Crossing Amsterdam’s most popular strain, Amnesia Haze, with the avalanche of flavour contained in Caramella genetics has produced an elite sativa hybrid which measures up to any rival.
The aroma and flavour contained in this Amazing Haze strain are overwhelming: an effervescent and rich sweetness marked by instantly recognisable touches of caramel.
This sativa-dominant hybrid will yield huge and loaded buds in a 10- to 12-week flowering time, bearing loads of THC crystals. This strain will most certainly reward your patience making for a final product that will put all of your senses to the test!
This elite cannabis strain has more than taste alone, it also produces a high that average smokers will easily find stupefying in its richness. Put simply, Amazing Haze is a true queen among Amsterdam’s hybrid cannabis nobility.
- BREEDER/BRAND Amsterdam Genetics
- GENETICS Caramella x Amnesia Haze
- VARIETY Mostly Sativa
- FLOWERING TYPE Photoperiod
- SEX Feminised
- THC CONTENT 24%
- CBD CONTENT 0.5%
- GROWS Greenhouse, Grows indoors, Grows outdoors
- FLOWERING TIME 70 - 84 days
- MEDICAL CONDITIONS Depression, Pain, Stress
- MEDICINAL PROPERTIES Yes
- TASTE / FLAVOUR Caramel, Fruity, Sweet
- EFFECT Cerebral, Energetic, Euphoric, Happy, Uplifting
Strain FAQ
Is there a peppery element on caramel tasting strains?
Yes, surprisingly! When combined with sweeter terpenes, The terpene caryophyllene's spicy, peppery flavour intensifies the caramel taste.
What do Haze strains smell and taste like?
As different as their genetics, Haze strains smell and taste earthy, woody, sweet, and lemony. Haze is reportedly a delicacy for those who like subtle and pleasurable consumption since their diverse combination of terpenes enhances the overall experience.
What role does stress play in increasing THC levels in cannabis plants?
Strategically applied stress, known as 'stress training,' can enhance THC levels in cannabis plants. Techniques such as low-stress training (LST), super cropping, and controlled light exposure are used to stress the plant in a way that boosts cannabinoid synthesis without harming the plant. This method must be carefully managed to avoid over-stressing the plants, which can lead to adverse effects.