诱导玉米抗弯孢菌叶斑病促生细菌的鉴定及生防效果评价

doi:10.11924/j.issn.1000-6850.casb17110018

中国农学通报 ›› 2018, Vol. 34 ›› Issue (11): 97-102.doi: 10.11924/j.issn.1000-6850.casb17110018

所属专题：玉米

诱导玉米抗弯孢菌叶斑病促生细菌的鉴定及生防效果评价

武居宝,陈立杰,朱晓峰,王媛媛,刘晓宇,范海燕,段玉玺

沈阳农业大学植物保护学院,沈阳农业大学植物保护学院,沈阳农业大学植物保护学院,沈阳农业大学植物保护学院,沈阳农业大学植物保护学院,沈阳农业大学植物保护学院,沈阳农业大学植物保护学院

收稿日期:2017-11-07 修回日期:2018-03-14 接受日期:2017-12-22 出版日期:2018-04-16 发布日期:2018-04-16
通讯作者: 段玉玺
基金资助:
现代农业产业技术体系建设专项“大豆线虫防控岗位”(CARS-04-PS13)。

Identification and Biocontrol Effect of Growth Promoting Bacteria to Induce Resistance Against Curvularia Leaf Spot in Maize

Received:2017-11-07 Revised:2018-03-14 Accepted:2017-12-22 Online:2018-04-16 Published:2018-04-16

摘要/Abstract

摘要： 玉米弯孢菌叶斑病是玉米生产上的重要病害之一。［目的］为获得一株有效的抗玉米弯孢菌叶斑病的生防细菌,［方法］本研究采用生防细菌包衣处理玉米种子的方法,将前期田间初筛得到的4株生防促生细菌进行室内和田间防效评估,获得一株防效最好的菌株。进一步通过室内和田间试验验证该菌株对玉米的促生和增产作用,并采用形态学、生理生化和分子生物学分析方法对其进行鉴定。［结果］结果表明,4株生防细菌中,菌株Sneb2249对玉米弯孢菌叶斑病的防效最好,盆栽防效为55.04%,田间防效为39.36%。室内促生和田间测产试验结果显示,菌株Sneb2249能够显著促进玉米植株生长,其株高、地上部干重和千粒重分别比对照提高24.89%、49.15%和 7.9%。经鉴定菌株Sneb2249为恶臭假单胞菌(Pseudomonas putida)。［结论］恶臭假单胞菌Sneb2249是一株优良的植物根际促生菌,既可抗弯孢叶斑病菌,又对玉米具有促生增产作用。利用有益微生物处理种子防控病害将是一种新型的植保措施,具有重要的研究意义。

Abstract: Curvularia leaf spot is a major disease in maize. To screen biocontrol bacteria which efficiently induce resistance against Curvularia leaf spot, four biocontrol bacteria that could induce resistance against Curvularia leaf spot in maize were evaluated with seed coating in pot and field experiments, and the one with best effect on maize growth and yield was also verified. The species identification was performed based upon morphological, physiological and biochemical, and molecular biological methods. The results showed that among the four strains, Sneb2249 exhibited maximum resistance against Curvularia leaf spot, with control effect of 55.04% and 39.36% in pot and field experiments, respectively. Sneb2249 could significantly promote the growth of maize plants: plant height, dry weight of the overground part, and thousand kernel weight were improved by 24.89%, 49.15%, and 7.97%, respectively. Finally, Sneb2249 was identified as Pseudomonas putida. Sneb2249 is an excellent plant growth promoting rhizobacteria that could induce resistance against Curvularia leaf spot and promote the growth and yield of maize. Moreover, our results indicated that seed coating with beneficial microorganisms is a valid plant protection measure for disease control.

武居宝,陈立杰,朱晓峰,王媛媛,刘晓宇,范海燕,段玉玺. 诱导玉米抗弯孢菌叶斑病促生细菌的鉴定及生防效果评价[J]. 中国农学通报, 2018, 34(11): 97-102.

参考文献

[1]傅俊范,景殿玺,刘震,等.玉米叶部病害流行动态及预测预警研究进展[J].吉林农业大学学报, 2016, 38(6):651-655.
[2]陈捷,鄢洪海,高增贵,等.玉米弯孢菌叶斑病菌生理分化及鉴定技术[J].植物病理学报, 2003, 33(2):121-125.
[3]鹿秀云,李社增,栗秋生,等.玉米叶斑病拮抗细菌的筛选及其发酵培养基优化[J].中国生物防治学报, 2006, 22(s1).
[4]胡江春,薛德林,马成新,等.植物根际促生菌(PGPR)的研究与应用前景[J].应用生态学报, 2004, 15(10):1963-1966.
[5]Kloepper J W, Ryu C M, Zhang S. Induced systemic resistance and promotion of plant growth by Bacillus spp.[J]. Phytopathology, 2004, 94(11):1259.
[6]Pieterse C M J, Zamioudis C, Berendsen R L, et al. Induced systemic resistance by beneficial microbes [J]. Annual Review of Phytopathology, 2014, 52(52):347.
[7]董汉松.植物诱导抗病性原理和研究[M].北京:科学出版社,1995
[8]Rvan P, Niemann G J, Schippers B. Induced resistance and phytoalexin accumulation in biological control of Fusarium wilt of carnation by Pseudomonas sp. strain WCS417r[J]. Phytopathology, 1991, 81(7):728-734.
[9]Wei G, Kloepper J W, Tuzun S. Induction of systemic resistance of cucumber to Colletotrichum orbiculare by select strains of plant growth-promoting rhizobacteria.[J]. Phytopathology, 1992, 81(12):1508-1512.
[10]Huang C J, Tsay J F, Chang S Y, et al. Dimethyl disulfide is an induced systemic resistance elicitor produced by Bacillus cereus C1L[J]. Pest Management Science, 2012, 68(9):1306-10.
[11]张婷,朱洁伟,武向文,等.拮抗木霉菌对玉米弯孢菌叶斑病的诱导抗性作用[J].上海交通大学学报(农业科学版), 2011, 29(4):38-41.
[12]赵廷昌.植物病原细菌鉴定实验指导(第三版)[M].北京:中国农业科学技术出版社, 2011.
[13]东秀珠,蔡妙英.常用细菌系统鉴定手册[M].北京:科学技术出版社, 2001.
[14]Pathak R, Gehlot P, Singh S K. Seed priming-mediated induced disease resistance in arid zone plants[M]. Microbial-mediated induced systemic resistance in plants. Springer Singapore, 2016.
[15]Weller D M. Biological Control of Soilborne Plant pathogens in the rhizosphere with bacteria[J]. Annual Review of Phytopathology, 2003, 26(1):379-407.
[16]Mercado-Blanco J. Pseudomonas Strains that exert biocontrol of plant pathogens[M]. Pseudomonas, Volume 7: New Aspects of Pseudomonas Biology. 2015:121-172.
[17]Pieterse C M, van Wees S C, Hoffland E, et al. Systemic resistance in arabidopsis induced by biocontrol bacteria is independent of salicylic acid accumulation and pathogenesis-related gene expression[J]. Plant Cell, 1996, 8(8):1225-123
[18]唐佳频,邵宗泽,张智涛,等.南极土壤来源的恶臭假单胞菌1A00316抗南方根结线虫的机制[J].应用与环境生物学报, 2014, 20(6):1046-1051.
[19]Planchamp C, Glauser G, Mauchmani B. Root inoculation with Pseudomonas putida KT2440 induces transcriptional and metabolic changes and systemic resistance in maize plants[J]. Frontiers in Plant Science, 2015, 5(719):719.
[20]Fang R, Lin J, Yao S, et al. Promotion of plant growth, biological control and induced systemic resistance in maize by Pseudomonas aurantiaca JD37[J]. Annuals of Microbiology, 2013, 63(3):1177-1185.
[21]康贻军,程洁,梅丽娟,等.植物根际促生菌作用机制研究进展[J].应用生态学报, 2010, 21(1):232-238.
[22]Ramamoorthy V, Viswanathan R, Raguchander T, et al. Induction of systemic resistance by plant growth promoting rhizobacteria in crop plants against pests and diseases[J]. Crop Protection, 2001, 20(1):1-11.
[23]Benhamou N, Belanger R R, Paulitz T C. Induction of differential host responses by Pseudomonas fluorescens in Ri T-DNA-transformed pea roots after challenge with Fusarium oxysporum f. sp. pisi and Pythium ultimum[J]. Phytopathology, 1996, 86(11):1174-1185.

诱导玉米抗弯孢菌叶斑病促生细菌的鉴定及生防效果评价

Identification and Biocontrol Effect of Growth Promoting Bacteria to Induce Resistance Against Curvularia Leaf Spot in Maize

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