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Characterization of Fungal Species Isolated from Cankered Apple Barks Demonstrates the Alternaria alternata Causing Apple Canker Disease.

Zhiqiang LiHao LiJiating ZhangShikai ZhangQi ZhaoChunzhen ChengYongyan Zhang
Published in: Journal of fungi (Basel, Switzerland) (2024)
Apple canker disease, also named as apple Valsa canker, is one of the most destructive diseases for apples ( Malus domestica Borkh.). Cytospora / Valsa spp. are the dominant causal agent of this disease, but many studies have revealed that fungi from some other genus can also cause typical apple canker symptoms. In this study, we performed fungal pathogen isolation from cankered 'Fuji' apple barks. Six representative morphologically different fungi (Strain 1-6) were further subjected to ITS sequencing and evolutionary analysis. Molecular identification results revealed that Strains 1-6 are Cytospora mali , Fusarium cf. solani , Alternaria alternata , C. mali , Diplodia seriata and F. proliferatum , respectively. All these fungi have been reported to be causal agents of apple diseases. By inoculating fungal plugs onto trunks of 'Fuji' apple trees, the pathogenicity of the six fungi were accessed. Only the inoculations of the two C. mali strains (Strain 1 and Strain 4) and the A. alternata strain (Strain 3) resulted in typical apple canker symptoms in trunks. It is worth noting that Strain 1 caused much more severe canker symptoms and higher pathogenicity incidence than the other two fungi. A. alternata has been identified as a pathogen causing diseases on apple fruits and leaves. By further assessing its pathogenicity on apple fruits and leaves, we verified that it can also cause typical fruit rot and leaf spot symptoms. To the best of our knowledge, this is the first report on apple canker disease caused by A. alternata in China. Our present study can provide a theoretical foundation for the prevention and control of apple canker disease.
Keyphrases
  • escherichia coli
  • gene expression
  • single cell
  • dna methylation
  • cystic fibrosis
  • genome wide
  • cross sectional
  • transcription factor