Authors
Lené van der Walt, University of Stellenbosch, Department of Plant Pathology, Private Bag X1, Matieland 7602, South Africa;
Robert A. Spotts, Oregon State University, Mid-Columbia Agricultural Research and Extension Centre, Hood River, Oregon 97031, U.S.A.;
Cobus M. Visagie and
Karin Jacobs, University of Stellenbosch, Department of Microbiology, Private Bag X1, Matieland 7602, South Africa; and
Francois J. Smit and
Adéle McLeod, University of Stellenbosch, Department of Plant Pathology, Private Bag X1, Matieland 7602, South Africa
ABSTRACTSymptoms associated with the core region of apple fruits (Malus domestica) can be classified as moldy core (MC), wet core rot (WCR), and dry core rot (DCR). Infections leading to WCR are thought to occur primarily postharvest, although in South Africa preharvest symptoms also have been reported. The first aim of this study was to investigate the causative agent(s) of preharvest WCR by isolating fungi from eight internal positions in asymptomatic, MC, WCR, and DCR fruits. Secondly, the pathogenicity and virulence of all Penicillium isolates were investigated using three apple fruit inoculation methods: surface wounding, deep wounding, and nonwounding. Isolation of fungi from WCR fruits showed that Penicillium was the predominant fungal genus from most isolation positions including the lesion area. Penicillium ramulosum was the predominant species isolated from all fruits. However, in WCR fruits, the incidence (58%) of P. ramulosum was much higher than in MC (6%), DCR (7%), or asymptomatic (7%) fruits. Less frequently isolated Penicillium species included P. expansum and a few other species. Pathogenicity testing using the nonwounding method was best at discriminating highly virulent isolates. P. expansum was the most virulent species, followed by a putative new Penicillium species with closest sequence similarity to P. dendriticum. P. ramulosum isolates, although showing varying degrees of virulence, all had low virulence, causing only small lesions in wounded apple fruits.