G13nl2 by Deep Ellum Seed Company
G13 × Northern Lights 2
G13nl2, developed by Deep Ellum Seed Company, is an indica-dominant hybrid celebrated for its balanced cannabinoid and terpene profile. This strain is crafted to provide a high-quality experience, appealing to both connoisseurs and those seeking therapeutic benefits.
Appearance
G13nl2 presents dense, compact buds that are typically light to deep green in color. These buds are generously coated in trichomes, giving them a frosty appearance. The plant structure is characterized by broad leaves and heavy branching, indicative of its indica heritage.
Aroma & Flavor
The aroma of G13nl2 is a complex blend featuring deep earthy notes, complemented by undertones of pine and subtle hints of sweet spice. Upon consumption, users experience a flavor profile that harmonizes these earthy and pine elements with a pleasant sweetness and a lingering herbal finish.
Effects
G13nl2 is known to deliver a profoundly relaxing and mellow high with a rapid onset. Users often report a heavy body sensation that promotes deep calm and mental clarity, making it suitable for evening use. The strain's effects are predominantly sedative and relaxing.
Terpenes & Cannabinoids
This strain typically contains THC levels around 18%, with CBD levels below 1%. Key terpenes identified include Myrcene, Beta-Caryophyllene, Pinene, and Limonene, which contribute to its distinct aroma, flavor, and effects. Beta-Caryophyllene is noted for its spicy notes, while Myrcene is associated with sedative properties.
Growing
G13nl2 is a versatile strain suitable for both indoor and outdoor cultivation. Its genetics have been stabilized through extensive backcrossing and modern breeding techniques to ensure consistent phenotypic expression and desirable traits. The plant is noted for its resilient growth pattern.
Origins & Lineage
Bred by Deep Ellum Seed Company, G13nl2 is a predominantly indica-dominant strain with roots in classic indica genetics. The breeding process involved meticulous selection and refinement over several years, utilizing both traditional practices and modern molecular techniques to achieve gene stability.