Abstract
Apples are very susceptible to infections from various fungal pathogens during the growing season due to prolonged exposure to environmental influences in the field. Therefore, a strict and targeted fungicide strategy is essential to protect fruit and trees. Increased environmental and health concerns and pathogen resistance have resulted in a rising demand to reduce fungicide usage and residues on marketed fruit. Thus, producers must develop new plant protection strategies to conform to the legal and social demands while still offering high-quality apples. This study assessed the efficacy of a post-harvest fungicide treatment with pyrimethanil via thermo-nebulization for controlling storage rots and compared the results to those of standard pre-harvest fungicide strategies. The results showed that a single post-harvest application of pyrimethanil successfully controlled storage rots and is comparable to strategies using multiple pre-harvest fungicide applications. The control of fungal rot was sustained even after 5 months of storage and 2 weeks of shelf life. Thermo-nebulization into the storage facility allowed for a lower dosage of fungicide to be used compared to pre-harvest applications, while still maintaining optimal rot control. Residue analyses showed that the post-harvest fungicide treatment did not exceed legal or retailer’s standards.
Highlights
IntroductionPublisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
The highest captan residue levels were recorded after Treatment 6 at 1.0 mg/kg; howand shelf in all treatments by an average of ever,Following this valuestorage is far below the life, legalfirmness limits ofdecreased
The post-harvest treatment with pyrimethanil maintained a sufficient control of storage rot, equal to that achieved with various pre-harvest fungicide strategies consisting in multiple treatments with different active components
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Apples provide favorable conditions for fungal growth due to their rich availability of nutrients, high water content and suitable pH. Storage rot is the predominant cause of production losses in integrated apple production worldwide [1]. Throughout the growing season, fruit and trees are susceptible to infections by several fungal pathogens
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