Apple blotch (Marssonina blotch), which is caused by Diplocarpon mali Harada & Sawamura (anamorph Marssonina coronaria (Ell. & J. J. Davis) J. J. Davis), is one of the major diseases of cultivated apple (Malus × domestica Borkh.) in Japan. The aim of this study was to develop a reliable index to assess the resistance of apples to Apple blotch, and evaluate resistance levels of various apple genotypes. At first, we observed the degree of disease development on natural infection with Diplocarpon mali. in the field of Apple Research Station, Institute of Fruit Tree and Tea Science, NARO. Among 12 varieties, dwarfing rootstocks, Marubakaido and Mitsubakaido revealed that the disease incidence and disease severity index were high among cultivated apples, whereas no disease symptom was found in Mitsubakaido; the disease incidence and disease severity index in Marubakaido, ‘M. 9EMLA’ and ‘M. 26EMLA’, were low compared with those in cultivated apples, ‘JM1’ and ‘JM7’. A strong positive correlation was observed between the values of the disease severity index and rate of defoliation obtained by the inoculation test and the degree of disease development, expressed as the disease incidence and disease severity index, caused by natural infection with Diplocarpon mali. in the field. Resistance levels of seventy apple genotypes including rootstocks and wild Malus species, inoculated with the conidial suspensions artificially, were classified by the values of the disease severity index as: resistance < 0.3, 0.3 ≦ moderate resistance < 0.6, 0.6 ≦ susceptible; similarly, the genotypes were classified by the values of defoliation as: resistance < 0.1, 0.1 ≦ moderate resistance < 0.4, 0.4 ≦ susceptible. Inoculation tests indicated that the resistance levels of several wild Malus species, Tarehanakaido (Malus halliana), Mitsubakaido (Malus sieboldii), Nikkozumi (Malus baccata), Bracteata (Malus coronaria), Malus angustifolia, and Malus ioensis, were rated as adequately resistant to Apple blotch, while cultivated apples including scab-resistant varieties such as ‘Florina’, ‘Freedom’, ‘Remo’, ‘Retina’, and dwarfing rootstocks of ‘M.9E’, ‘M.26E’, ‘JM1’, and ‘JM7’ were susceptible. Marubakaido and some wild Malus species belonging to Malus platycarpa, Malus pratii, Malus sieversii, Malus florentina, and Malus honanensis were rated as moderately resistant.
[1]
O. Emeriewen,et al.
Apple blotch disease (Marssonina coronaria (Ellis & Davis) Davis) – review and research prospects
,
2018,
European Journal of Plant Pathology.
[2]
F. Laranjeira,et al.
Temporal patterns of citrus greasy spot‐induced defoliation of sweet orange cultivars in Brazil
,
2015
.
[3]
F. Ma,et al.
Evaluation of Malus germplasm resistance to marssonina apple blotch
,
2013,
European Journal of Plant Pathology.
[4]
A. Patocchi,et al.
Venturia inaequalis Resistance in Apple
,
2006
.
[5]
B. Heijne,et al.
The widespread occurrence of overwintered conidial inoculum of Venturia inaequalis on shoots and buds in organic and integrated apple orchards across the Netherlands
,
2005,
European Journal of Plant Pathology.
[6]
R. Rouse,et al.
Reduction of Defoliation in Citrus Caused by Mycosphaerella citri with a Novel Biocompatible Fungicide.
,
2003,
Plant disease.
[7]
R. Gardner,et al.
Fire Blight Resistance in the Geneva Apple Rootstock Breeding Program1
,
1980,
Journal of the American Society for Horticultural Science.
[8]
V. S. Sharma.
Epidemic outbreak of apple blotch disease: epidemiology and management in Himachal Pradesh.
,
2010
.
[9]
J. Mohan,et al.
Epidemiology of Marssonina blotch (Marssonina coronaria) of apple in India
,
2009
.
[10]
H Scherm,et al.
Survival analysis of time to abscission of blueberry leaves affected by septoria leaf spot.
,
2005,
Phytopathology.