Tea Time By
Z × RS11
Tea Time By is a hybrid strain cultivated by Wizard Trees, launched in 2023. It is noted for blending modern breeding with classic genetics, aiming to provide a balanced experience for both recreational and medicinal users.
Appearance
The buds of Tea Time By are characterized by their dense structure and a frosty coating of trichomes. They display a striking visual combination of deep forest greens and vibrant purples. This aesthetic is complemented by abundant resin production, signaling a potent cannabinoid content.
Aroma & Flavor
Tea Time By offers a complex aroma that blends spicy, sweet, and herbal notes, reminiscent of brewed tea. Consumers frequently detect hints of citrus and floral undertones, with underlying earthy and pine scents. The flavor profile mirrors the aroma, presenting a sophisticated taste that evolves from sweet to deeper herbal and spicy notes.
Effects
This strain is reported to provide a harmonious balance of effects, often described as calming and cerebral. Users may experience a sense of focus and enhanced creativity. The overall experience is geared towards a nuanced and enjoyable cannabis consumption.
Terpenes & Cannabinoids
While specific lab percentages are not detailed, Tea Time By is noted for a terpene profile that includes Myrcene, Limonene, Linalool, and Pinene. These contribute to its distinct aroma and flavor characteristics. The cannabinoid profile is generally moderate, suitable for a balanced experience.
Growing
Developed by Wizard Trees, Tea Time By is noted for its hybrid vigor, showing a faster maturation rate compared to its parent strains. Cultivation trials suggest consistent performance and optimal yield per square foot, making it a reliable option for growers seeking premium quality.
Origins & Lineage
Tea Time By was created by Wizard Trees in Los Angeles and launched in 2023. It is the result of a cross between two notable genetics, identified as Z and RS11. This deliberate hybridization aims to combine the resilience and unique profiles of its parent strains.