AT0318
ATD-P08
Lemon Skunk Auto
Lemon Skunk Auto
Polihybrid
Auto
62 days
110 g.
Collection:
Industry Standard
Flowering cycle days and average yield are benchmarked for an indoor grow setting on 2-liter woolrock cubes and a 3-week vegetetative cycle.
Male parents tagged with code (ATD-XXX) are proprietary mothers selected over the years by a1lphatype to breed feminized polihybrids. "ATD" stands for Alpha Type Donor, and the subsequent numbers identify the individual clone. These a1 clones have been selected for their outstanding organoleptic quality, their resilience during the gender reversal stage and the fertility of their pollen. Our ATDs allow us to maximize stability and the transmission of the female parent´s traits when reproducing virtually any strain.
Flowering cycle days and average yield are benchmarked for an indoor grow setting on 2-liter woolrock cubes and a 3-week vegetetative cycle.
Male parents tagged with code (ATD-XXX) are proprietary mothers selected over the years by a1lphatype to breed feminized polihybrids. "ATD" stands for Alpha Type Donor, and the subsequent numbers identify the individual clone. These a1 clones have been selected for their outstanding organoleptic quality, their resilience during the gender reversal stage and the fertility of their pollen. Our ATDs allow us to maximize stability and the transmission of the female parent´s traits when reproducing virtually any strain.
Flowering cycle days and average yield are benchmarked for an indoor grow setting on 2-liter woolrock cubes and a 3-week vegetetative cycle.
Male parents tagged with code (ATD-XXX) are proprietary mothers selected over the years by a1lphatype to breed feminized polihybrids. "ATD" stands for Alpha Type Donor, and the subsequent numbers identify the individual clone. These a1 clones have been selected for their outstanding organoleptic quality, their resilience during the gender reversal stage and the fertility of their pollen. Our ATDs allow us to maximize stability and the transmission of the female parent´s traits when reproducing virtually any strain.