
Bosky Genetics added BIOS under-canopy lighting and gained nearly 1,000g per plant by cycle three. No new genetics. No top-light increase. Just photons placed where they were missing.
+25% Increase in dried flower yield across all strains
~1,000 G Additional wet weight per plant by cycle three
3 Cycles To confirm gains as a repeatable new baseline
Light placed where the plant actually needed it
Bosky Genetics installed BIOS under-canopy lighting to deliver photons directly to lower bud sites, interior nodes, and shaded branches where overhead fixtures simply can’t reach.
No increase in top-light intensity. No significant HVAC impact. Just light, repositioned.
The gains weren’t just at the top. Lower bud sites that previously contributed trim biomass, producing flower-grade product throughout the entire plant.
See what your lower canopy is leaving behind
Lower canopy underperformance isn't a genetics problem or a training problem. It's a light distribution problem, and it compounds across every cycle you don't address it.
Download the full case study to learn how you can maximize your yields with under-canopy lighting.




Indoor and greenhouse operators looking to standardize lighting decisions across rooms and improve run-to-run consistency.
Organizations that need a shared language for lighting decisions across facilities, and a framework that scales beyond one head grower's intuition.
Controlled environment producers where light efficiency directly drives operating cost, and where precision matters more than anywhere else.




If you're optimizing lighting based only on fixture specs or averages, you're likely leaving yield and efficiency on the table. This guide gives you a practical framework to evaluate PPFD and DLI at the canopy level, and make better decisions across your facility.