Abstract
The various fungal communities that adhere to apple fruit are influenced by agricultural practices. However, the effects of fruit bagging-based management practice on the fungal microbiota are still unknown, and little is known about the fungal communities of bagged apple fruit. We conducted a study using apple fruit grown in a conventionally managed orchard where pesticide use is an indispensable practice. Fungal communities were collected from the calyx-end and peel tissues of bagged and unbagged fruit and characterized using barcode-type next-generation sequencing. Fruit bagging had a stronger effect on fungal richness, abundance, and diversity of the fungal microbiota in comparison to non-bagging. In addition, bagging also impacted the compositional variation of the fungal communities inhabiting each fruit part. We observed that fruit bagging had a tendency to maintain ecological equilibrium since Ascomycota and Basidiomycota were more distributed in bagged fruit than in unbagged fruit. These fungal communities consist of beneficial fungi rather than potentially harmful fungi. Approximately 50 dominant taxa were detected in bagged fruit, for example, beneficial genera such as Articulospora, Bullera, Cryptococcus, Dioszegia, Erythrobasidium, and Sporobolomyces, as well as pathogenic genera such as Aureobasidium and Taphrina. These results suggested that fruit bagging could significantly increase fungal richness and promote healthy fungal communities, especially the harmless fungal communities, which might be helpful for protecting fruit from the effects of pathogens. This study provides a foundation for understanding the impacts of bagging-based practice on the associated fungal microbiota.
Highlights
All obtained quality-filtered 4,967,771 sequences (91.11% of total sequences) were clustered into 3331 operational taxonomic units (OTUs), which were compared with the UNITE Internal Transcribed Spacer (ITS) database at ≥97% similarity
The current study examined the effects of different management practices and fungal communities associated with different parts of the apple fruit
The results showed that the influence of management practices on fungal community structure was more significant than the influence of apple fruit parts
Summary
Apple (Malus domestica Borkh.) is an important rosaceous species and is the most economically and culturally important fruit worldwide. Its cultivation is fostered in many parts of the world, with an annual production surpassing 86 million metric tons, making it the third most cultivated fruit worldwide (http://faostat.fao.org (accessed on 5 May 2021)). Climate change (e.g., hailstorms and heavy rain) and fruit damage caused by insects and diseases are the key issues causing economic yield losses [1,2,3]. Pesticides have been widely used in the main production regions of China to protect apples from the threat of pests. Pesticide residues, including apple fruit pesticide residues, can accumulate and pose a threat to the health of various agroecosystems. To prevent losses from abiotic and biotic factors, several good agricultural practices (GAP)
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