Dragonsleeve 33 by Yetis Pheno
Indica genetics × Sativa genetics
Dragonsleeve 33 is a hybrid cannabis strain developed by Yetis Pheno, noted for its balanced genetic profile combining indica and sativa qualities. It is recognized for its significant THC content and a complex sensory experience, making it a notable cultivar in the cannabis market.
Appearance
Dragonsleeve 33 buds are characterized by a dense, resinous structure. They typically display deep forest green hues interspersed with vibrant purple shades, often accented by hints of gold and orange, particularly around the pistils. A thick coating of trichomes gives the flowers a frosty, sparkling appearance, indicative of high resin content.
Aroma & Flavor
The aroma of Dragonsleeve 33 is a complex bouquet featuring sweet, earthy, and herbal notes, underscored by pine, citrus, and spice. Its flavor profile mirrors this complexity, beginning with citrus and sweetness, transitioning into herbal notes with berry undertones and a subtle spice. This layered sensory experience is attributed to its rich terpene composition.
Effects
This hybrid strain is reported to provide a balanced experience, offering both calming and uplifting sensations. Users often describe a cerebral and euphoric high, which can contribute to a sense of well-being. Its effects are generally considered potent and can be long-lasting, stemming from its cannabinoid synergy.
Terpenes & Cannabinoids
Dragonsleeve 33 typically tests between 20% and 25% THC, with minimal CBD content below 1%. Its terpene profile is notable for myrcene and limonene, contributing to its aroma and flavor. Other terpenes like caryophyllene and pinene are also present, adding to the strain's overall character and potential effects.
Origins & Lineage
Developed by Yetis Pheno, Dragonsleeve 33 is the result of meticulous breeding aimed at harmonizing indica and sativa genetics. The strain's lineage draws from classic landrace genetics and modern cultivars, with a deliberate selection process to enhance resilience, growth, and unique terpene profiles. Expert analysis suggests a potential genetic link to high-THC strains.