Panm by Teamingwithterps
Indica dominant hybrids × Sativa hints
Panm is an indica-dominant strain developed by TeamingWithTerps, celebrated for its exceptional terpene profiles and robust genetics. This variety was meticulously bred to combine the deep-rooted traditions of indica plants with modern cultivation insights, resulting in a standout cannabis experience.
Appearance
Panm presents dense, compact buds characteristic of potent indica varieties. The flowers display a rich, deep green coloration, often accented with subtle purple hues. Small trichome clusters give the buds a frosty, crystalline appearance, indicating significant resin production.
Aroma & Flavor
The aroma of Panm is a complex blend of earthy and spicy notes, reminiscent of classic indicas, with distinct hints of pine and subtle floral and citrus nuances. Its flavor profile mirrors this complexity, offering a multi-layered palate that begins with robust earthy and pine tastes, followed by undertones of spice and a mild sweetness.
Effects
Panm is noted for inducing a sense of calm and promoting focus. Its indica-dominant heritage suggests a relaxing experience, while users report enhanced mental clarity.
Terpenes & Cannabinoids
This strain features a rich terpene profile, with Myrcene and Caryophyllene identified as dominant contributors to its aroma and effects. Panm typically contains high levels of THC, averaging around 22%, with minimal CBD content. Trace amounts of other cannabinoids may contribute to its overall profile.
Growing
Panm exhibits genetic stability, performing well in controlled environments. Its indica genetics contribute to robust plant structure and resin production, potentially yielding higher amounts of essential oils compared to standard indica varieties.
Origins & Lineage
Developed by TeamingWithTerps, Panm is the result of meticulous breeding focused on combining robust indica genetics with exceptional terpene profiles. The strain's lineage is predominantly indica, with subtle sativa influences introduced to enhance terpene complexity and resin production.