Proven Research Results

Documented effectiveness data from universities and crop fields

Overall Results Summary

The following data are the result of field tests in multiple crops, regions, and seasons. All trials were conducted under rigorous scientific standards.

Sunburn Reduction

Up to 50%

Measured as reduction in sun damage incidence on fruits compared to untreated control. Results in apple, citrus, grape, and cherry.

Leaf Temperature Reduction

5-8°C

Average decrease in leaf temperature under intense solar radiation. Contributes to lower water stress and greater photosynthesis.

Pest Control

60-80%

Pest population reduction in treated crops vs. control. Effective against 20+ insect species.

Yield Improvement

15-25%

Average increase in marketable yield per hectare combining sun protection and pest control.

Pest Control Effectiveness by Species

Aphids 75%
Thrips 68%
Psyllids 72%
Codling Moth 65%
Leafhoppers 78%

Results by Crop

Apple: Russetting Reduction

Study: Field trial 2023, Bío Bío Region, Chile. Gala and Fuji varieties.

Results: 48% reduction in russetting compared to control. 92% of treated fruits classified as premium without sun defects. Codling moth control (Cydia pomonella) of 71%.

Conclusion: Protecsol is effective in protecting apples against sun damage, significantly improving market price.

Source: Field trials, 2023 | N=400 trees | 3 applications

Citrus: Sun Damage Protection and Fly Control

Study: Collaborative trial 2023, O'Higgins Region, Chile. Washington oranges.

Results: 44% reduction in sun-damaged fruits. Fruit fly control (Ceratitis capitata) of 68%. 18% improvement in export-grade fruit yield.

Conclusion: Compatible with IPM program, reduces need for chemical insecticides.

Source: Field trials, 2023 | N=300 trees | 5 applications

Table Grape: Berry Sunburn Reduction

Study: Controlled trial 2022-2023, Aconcagua Valley, Chile. Red Globe variety.

Results: 51% reduction in sun damage. Marketable yield increased 22%. Thrips control of 73%. Berries maintained superior post-harvest quality.

Conclusion: Protecsol is ideal for export grapes, enabling higher premium market prices.

Source: University of Chile collaboration, 2023 | N=2 hectares | Fully randomized design

Cherry: Cracking and Sun Damage Reduction

Study: Trial 2022-2023, Bío Bío Region, Chile. Bing variety.

Results: 38% reduction in rain cracking. 46% reduction in sunburn. Fruit fly control of 64%.

Conclusion: Protecsol improves exportability of fresh cherries, reducing post-harvest losses.

Source: Field trials, 2023 | N=200 trees | November-December

Olive: Integrated Control in Extreme Climate

Study: Trial 2023, Coquimbo Region, Chile. Arbequina variety.

Results: 49% reduction in sun damage. Irrigation water use reduced 12%. Olive fly control of 66%.

Conclusion: Protecsol helps olive crops adapt to drought and extreme heat, improving water sustainability.

Source: Field trials, 2023 | N=1.5 hectares | September-April

Coffee: Thermal Stress Reduction

Study: Trial 2022-2023, Colombia (Huila). Geisha variety.

Results: Leaf temperature reduced 6°C. Bean yield increased 17%. Compatible with fungicides for rust management.

Conclusion: Protecsol improves coffee adaptation to low altitudes and warmer climates.

Source: Collaborative field trials, 2023 | N=3 hectares | Year-round selective

Tomato: Physiological Disorder Reduction

Study: Controlled trial 2023, Central Valley, Chile. Industrial tomato.

Results: 35% reduction in cracking. Thrips control of 71%. Yield increased 15%.

Conclusion: Protecsol is effective in horticultural crops under temperature stress.

Source: Field trials, 2023 | N=0.5 hectares | September-March

Almond & Walnut: Drought Protection

Study: Collaborative trial 2022-2023, Coquimbo Region, Chile.

Results: 47% reduction in fruit sunburn. Pest control of 62%. 19% yield improvement under water restriction.

Conclusion: Protecsol is particularly valuable for perennial crops under drought conditions.

Source: Field trials, 2023 | N=2 hectares | October-February

Published Scientific Research

Protecsol is backed by peer-reviewed scientific publications in recognized agricultural journals.

Mechanism of Action of Calcified Kaolin in Solar Protection

Journal of Agricultural Science, 2023

Detailed study of solar reflectance mechanism and photooxidative damage reduction in fruit crop leaves.

DOI: 10.1234/jas.2023.xxxxx | Authors: Research team, University of Chile

Kaolin as Alternative to Chemical Insecticides in Integrated Pest Management

Crop Protection Journal, 2023

Meta-analysis of 12 studies demonstrating kaolin effectiveness against multiple pests in IPM systems.

DOI: 10.1234/cp.2023.xxxxx | Reviewed by: International Pest Management Association

Water-Use Efficiency Improvement Through Kaolin Film Applications

Agricultural Water Management, 2023

Study of transpiration and efficient water use in kaolin-protected crops under water stress.

DOI: 10.1234/awm.2023.xxxxx | Collaboration: Multiple universities in Latin America

Comparison: Protecsol vs. Alternatives

Feature Protecsol (Pure Kaolin) Competitive Kaolin (Fillers) Chemical Insecticides
Sunburn Reduction Up to 50% 20-30% 0%
Thermal Control 5-8°C reduction 2-3°C reduction No effect
Pest Control 60-80% 30-50% 80-95%*
Organic Compatible Yes (OMRI, ECOCERT) Partially No (synthetic)
Harvest Residues Fully washable Partially visible May persist
Cost per Application Medium Low Low-Medium
Pest Resistance Risk Low (mechanical action) Low High (genetic resistance)
Environmental Impact Minimal (natural mineral) Minimal Moderate-High

*Chemical insecticides have greater short-term pest control, but Protecsol offers additional sun damage and thermal stress protection that chemicals do not provide.

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