Tonic Ryder by World Of Seeds Bank
Ruderalis × Indica × Sativa
Tonic Ryder is a hybrid strain developed by World of Seeds Bank, blending ruderalis, indica, and sativa genetics. It is recognized for its balanced profile, making it suitable for both therapeutic and recreational applications.
Appearance
Tonic Ryder develops dense, resinous buds covered in trichomes, indicating high cannabinoid and terpene production. The plant's foliage is a deep green, sometimes showing purple hues under specific lighting. Its structure is robust with sturdy branches, a trait influenced by its ruderalis heritage, making it well-suited for indoor cultivation.
Aroma & Flavor
The aroma of Tonic Ryder is a complex mix of pungent earthiness and subtle herbal notes, complemented by hints of citrus and pine. Its flavor profile mirrors this complexity, starting with bright citrus notes that transition into a more subdued herbal and spicy taste with an earthy undertone.
Effects
This hybrid is known for providing a balanced experience, offering a cerebral uplift alongside calming sensations. Users may find it enhances focus and creativity, making it suitable for daytime use or when seeking a gentle mood enhancement.
Terpenes & Cannabinoids
Tonic Ryder typically contains THC levels around 18% to 22%, with CBD content generally below 1%. Minor cannabinoids like CBG and CBC are also present, potentially contributing to the entourage effect. Key terpenes include Myrcene, Limonene, Caryophyllene, and Pinene.
Growing
Thanks to its ruderalis genetics, Tonic Ryder is resilient and adaptable to various climates. It exhibits auto-flowering tendencies and a compact structure, making it a good choice for indoor growers. Optimal indoor conditions can yield up to 500 grams per square meter.
Origins & Lineage
Developed by World of Seeds Bank, Tonic Ryder is a hybrid resulting from a cross involving ruderalis, indica, and sativa genetics. The intention was to create a strain with therapeutic potency and recreational appeal, emphasizing organic breeding practices and genetic resilience.