Deepforest Super Auto by Doctors Choice
Ruderalis × Indica × Sativa
Deepforest Super Auto is a hybrid strain developed by Doctor's Choice, noted for its auto-flowering characteristics and balanced profile. It combines genetics from ruderalis, indica, and sativa strains, resulting in a resilient plant with a streamlined cultivation process.
Appearance
Deepforest Super Auto typically presents dense, compact buds with a visually appealing structure. Plants often display a mix of dark green foliage with subtle purple undertones, enhanced by a thick layer of trichomes. The buds are generally conical and covered in a frosty resin, contributing to a refined appearance.
Aroma & Flavor
The aroma of Deepforest Super Auto is a complex blend of earthy and herbal notes, reminiscent of pine forests with hints of mint and sweet spice. Upon consumption, flavors evolve to include rich woody notes, subtle sweet berry undertones, and earthy accents, balanced by a slight herbal bitterness.
Effects
Users report that Deepforest Super Auto can provide a balanced experience, often described as calming yet energetic. This hybrid is appreciated for its ability to offer a pleasant mental state and a sense of upliftment.
Terpenes & Cannabinoids
While specific lab results vary, Deepforest Super Auto is known to contain terpenes such as Myrcene, Limonene, and Pinene, contributing to its distinct aroma and flavor profile. The strain typically exhibits a THC content around 18% and less than 1% CBD, indicating a primarily psychoactive effect.
Growing
As an auto-flowering strain, Deepforest Super Auto benefits from a shortened flowering cycle due to its ruderalis genetics. It is considered resilient and capable of thriving in various climates, often yielding between 300 to 500 grams per square meter in optimal indoor conditions. Its structure is well-suited for indoor cultivation.
Origins & Lineage
Developed by Doctor's Choice, Deepforest Super Auto is a hybrid created by crossing cannabis ruderalis with indica and sativa genetics. This hybridization was aimed at achieving a balanced auto-flowering plant with robust characteristics and a unique sensory profile, representing an advancement in auto-flowering genetics.