Masato Torii scite author profile

Masato Torii

4Publications

57Citation Statements Received

242Citation Statements Given

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233

Affiliations

Forestry and Forest Products Research Institute, The University of Tokyo, Mie University

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Spatial distribution of Raffaelea quercivora hyphae in transverse sections of seedlings of two Japanese oak species

Torii

Matsuda

Murata

et al. 2010

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To compare the distributions of Raffaelea quercivora hyphae within seedlings of a susceptible species, Quercus crispula, and a resistant species, Q. glauca, we examined water conductance at transverse sections. Raffaelea quercivora was inoculated into the stems of seedlings in July (summer) and October (autumn) and observed by light and fluorescence microscopy at 1 and 2 weeks after inoculation. The hyphal distribution patterns expressed as the I d index differed between the species at each occasion. The hyphal growth was wider in Q. crispula than in Q. glauca in July inoculation, but did not differ in October inoculation. Non-conductive sapwood in Q. crispula in transverse section was wider than that in Q. glauca at each occasion. The differences of hyphal growth and hyphal distribution patterns between species as little as 1 week after inoculation reflect differences in host susceptibility to the fungus.

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Extent of colonization by Raffaelea quercivora of artificially inoculated living and gamma‐ray‐sterilized seedlings of two Japanese and three American oak species

2013

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Mass mortality of Fagacean tree species caused by Raffaelea quercivora has occurred widely in Japan. Because conidia or other propagules of the pathogen have not been found in infected trees, pathogen spread is assumed to occur primarily by hyphae. To clarify the relationship between hyphal growth of the pathogen within trees and their vessel arrangements, we examined two native Japanese oaks, Quercus crispula and Quercus glauca, and three exotic American oaks, Quercus coccinea, Quercus palustris and Quercus rubra. Quercus glauca is a radial-porous species, whereas the other four species have a ring-porous wood structure. Hyphal growth within inoculated potted living seedlings and in cut, sterilized stem segments of these species was examined microscopically after fungal inoculation. Water conductance in the seedlings was examined using transverse stem sections. The proportion of non-conductive sapwood in Q. crispula, Q. coccinea and Q. palustris differed between inoculation and control treatment, being much higher in inoculated seedlings. The proportions were positively correlated with the extent of the hyphal growth. In sterilized stem segments, the extent of fungal colonization varied among the foreign ring-porous species Q. coccinea, Q. palustris and Q. rubra. It is hypothesized that the extent of colonization by R. quercivora reflects the extent of non-conductive sapwood irrespective of tree species, but is little affected by vessel arrangements.

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Variations in virulence and hyphal growth of four Raffaelea quercivora isolates within Quercus crispula

et al. 2016

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Mass mortality of fagaceous trees caused by Japanese oak wilt has occurred widely in Japan. Although virulence of the causal fungus, Raffaelea quercivora, appeared to differ among isolates, its relation to the fungal growth within trees was unknown. To clarify the differences in fungal virulence against susceptible Quercus crispula, we examined fungal growth of four R. quercivora isolates within trees and the resulting virulence. In our study, the isolates were multiple-inoculated in seedlings and single-inoculated in twigs of mature trees. In the multiple-inoculation test, mortality rates were examined by the observation of external symptoms. In the single-inoculation test, water conductance and hyphal growth within the trees were examined by applying aqueous dyes and fluorescence microscopy, respectively. Mortality rates, the proportion of the cross-sectional area comprising non-conductive sapwood and horizontal hyphal growth differed significantly among the isolates. Univariate logistic regression analyses showed that both the proportion of non-conductive sapwood and hyphal growth were significantly positively related to mortality rates. For three isolates, hyphal growth was significantly positively correlated with the proportion of non-conductive sapwood. These results suggested that the virulence against Q. crispula varies among R. quercivora isolates and that the extent of fungal colonization of the tree determines fungal virulence.

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The Effect of Raffaelea quercus-mongolicae Inoculations on the Formation of Non-conductive Sapwood of Quercus mongolica

et al. 2014

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In Korea, mass mortality of Quercus mongolica trees has become obvious since 2004. Raffaelea quercus-mongolicae is believed to be a causal fungus contributing the mortality. To evaluate the pathogenicity of the fungus to the trees, the fungus was multiple- and single-inoculated to the seedlings and twigs of the mature trees, respectively. In both the inoculations, the fungus was reisolated from more than 50% of inoculated twigs and seedlings. In the single inoculations, proportions of the transverse area of non-conductive sapwood at inoculation points and vertical lengths of discoloration expanded from the points were significantly different between the inoculation treatment and the control. In the multiple inoculations, no mortality was confirmed among the seedlings examined. These results showed that R. quercus-mongolicae can colonize sapwood, contribute to sapwood discoloration and disrupt sap flows around inoculation sites of Q. mongolica, although the pathogenicity of the fungus was not proven.

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Masato Torii

Spatial distribution of Raffaelea quercivora hyphae in transverse sections of seedlings of two Japanese oak species

Extent of colonization by Raffaelea quercivora of artificially inoculated living and gamma‐ray‐sterilized seedlings of two Japanese and three American oak species

Variations in virulence and hyphal growth of four Raffaelea quercivora isolates within Quercus crispula

The Effect of Raffaelea quercus-mongolicae Inoculations on the Formation of Non-conductive Sapwood of Quercus mongolica

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