Lemon Zkittle® is a feminized photoperiod hybrid with extreme THC levels of over 20% from the USA. The genetics come from Las Vegas Lemon Skunk which was crossed with a prized Zkittlez parent. The most potent offspring which was remarkably stress resistant, was the yellow lemon zkittle phenotype. She produces heavy yields, a fresh lemon aroma and bright green and yellow buds in bloom.
The Zkittlez parent variety is one of the best USA varieties, selling for up to $35/g with some of the highest THC levels we have seen. Lemon Zkittle® is easy to grow with exceptional resin production, a sour citrus aroma and fantastically strong buds. She is around 60% sativa, medium height and takes 9-10 weeks in bloom with XL yields. Bred for potency with a fresh lemon taste, one of our most potent creations ever.
Strain FAQ
What distinguishes Zkittlez's lineage?
Zkittlez, made from Grape Ape, Grapefruit, and a mystery strain, tastes and smells like the candy it's named for. This indica-dominant hybrid is said to be both colourful and tasty!
Where do the genetics for High-THC cannabis strains come from?
High-THC strains combine sativa, indica, and hybrid traits. This rich genetic mix is created through careful breeding to increase THC and create a mesh of cannabinoids and terpenes for a variety of effects. It's a balancing act that showcases the art and science of legal cannabis cultivation.
How popular are sour cannabis strains?
Some sour strains are considered legendary in the cannabis community. Their unique taste and effects have made them a standard in dispensaries and seed banks for those seeking varied flavour profiles.
Do 12/12 photoperiod cannabis strains have a lot of genetic variability?
Some 12/12 photoperiod strains are like cannabis chameleons, adapting to varied lighting conditions without affecting growth or blooming. Their versatility makes them particularly hardy in different environments.
What makes legal indoor growing systems water-efficient?
Hydroponics and aeroponics make legal indoor cannabis growth water-efficient. These systems recycle water and nutrients, reducing waste and use. This win-win is said to provide plants with critical nutrients while minimising environmental effects.