How to Choose the Best Greenhouse Film for Optimal Crop Growth

Choosing the right greenhouse plastic film is crucial for maximizing crop growth, increasing yield, and improving energy efficiency.

The ideal film should offer durability, high light transmission, resistance to environmental factors and pesticides, and the ability to create optimal growing conditions. With climate change and rising global demand for quality produce, selecting the right plastic cover is essential.

Below, we discuss the key factors to consider when choosing a greenhouse film for specific crops and growing environments.

Durability for Resistance to Weather Conditions

Greenhouse plastic films are especially exposed to extreme weather conditions such as wind, rain, hail, and UV radiation. To ensure longevity and crop protection, growers need films with high mechanical strength and weather resistance.

Modern greenhouse films incorporate UV stabilizers and antioxidants to resist degradation and maintain their properties over time, especially in regions with intense sunlight. This extends the lifespan of the plastic film, reducing replacement costs.

In addition, a new generation of super-tough films provides excellent mechanical strength and additional safety in areas with strong winds.

Light Transmission for Improved Growth

Light transmission directly affects plant photosynthesis, influencing growth and yield. The right plastic film should maximize light penetration to ensure plants receive adequate energy. Some greenhouse films achieve over 93% light transmittance, optimizing plant growth.

However, excessive light can lead to overheating and plant stress. Therefore, it is essential to balance light transmission with light diffusion to prevent crop burns and maintain an optimal greenhouse climate.

Light Diffusion for Uniform Growth

Light diffusion improves uniform light distribution in the greenhouse, reducing shadows and preventing plant burns. It also enhances growth in dense crops, limited-space greenhouses, and vertical farming. The appropriate diffusion level varies based on climate and crop type:

• High diffusion (>60%): Ideal for tropical climates and crops that thrive under diffused light.
• Medium diffusion (40-50%): Suitable for Mediterranean regions.
• Low diffusion (25-30%): Best for areas with moderate sunlight.
• High clarity (<20% diffusion): Recommended for double-inflated greenhouses and low-sunlight regions.

Thermic Effect for Energy Efficiency

Maintaining optimal temperatures within the growing environment is vital for crop growth and development. Thermic films retain heat, reducing heating costs and improving crop yield. By incorporating EVA and IR absorbers, these films minimize heat loss at night, offering benefits such as:

• Protect crops from frost and low temperatures.
• Ensure smoother nighttime temperature drops.
• Reduce energy consumption for heating.
• Promote early harvesting and better-quality produce.

Humidity Control to Prevent Diseases

Controlling humidity levels inside the greenhouse is crucial for preventing fungal diseases and ensuring healthy plant growth. Excessive humidity can promote fungal infections. Condensation buildup on the film surface can reduce light transmission by 15% to 30%.

Advanced anti-drip and anti-fog films eliminate droplets by forming a continuous layer of water that drains away, thus increasing light transmission. The risk of mist formation during sunrise and sunset, which creates a favorable environment for pathogens, is also eliminated.

Effective humidity management enhances water-use efficiency within the greenhouse.

Cooling for Effective Heat Control

High temperatures can stress plants and reduce yields. Cooling films reflect or absorb near-infrared (NIR) radiation, reducing excessive daytime heat and sustaining a cooler greenhouse environment. The right cooling films can:

• Reduce excessive daytime heat.
• Ensure consistent growing conditions.
• Prevent plant stress.
• Extend the growing season for various crops.
• Create a more comfortable working environment.

Pest and Disease Control

UV-blocking films, which absorb UV radiation up to 380 nm, offer the following advantages:

• Reducing certain insect populations and insect-borne viruses.
• Controlling the spread of diseases like botrytis by limiting fungal sporulation.
• Minimizing the use of pesticides for a safer and more sustainable growing environment.
• Preventing red rose petal blackening, enhancing their commercial value.

However, UV-blocking films should be used with caution when using pollinators, beneficial insects, or growing violet-colored crops such as eggplants and cyclamen.

Special Effects for Growth Enhancement

Advanced greenhouse films can modify the light spectrum, influencing plant growth and coloration. Some specialized options include:

• Photoselective Films: Control plant growth patterns, increasing yield and influencing stem elongation or dwarfing.
• UV-Open Films: Enhance plant coloration, harden plants, and support rooting, benefiting crops like red lettuce, strawberries, and specific rose varieties.

Conclusion: Maximizing Benefits with the Right Greenhouse Film

Investing in high-quality plastic films tailored to the specific needs of each area and crop will yield long-term benefits in both crop quality and greenhouse operational efficiency. The right plastic film should:

• Adjust light transmission and light diffusion.
• Provide excellent durability.
• Create optimal growing conditions.
• Enhance plant growth and yield.
• Resist degradation from pesticides.
• Minimize pest and disease incidents.
• Reduce energy costs.
• Improve sustainability by reducing pesticide usage and extending film longevity.

At Plastika Kritis, we have been manufacturing high-quality greenhouse films since 1970. Contact us today to learn how our specialize greenhouse films can be tailor-designed to meet the needs of farmers worldwide!