Iscariot by Gnostic Seeds
Indica × Sativa
Iscariot by Gnostic Seeds is a hybrid strain meticulously developed by blending indica and sativa genetics. It is recognized for its balanced heritage, distinct sensory profile, and potent cannabinoid content, offering a multifaceted cannabis experience.
Appearance
Iscariot presents dense, well-formed buds with an intricate structure. These buds are often characterized by a rich color palette, featuring deep greens that can be accented by purplish hues. Abundant trichome coverage gives the buds a frosted appearance, signaling high resin production, while bright orange or red pistils add visual contrast.
Aroma & Flavor
The aroma of Iscariot is complex, combining earthy undertones with spicy and herbal notes. Initial scents are often sharp, with detectable hints of pine, citrus, and pepper. This aromatic profile translates into a flavor that mirrors these notes, featuring a robust taste that blends earthy, musky, and sweet elements with spicy, citrusy, and pine-like undertones.
Effects
Users report that Iscariot delivers a balanced experience, combining mental clarity with physical relaxation. The effects are often described as cerebral and energetic, promoting creativity. This hybrid nature allows for a well-rounded experience that can be both invigorating and calming.
Terpenes & Cannabinoids
Iscariot typically contains THC levels ranging from 18-24%, with CBD content below 1%. Its terpene profile is noted for significant levels of myrcene, limonene, and caryophyllene. These compounds contribute to the strain's distinct aroma, flavor, and perceived effects, potentially enhancing the overall experience through the entourage effect.
Origins
Developed by Gnostic Seeds, Iscariot is the result of a carefully engineered crossbreed aiming to balance indica and sativa genetics. The strain's name evokes a sense of mystery and rebellion, reflecting the experimental and innovative approach of its breeders. It emerged from iterative breeding programs focused on selecting and cross-referencing phenotypes.