{"title":"根相关细菌对 KDML105 水稻稻瘟病的生物防治","authors":"Arlita Chaowanaprasert, Lalita Thanwisai, Wilailak Siripornadulsil, Surasak Siripornadulsil","doi":"10.1007/s10658-024-02901-5","DOIUrl":null,"url":null,"abstract":"<p>Blast disease caused by the fungal pathogen <i>Pyricularia oryzae</i> is a serious disease affecting rice. The purpose of this study was to isolate, characterize, and identify chitinase-producing bacteria from the root-adhering soil and from the root surface and interior of two rice varieties, Khao Dawk Mali 105 (KDML105) and glutinous rice (RD6). In addition, their potential for promoting plant growth and inhibiting fungal pathogens was investigated in KDML105 rice seedlings. Among the 188 chitinase-producing bacteria screened, sixteen root-associated isolates showed plant growth-promoting traits and effectively inhibited <i>P. oryzae in vitro.</i> The plant growth-promoting activities included nitrogen fixation, phosphate solubilization, and indole acetic acid production. The effects of root-associated bacteria at 5 × 10<sup>9</sup> CFU/isolate on the survival of rice plants challenged by spraying the leaves with a suspension of 10<sup>6</sup> conidia of <i>P. oryzae</i> were investigated <i>in vivo</i>. Among the 16 tested isolates, colonization of KDML105 rice plants by the R-RD6-NP7 and R-RD6-NP19 isolates resulted in 86.67% to 83.33% and 98.33% to 96.67% survival of rice seedlings, respectively, at 7 to 45 days after fungal inoculation (DAI). In the pot–tray experiment, dead rice seedlings were first observed at 10 DAI, and at 30 DAI the survival of the R-RD6-NP7- and R-RD6-NP19-inoculated rice plants reached 97.67% and 99.33%, respectively. Spot inoculation of R-RD6-NP19 (identified as <i>Kosakonia oryziphila</i>) culture was performed on <i>P. oryzae</i> conidia on fresh rice leaves, and no symptoms of disease were observed. <i>K. oryziphila</i> NP19 is a root-associated and plant growth-promoting bacterium capable of colonizing rice plants and inhibiting rice blast fungal pathogens in the economical KDML105 rice variety. Therefore, this strain can be used as a bioinoculant to control rice blast disease in contaminated soils.</p>","PeriodicalId":12052,"journal":{"name":"European Journal of Plant Pathology","volume":"29 1","pages":""},"PeriodicalIF":1.7000,"publicationDate":"2024-06-17","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Biocontrol of blast disease in KDML105 rice by root-associated bacteria\",\"authors\":\"Arlita Chaowanaprasert, Lalita Thanwisai, Wilailak Siripornadulsil, Surasak Siripornadulsil\",\"doi\":\"10.1007/s10658-024-02901-5\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Blast disease caused by the fungal pathogen <i>Pyricularia oryzae</i> is a serious disease affecting rice. The purpose of this study was to isolate, characterize, and identify chitinase-producing bacteria from the root-adhering soil and from the root surface and interior of two rice varieties, Khao Dawk Mali 105 (KDML105) and glutinous rice (RD6). In addition, their potential for promoting plant growth and inhibiting fungal pathogens was investigated in KDML105 rice seedlings. Among the 188 chitinase-producing bacteria screened, sixteen root-associated isolates showed plant growth-promoting traits and effectively inhibited <i>P. oryzae in vitro.</i> The plant growth-promoting activities included nitrogen fixation, phosphate solubilization, and indole acetic acid production. The effects of root-associated bacteria at 5 × 10<sup>9</sup> CFU/isolate on the survival of rice plants challenged by spraying the leaves with a suspension of 10<sup>6</sup> conidia of <i>P. oryzae</i> were investigated <i>in vivo</i>. Among the 16 tested isolates, colonization of KDML105 rice plants by the R-RD6-NP7 and R-RD6-NP19 isolates resulted in 86.67% to 83.33% and 98.33% to 96.67% survival of rice seedlings, respectively, at 7 to 45 days after fungal inoculation (DAI). In the pot–tray experiment, dead rice seedlings were first observed at 10 DAI, and at 30 DAI the survival of the R-RD6-NP7- and R-RD6-NP19-inoculated rice plants reached 97.67% and 99.33%, respectively. Spot inoculation of R-RD6-NP19 (identified as <i>Kosakonia oryziphila</i>) culture was performed on <i>P. oryzae</i> conidia on fresh rice leaves, and no symptoms of disease were observed. <i>K. oryziphila</i> NP19 is a root-associated and plant growth-promoting bacterium capable of colonizing rice plants and inhibiting rice blast fungal pathogens in the economical KDML105 rice variety. 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引用次数: 0
摘要
由真菌病原体 Pyricularia oryzae 引起的白叶枯病是影响水稻的一种严重病害。本研究的目的是从两个水稻品种 Khao Dawk Mali 105(KDML105)和糯稻(RD6)的根系附着土壤以及根系表面和内部分离、鉴定产几丁质酶的细菌。此外,还研究了它们在 KDML105 水稻幼苗中促进植物生长和抑制真菌病原体的潜力。在筛选出的 188 个产甲几丁质酶细菌中,有 16 个与根相关的分离菌表现出促进植物生长的特性,并在体外有效抑制了 P. oryzae。植物生长促进活性包括固氮、磷酸盐溶解和吲哚乙酸生成。研究人员体内调查了根相关细菌(5 × 109 CFU/分离株)对水稻植株存活率的影响,水稻叶片被喷洒了 106 个 P. oryzae 分生孢子悬浮液。在 16 个受试分离株中,R-RD6-NP7 和 R-RD6-NP19 分离株在 KDML105 水稻植株上定植后,在真菌接种(DAI)后 7 至 45 天,水稻秧苗的存活率分别为 86.67% 至 83.33% 和 98.33% 至 96.67%。在钵盘试验中,10 DAI 时首次观察到死苗,30 DAI 时,接种 R-RD6-NP7 和 R-RD6-NP19 的水稻植株存活率分别达到 97.67% 和 99.33%。对水稻鲜叶上的 P. oryzae 分生孢子进行 R-RD6-NP19(鉴定为 Kosakonia oryziphila)培养物点接种,未观察到病害症状。K. oryziphila NP19 是一种与根相关的促进植物生长的细菌,能够在水稻植株上定植并抑制经济型 KDML105 水稻品种的稻瘟病病原菌。因此,该菌株可作为生物接种剂用于控制污染土壤中的稻瘟病。
Biocontrol of blast disease in KDML105 rice by root-associated bacteria
Blast disease caused by the fungal pathogen Pyricularia oryzae is a serious disease affecting rice. The purpose of this study was to isolate, characterize, and identify chitinase-producing bacteria from the root-adhering soil and from the root surface and interior of two rice varieties, Khao Dawk Mali 105 (KDML105) and glutinous rice (RD6). In addition, their potential for promoting plant growth and inhibiting fungal pathogens was investigated in KDML105 rice seedlings. Among the 188 chitinase-producing bacteria screened, sixteen root-associated isolates showed plant growth-promoting traits and effectively inhibited P. oryzae in vitro. The plant growth-promoting activities included nitrogen fixation, phosphate solubilization, and indole acetic acid production. The effects of root-associated bacteria at 5 × 109 CFU/isolate on the survival of rice plants challenged by spraying the leaves with a suspension of 106 conidia of P. oryzae were investigated in vivo. Among the 16 tested isolates, colonization of KDML105 rice plants by the R-RD6-NP7 and R-RD6-NP19 isolates resulted in 86.67% to 83.33% and 98.33% to 96.67% survival of rice seedlings, respectively, at 7 to 45 days after fungal inoculation (DAI). In the pot–tray experiment, dead rice seedlings were first observed at 10 DAI, and at 30 DAI the survival of the R-RD6-NP7- and R-RD6-NP19-inoculated rice plants reached 97.67% and 99.33%, respectively. Spot inoculation of R-RD6-NP19 (identified as Kosakonia oryziphila) culture was performed on P. oryzae conidia on fresh rice leaves, and no symptoms of disease were observed. K. oryziphila NP19 is a root-associated and plant growth-promoting bacterium capable of colonizing rice plants and inhibiting rice blast fungal pathogens in the economical KDML105 rice variety. Therefore, this strain can be used as a bioinoculant to control rice blast disease in contaminated soils.
期刊介绍:
The European Journal of Plant Pathology is an international journal publishing original articles in English dealing with fundamental and applied aspects of plant pathology; considering disease in agricultural and horticultural crops, forestry, and in natural plant populations. The types of articles published are :Original Research at the molecular, physiological, whole-plant and population levels; Mini-reviews on topics which are timely and of global rather than national or regional significance; Short Communications for important research findings that can be presented in an abbreviated format; and Letters-to-the-Editor, where these raise issues related to articles previously published in the journal. Submissions relating to disease vector biology and integrated crop protection are welcome. However, routine screenings of plant protection products, varietal trials for disease resistance, and biological control agents are not published in the journal unless framed in the context of strategic approaches to disease management.
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