Durban Fig Widow by Dutch Flowers
Durban Poison
Durban Fig Widow is a sativa-dominant hybrid developed by Dutch Flowers. It combines the potent sativa heritage of Durban Poison with unique aromatic and flavor characteristics, resulting in a strain known for its energetic and creative effects.
Appearance
Durban Fig Widow buds are typically elongated and airy, often displaying vibrant green hues with hints of deep purple and red. They are noted for dense trichome coverage, appearing to glisten like crystals. The plant structure combines sativa-like elongated internodes with a sturdy framework, and exhibits a high bud-to-leaf ratio.
Aroma & Flavor
The aroma of Durban Fig Widow is complex, featuring spicy and earthy notes with undertones of pine, balanced by a subtle, sweet, fig-like fruitiness and floral essences. Upon inhalation, the flavor mirrors the aroma, delivering a harmonious blend of sweet, tangy, and spicy notes, often described as unique and refreshing with citrus and fig-like characteristics.
Effects
This sativa-dominant strain is reported to provide energetic and tingly sensations. Consumers have noted its potential to inspire creativity, making it a suitable choice for daytime use or when seeking a mental uplift.
Terpenes & Cannabinoids
Key terpenes identified in Durban Fig Widow include Myrcene, Limonene, and Pinene, contributing to its distinct aroma and flavor profile. Genetic analysis indicates a THC concentration typically ranging from 18% to 24%, with CBD levels below 1%.
Growing
Durban Fig Widow is noted for its robustness and adaptability, performing well in various environmental conditions. It is reported to offer impressive yields and is considered a prime candidate for both commercial and connoisseur cultivation due to its stable genetic performance.
Origins & Lineage
Developed by Dutch Flowers, Durban Fig Widow is primarily a sativa, with over 70% of its genetic makeup derived from the renowned Durban Poison strain. The name 'Fig' alludes to its fruity aroma, while 'Widow' suggests its potent effects. The strain was stabilized around 2015 after experiments with genetics dating back to the early 2000s.