4.5 Article

Canker and leaf scorch on olive (Olea europaea L.) caused by Neoscytalidium dimidiatum in Turkey

Journal

CROP PROTECTION
Volume 157, Issue -, Pages -

Publisher

ELSEVIER SCI LTD
DOI: 10.1016/j.cropro.2022.105985

Keywords

Olea europaea; Dieback; Branch and trunk cankers; Leaf scorch; Epidemiology

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A survey in olive groves in the Southeast Anatolia Region of Turkey discovered a new and serious decline of olive trees, characterized by foliar scorching and dieback of twigs, branches, and even whole trees. The study identified the pathogen as Neoscytalidium dimidiatum and found a positive correlation between the pathogen's growth and elevated temperatures. Some olive cultivars showed resistance to the disease, while others were more susceptible. These findings suggest an increased risk of infection in environments with increasing temperatures.
In a recent survey of olive groves in the Southeast Anatolia Region of Turkey, a new and serious decline of olive trees, beginning with foliar scorching and then dieback of twigs, branches, and even whole trees, was observed for the first time. In more advanced stages of the disease, necrosis and cankers were observed on the bark of the trunk, branches, and twigs. Isolations from symptomatic tissues from multiple cultivars in diverse locations yielded Neoscytalidium dimidiatum, which were identified using ITS, tef1, and tub2 loci of genomic DNA, in combination with morphological data. In vitro studies showed that conidial germination, hyphal growth, and pycnidia formation of the pathogen were positively correlated with elevated temperatures. Wild type olive Delice, Edincik Su, and Memecik seemed like the most resistant cultivars on which disease severity values were the lowest among 14 screened olive cultivars in two experimental orchards under natural conditions. Pathogenicity tests showed that Gemlik was the most susceptible cultivar showing the largest cankers and extensive scorch lesions. Isolates caused canker but not leaf scorch on O. europaea cultivars Arbequina Halhall, Manzanilla, Nizip Yafglik, and Saurani. Neoscytalidium isolates are likely to have a negative impact on the health of diverse olive groves, which are primarily confined to Mediterranean-type climatic regions. These findings suggest an increased risk of infection in environments with increasing temperatures, as is common in the Southeast Anatolia Region of Turkey. The information gathered in this study will be used to examine the disease's epidemiology and establish disease control initiatives. This is also the first report of N. dimidiatum infecting O . europaea in the world.

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