Candylicious by Irie Genetics
Unknown × Unknown
Candylicious is an indica-dominant strain developed by Irie Genetics, recognized for its potent effects and distinct sweet, candy-like sensory profile. This variety quickly gained popularity among both connoisseurs and those seeking therapeutic benefits.
Appearance
Candylicious buds are typically dense and compact, distinguished by a vibrant color palette that includes deep greens and occasional purple hues. A generous coating of trichomes gives the buds a frosty, sparkling appearance, indicative of their rich cannabinoid and terpene content.
Aroma & Flavor
The aroma of Candylicious is prominently sweet, evoking sugary confections with underlying notes of citrus and tropical fruits. Its flavor profile mirrors its scent, offering an initial burst of candy-like sweetness balanced by citrus and tropical nuances, with a subtle spicy finish on the exhale.
Effects
This strain is noted for producing cerebral effects, often leading to a sense of euphoria. While specific details on its full spectrum of effects are limited in the source, it is generally associated with a potent experience due to its high THC content.
Terpenes & Cannabinoids
Laboratory analyses indicate that Candylicious typically contains THC levels ranging from 22% to 30%, with CBD content below 1%. Key terpenes identified include Myrcene, Limonene, and Caryophyllene, which contribute to its distinctive aroma, flavor, and potential effects.
Growing
While specific cultivation details are not extensively provided, Irie Genetics is known for rigorous breeding standards, suggesting a focus on robust, high-yielding plants. The dense bud structure implies significant resin production.
Origins & Lineage
Developed by Irie Genetics, Candylicious is the result of experimental breeding aimed at maximizing potency and capturing a nostalgic candy-like essence. Its genetic lineage is a carefully selected combination of parent strains known for their complementary characteristics, including sweetness, flavor, and cannabinoid potency.