Case Study: Enhanced Cannabis Flowering in Brazilian Greenhouse
Client Overview
Location: São Paulo, Brazil
Facility: Medical cannabis production greenhouse (5,000 m²)
Challenge: Inconsistent flowering cycles and lower bud density due to tropical climate variability (high humidity, seasonal light fluctuations).
Solution Implemented
Our advanced dynamic lighting + climate control system was deployed to:
✔ Optimize photoperiod response – Automated spectral tuning to mimic ideal flowering conditions.
✔ Stabilize microenvironment – Real-time humidity/temperature adjustment to prevent stress-induced delays.
✔ Boost CO₂ assimilation – Integrated enrichment during peak photosynthesis hours.
Key Results (8-Week Trial)
| Metric | Before Installation | After Installation | Improvement |
| Flowering Duration | 54–60 days | 44–48 days | ↓18% |
| Flowering Uniformity | 65% consistent | 89% consistent | ↑37% |
| Dry Bud Yield/m² | 390g ±12% | 470g ±6% | ↑21% |
| Cannabinoid Stability | ±15% variance | ±8% variance | ↓47% |
Client Testimonial
“The system transformed our cultivation efficiency. We achieved faster flowering bursts and higher-grade buds within the first cycle. Most importantly, the yield consistency met our GMP export requirements—something we struggled with before.
Technical Highlights
🔬 Precision Light Spectrum
– Tailored red/far-red ratios (660nm + 730nm) to stimulate phytochrome conversion, accelerating transition from vegetative to flowering stage.
🌡️ Climate Synergy
– Maintained 22–26°C canopy temperature and 60–65% RH during critical bud development, reducing foxtailing risk.
📊 Data-Driven Adjustments
– IoT sensors tracked VPD (Vapor Pressure Deficit) trends, automatically adjusting irrigation to match transpiration rates.
Why This Matters for Cannabis Growers
1. Faster Turnover → 2 extra harvests/year in tropical regions
2. Higher Premium Yield → Denser buds with tighter calyx structure
3. Regulatory Advantage → More predictable cannabinoid profiles for compliance
