Growing greenhouse peppers carries big investments. It’s a game of driving high, quality yields from every square meter to meet consumer demand and maximize your ROI. For optimal growing conditions, you need the right structure, agro-technical solutions, tools and agronomic know-how.
Which structure should I use when growing peppers?
There are three common greenhouse structures: glasshouses, poly houses, and net houses. All three are suitable for growing peppers. The questions you should ask are: what are the local environmental conditions? And, how much do you want / can you invest?
Glasshouse structures are suitable for commercial production of peppers in mild to cold climates and require high investments. Poly houses are suitable for diverse climatic conditions, and net houses are more suitable for hotter and dry climates (non-rainy climates).
What is the growth cycle of greenhouse peppers?
Planting time in greenhouses depends on marketing time. It’s common to have 1 growing cycle per year that lasts 90 days, from planting to first harvest. In good climate conditions, the harvest period will take 7-8 months.
What is the average yield for different greenhouse structures and technologies, assuming climate conditions are optimal?
How do the EC and pH affect my greenhouse peppers?
Ensuring the right EC, pH, and nutrient levels in the root zone is critical for fast growing and high yielding crops. This is especially true when growing in soilless media, since the growing medium has low buffer capabilities and demands a fast and precise reaction. You need a system that can react quickly to any change, be it crop stage or climate. This can mean the difference between winning and losing. Precision drip systems are based on non-drainage drippers, designed for pulse irrigation and special dosing systems that allow you to keep all parameters exactly where you need them, and react to changes on demand.
What are the benefits of Compensated Non-Leakage (CNL) drippers?
Irrigation of soilless media is characterized by short irrigation pulses (minutes). With CNL drippers, you increase fertigation uniformity by saving the refilling time of the system and preventing system drainage that causes uneven water distribution. This means that all the drippers start and stop to drip at exactly the same time.