.S1 is one of the best.

In addition to its high CBD content, 05.09.24.S1 is also known for its fast growth rate and resistance to pests and diseases. This makes it an ideal choice for farmers who want to maximize their yields while minimizing their risks.

Another factor driving the market for this cultivar is the increasing demand for hemp products. With the legalization of hemp in many states, there has been a surge in demand for hemp-derived products such as CBD oil, hemp clothing, and hemp-based foods. As a result, farmers are looking for high-quality hemp strains that can help them meet this demand.

Overall, the market for 05.09.24.S1 is expected to continue to grow in the coming years as more farmers discover the benefits of this cultivar. Whether you are a seasoned hemp farmer or just starting out, this strain is definitely worth considering if you want to maximize your yields and produce high-quality hemp products.

The BIOTECH INSTITUTE LLC invention works as follows

The present disclosure identifies a distinct hemp cultivar that is?05.09.24.S1?” The present disclosure is about seeds of the hemp plant. S1,? Methods for creating a hemp plant from crossing two hemp plants?05.09.24.S1? With other cannabis plants or with itself. Further, the disclosure relates to the morphological characteristics and physiological uses of the distinct new hemp cultivar.

Background for Hemp cultivar named ?05.09.24.S1?

Cannabis” is a genus that contains at least three flowering species: Cannabis sativa and Cannabis indica. This is determined by plant phenotypes as well as secondary metabolite profiles. Industrial hemp is also known as cannabis, and it is a strain of cannabis that has been specifically grown for industrial purposes. The United States considers Cannabis hemp if it has less than three-tenths (or 0.3%) of tetrahydrocannabinol at harvest maturity. High levels of CBD (cannabidiol) can be found in hemp plants. This can be used in a wide range of consumer goods including drinks, food, and dietary supplements.

Farmers still face challenges in hemp production. Although highly desired, feminized seeds with high CBD-producing lines are not widely available.

There is a constant need for new varieties of hemp to meet the growing demand in fiber and CBD-based products.

This disclosure is about a unique hemp cultivar, designated as?05.09.24.S1?” The?05.09.24.S1 can be used in some embodiments. Multiple rounds of self-fertilization are used to produce the?05.09.24.S1? in some embodiments. (USPP32,473). The?05.09.24.S1 is another embodiment. “It is derived from a Cannabis-hybrid background.

Inventors reproduced the ‘05.09.24.S1?” Strategic crosses and selections made from proprietary lines were used to cultivar. The?05.09.24.S1 is a cultivated variety. The?05.09.24.S1 is maintained by the plant as a self-pollinating seed at the inventors’ greenhouses or nurseries in Salinas, Calif.

The present disclosure is a unique hemp variety that can be called?05.09.24.S1?” The present disclosure is related to the seeds of hemp varieties?05.09.24.S1??, to the parts and plants of hemp varieties?05.09.24.S1??, to the plant cells of this variety???05.09.24.S1??, to plants or plant parts or cells that have all the physiological, morphological, and physiological characteristics of hemp varieties?05.09.24.S1?? S1?, to plants or parts of plants or cells that have all the physiological and morphological properties of plant cells as listed in Tables 1-5 (and/or filed under NCMA No. 202202006) including but not limited to the 5% significance level when grown under the same environmental conditions as a comparison or check marijuana and/or hemp plants.

The present disclosure is about methods of producing a hemp plant or seed by crossing the hemp variety?05.09.24.S1?” With another cannabis or hemp plant. Another aspect is hybrid hemp plants and hemp seeds that are cross-bred with the hemp variety 05.09.24.S1. With a cannabis or hemp plant.

Another aspect is directed at a method for producing a cannabinoid oil by contacting hemp plants?05.09.24.S1?” With heat or solvent, and then producing the cannabinoid oil.

In some embodiments the present disclosure teaches a plant, part or seed of a hemp plant variety designated?05.09.24.S1?. The variety’s seed has been deposited under NCMA Number. 202202006. The present disclosure may teach that the plant part of some embodiments is an inflorescence or a flower.

In some embodiments the present disclosure teaches a hemp plant, a part of a hemp plant, or a cell thereof with all of the physiological, morphological, and genetic characteristics of the hemp variety designated?05.09.24.S1?” Tables 1-5 and/or deposited under NCMA Number. Tables 1-5 (and/or deposited under NCMA No. 202202006), including but not limited, the 5% significance level as determined when grown in the exact same environmental conditions. This includes when grown side by side with a comparison or checked cannabis and/or hemp plants. The present disclosure may teach a hemp plant or a part of a hemp cell, in some embodiments. These plants have all the physiological and morphological characteristics that the hemp plant described in the present disclosure.

In some embodiments the present disclosure teaches a hemp plant or a part thereof having all of the physiological morphological characteristics and a variety of the hemp plant variety designated?05.09.24.S1?. This variety was deposited under NCMA Number. 202202006.

In some embodiments the present disclosure teaches a tissue cultivation of regenerable cells from the plant, part, or plant cell of a plant. The new plant that is regenerated from this tissue culture has all the morphological, physiological characteristics of the hemp variety designated?05.09.24.S1?” Tables 1-5 and/or deposited under NCMA Number. When grown in the same environment conditions as the 202202006, The present disclosure may also teach a hemp plant that has been regenerated from tissue culture according to certain embodiments. This plant will have all of the morphological as well as physiological characteristics of the hemp described in the present disclosure. The present disclosure may also teach a hemp plant that has been regenerated from tissue culture. In these embodiments, the regenerated plant possesses all the characteristics of the hemp variety designated?05.09.24.S1′, and the seed of this variety was deposited under NCMA Number. 202202006.

In some embodiments, this disclosure teaches a way to produce a hemp seed. This includes self-planting the hemp plant and harvesting the resulting hemp seed. The present disclosure may also teach how to make a hemp seed using the method described in the present disclosure.

In certain embodiments, the present discloses a method of producing a hemp seed by crossing the hemp plant described in the present disclosure with another distinct plant. The present disclosure may teach an F1 hemp plant that is produced using the method of this disclosure in some instances. The present disclosure may teach an F1 hemp plant or a part of a plant cell, depending on how it is grown.

In some embodiments, this disclosure teaches how to produce a hemp plant from the variety?05.09.24.S1?. It consists of: a) Crossing the plant of this disclosure with itself or another plant to produce progeny seeds; b), growing the progeny seeds to produce a progeny tree and then crossing it with another plant to make further progeny trees; optionally, c) repeating step (b) one or several times to create the hemp plant derived form the variety?05.09.24.S1?

In some embodiments, this disclosure teaches a way to produce a hemp plant from the variety?05.09.24.S1?”. This further includes crossing the hemp plant from the variety?05.09.24.S1?. To produce seeds of a hybrid plant, a plant with a different genotype can be used to cross the hemp plant derived from the variety?05.09.24.S1?

In some embodiments, this disclosure teaches a way to produce a hemp plant from the variety?05.09.24.S1?”. This involves propagating a vegetative cut from a stock Cannabis plants, and thereby producing the Cannabis variety?05.09.24.S1′. The stock Cannabis plant may be a result of using a plant breeding method described herein to ‘05.09.24.S1’.

In some embodiments the present disclosure teaches a method to produce a Cannabis crop derived from a hemp variety named?05.09.24.S1?”. This method involves crossing a stock Cannabis plants with another Cannabis plant. The result is a Cannabis plant that has been bred from the hemp variety?05.09.24.S1′. The stock Cannabis plant can be derived from a plant breeding method described herein to ‘05.09.24.S1’ in some embodiments.

In some embodiments, this disclosure teaches a way to produce nucleic acid. This includes isolating nucleic acid from the plant, seed, part or plant cell.

In some embodiments, this disclosure teaches how to grow a hemp plant that has a single locus conversion. When grown under the same environmental conditions. The present disclosure may teach that a single locus can confer herbicide resistance to a plant. The present disclosure may teach that the single locus is an artificially modified gene or nucleotide combination. The present disclosure may teach that the single locus is a gene that was modified by the breeding techniques described in the disclosure.

In some embodiments, this disclosure teaches how to cultivate hemp designated?05.09.24.S1?” as detailed and described in the present disclosure.

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