Identification of Damage on Different Plants Caused by Botrytis cinerea and its Extracellular Macromolecular Toxin

With Bowytis cinerea and its extracellular macromolecular toxins as the test materials, 30 speiees of plants belonging to 29 genera and 21 families were selected as the test plants to observe the infectivity of B. dnerea and damage status of macromolecular toxins secreted by B. cinerea on plants. Th...

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Published inPlant Diseases and Pests(植物病虫害研究:英文版) Vol. 4; no. 3; pp. 16 - 19
Main Authors Hailin, Hu, Qionge, Dong, Jia, Wu, Da, Huo, Yunyue, Wang, Hongyu, Yang
Format Journal Article
LanguageEnglish
Published Cranston Wu Chu (USA-China) Science and Culture Media Corporation 01.06.2013
Subjects
Botrytis cinerea
大分子
感染性
损伤识别
植物病原真菌毒素
灰霉病菌
致病机制
观察试验
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ISSN2152-3932

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Summary:With Bowytis cinerea and its extracellular macromolecular toxins as the test materials, 30 speiees of plants belonging to 29 genera and 21 families were selected as the test plants to observe the infectivity of B. dnerea and damage status of macromolecular toxins secreted by B. cinerea on plants. The resulsts showed that 17 species of plants were beth infected by B. cinerea and damaged by toxins, accounting for 56.7% of the total plants. Two species of plants could be neither infected by B. cinerea nor damaged by toxins. The study provided the reference for further understanding of pathogenic mechanism of plant pathogenic fungi toxins.
Bibliography:Botrytis cinerea; ExtraceUular macromolecular toxins ; Damage identification of plant
With Bowytis cinerea and its extracellular macromolecular toxins as the test materials, 30 speiees of plants belonging to 29 genera and 21 families were selected as the test plants to observe the infectivity of B. dnerea and damage status of macromolecular toxins secreted by B. cinerea on plants. The resulsts showed that 17 species of plants were beth infected by B. cinerea and damaged by toxins, accounting for 56.7% of the total plants. Two species of plants could be neither infected by B. cinerea nor damaged by toxins. The study provided the reference for further understanding of pathogenic mechanism of plant pathogenic fungi toxins.
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ISSN:2152-3932