Citral Skunk by Ch9 Female Seeds
Citral × Unknown Skunk
Citral Skunk is a hybrid cannabis strain developed by CH9 Female Seeds, noted for its intriguing aroma and balanced effects. It emerged from a period of extensive hybridization aimed at combining desirable traits from classic cannabis varieties.
Appearance
Citral Skunk buds are dense and compact, often displaying a mix of deep greens with hints of yellow. Bright orange pistils weave through the nugs, which are typically coated in a generous layer of trichomes. The plant structure is moderately tall, with well-distributed lateral branches creating a dense canopy.
Aroma & Flavor
The aroma of Citral Skunk is characterized by vibrant citrus notes, reminiscent of lemon and lime, layered with an earthy, skunky undertone. Its flavor profile mirrors the aroma, offering an initial citrus blast that transitions into a robust skunky essence, often described as refreshing and multi-layered.
Effects
This strain is reported to provide a balanced high, with users noting a sense of creativity. Its effects are generally considered to be uplifting and engaging, making it suitable for various consumption occasions.
Terpenes & Cannabinoids
While specific terpene profiles can vary, key aromatic compounds often include Myrcene, Limonene, and Caryophyllene, contributing to its distinct scent and flavor. Laboratory analyses indicate a THC content typically ranging between 10-15%, with minimal CBD presence below 1%.
Growing
Cultivating Citral Skunk requires attention to humidity and temperature control due to the dense nature of its buds, which can help prevent mold. The plant's growth habit is moderately tall, making it suitable for indoor cultivation where its structure can be managed effectively.
Origins & Lineage
Citral Skunk is a hybrid resulting from a crossbreeding program by CH9 Female Seeds, blending genetics from Citral and an Unknown Skunk variety. Some sources suggest potential influences from Gorilla Glue #4. The lineage aims to balance sativa-derived citrus traits with indica-like stability.