Pim 1 by Treeology Genetics
Sativa strains
P.I.M. #1 is a sativa-dominant hybrid meticulously developed by Treeology Genetics. This strain is engineered to deliver a spirited and energetic experience, characterized by its potent effects and complex sensory profile. It represents a significant achievement in the breeder's program, focusing on both quality and consumer satisfaction.
Appearance
P.I.M. #1 presents visually striking, dense buds with a light green coloration. These are adorned with vibrant orange pistils and a generous coating of resinous trichomes, giving them a frosted appearance. Some phenotypes may display streaks of deep purple and gold, reflecting the genetic detail invested by Treeology Genetics.
Aroma & Flavor
The aroma of P.I.M. #1 is a complex blend of citrus and pine with subtle floral undertones. Dominant limonene contributes a zesty appeal, balanced by crisp earthiness from pinene and myrcene. The flavor profile mirrors the aroma, opening with tangy citrus and grapefruit notes that transition into a rich, herbal finish with a lingering sweetness.
Effects
Users typically experience an energetic, cerebral high described as invigorating and creatively stimulating. At moderate doses, P.I.M. #1 can enhance focus and clarity, making it suitable for daytime use. The effects are predominantly uplifting and spirited, aligning with its sativa genetics.
Terpenes & Cannabinoids
P.I.M. #1 is characterized by a robust terpene profile, with limonene being the dominant compound, contributing significantly to its citrus notes. Pinene and myrcene are also present in notable amounts, enhancing the overall sensory experience. The cannabinoid profile is led by THC levels ranging from 18-24%, with trace amounts of CBD and other minor cannabinoids contributing to a balanced entourage effect.
Origins and Lineage
Developed by Treeology Genetics, P.I.M. #1 is predominantly sativa in its genetic makeup. The breeding program focused on incorporating well-documented sativa properties, aiming for high-terpene profiles and potent cannabinoid yields. Data-driven breeding methods and extensive testing of candidate plants were employed to achieve its final form.