Candida by Medical Marijuana Genetics
Sativa Dominant
Candida is a sativa-dominant hybrid strain developed by Medical Marijuana Genetics, known for its distinctive sativa traits and potential therapeutic applications. This strain is recognized for its robust genetic profile, resulting from meticulous breeding and selection processes.
Appearance
Candida buds are characterized by a dense and resinous structure, often appearing frosty due to abundant trichomes. The plant typically exhibits a sativa-dominant morphology, with tall growth patterns and leaves that are slightly wider than those of pure sativas. Pistils can range in color from bright orange to deep red, contrasting with emerald-green leaves.
Aroma & Flavor
The aroma of Candida is a complex blend of tropical and earthy notes, featuring initial hints of citrus and pine followed by subtle spicy undertones. Users often describe the flavor profile as a combination of freshly squeezed citrus with a lingering earthy sweetness and herbal finish.
Effects
Candida is reported to produce cerebral, creative, and energetic effects, making it a popular choice for daytime use. Its sativa-leaning genetics contribute to an uplifting experience that can enhance focus and mood.
Terpenes & Cannabinoids
Analytical studies suggest Candida's terpene profile includes Myrcene, Limonene, and Caryophyllene, which contribute to its distinct aroma and potential effects. The strain contains 15-25% THC and less than 1% CBD.
Growing
Candida is noted for its robust characteristics and potential for improved yields, with agricultural studies indicating over a 25% increase compared to earlier generations. Its genetic stability and sativa-dominant traits are well-documented, making it a benchmark for phenotype testing.
Origins & Lineage
Bred by Medical Marijuana Genetics, Candida's lineage is predominantly sativa, with subtle indica undertones contributing to a balanced hybrid experience. Its genetics stem from early sativa dominance experiments and have been refined through multiple backcrosses and modern hybridization techniques.