Biological Control of Major Rice Diseases: A Review

doi:10.11924/j.issn.1000-6850.casb18040057

Abstract

Abstract: In order to strengthen the researches on biological control of rice diseases, we summarized the status of biological control of several major rice diseases, analyzed the future research directions of biological control, and the application of plant innate immunity and host induced disease resistance in biological control. We believe that the interaction between microbial preparations and microbial communities should be emphasized, and researches on plant- derived biocontrol preparations should be strengthened. Meanwhile, technical integration researches based on rice variety resistance, biological control, cultivation control and scientific use of pesticides should be carried out.

References

[1] 应兴华,曹立勇,胡培松,等．加快水稻科技创新,保障国家粮食安全[J]．农业科研经济管理,2016, (2): 6-9．
[2] Eilenberg J, Hajek A, Lomer C. Suggestions for unifying the terminology in biological control[J]. BioControl, 2001, 46(4): 387-400.
[3] Alabouvette C, Olivain C, Migheli Q, et al. Microbiological control of soil-borne phytopathogenic fungi with special emphasis on wilt-inducing Fusarium xysporum[J]. New Phytologist, 2009, 184(3): 529-544.
[4] Philip A., O''brien. Biological control of plant diseases[J]. Australasian Plant Pathology, 2017, 46(4): 293-304．#$NL[5] Chung EJ, Hossain MT, Khan A, et al. Bacillus oryzicolaSsp. Nov., an endophytic bacterium isolated from the roots of rice with antimicrobial, plant growth promoting, and systemic resistance inducing activities in rice[J]. Plant Pathology Journal, 2015, 31(2): 152-164.
[6] 沙月霞,王琦,李燕．稻瘟病生防芽孢杆菌的筛选及防治效果[J]．中国生物防治学报,2016, 32(4): 474-484．
[7]张洁,霍光华,李湘民,等．江西省稻瘟病菌对春雷霉素和稻瘟灵的抗药性研究[J]．江西农业大学学报,2013, 35(4): 722-726．
[8] 王家德,钱海丰．井冈霉素对土壤可培养微生物的生态效益[J]．农药,2006,11．
[9] Ryo ISHIKAWA. Effective control of cabbage black rot by validamycin A and its effect on extracellular polysaccharide production of Xanthomonas campestris pv. Campestris[J]. Pestic. Sci., 2004, 29(3): 209-213.
[10] Hu Hongbo, Xu Yuquan, Chen Feng, et al. Isolation and characterization of a new Fluorescent strain that produces both phenazine 1-carboxylic acid and pyoluteorin [J]. J Microbiol Biotech, 2005, 15(1): 86-90.
[11] Wu Daqiang, Ye Jing, Ou Hongyu, et al. Genomic analysis and temperature-dependent transcriptome profiles of the rhizosphere originating strain Pseudonomas aeruginosa M18 [J]. BMC Genomics, 2011, 12(1): 438
[12] 邵恩斯,林莉,关雄．苏云金杆菌Cry2Ab可溶蛋白的原核表达及多克隆抗体的制备[J]．农业生物技术学报,2013, 21(1): 106-111．
[13] 王以一,李保平,高小文,孟玲．短稳杆菌对斑痣悬茧蜂成虫羽化、生殖和寿命影响[J]．中国生物防治学报,2014,37(1)：75-80．
[14] 徐浩然,杨仁斌,付强,廖海玉．阿维菌素在稻田水、土壤及稻米中的残留研究[J]．环境科学与管理,2010, 35(4): 35-37．
[15] Leelasuphakul W, Hemmanee P, Chuenchitt S. Growth inhibitory properties of Bacillus subtilis strains and their metabolites against the green mold pathogen (Penicillium digitatum Sacc.) of citrus fruit[J]. Postharvest biology and Technology, 2008, 48 (1): 113-121.
[16] Kanjanamaneesathian M, Chumthong A, Pengnoo A, et al. Bacillus megaterium suppresses major Thailand rice diseases[J]．Asian Journal of Food and Agro-Industry, 2009, 2(Special Issue): S154-S159．
[17] 陈志谊,刘永峰,刘邮洲,等．植物病害生防芽孢杆菌研究进展[J]．江苏农业学报,2012, 28(5): 999-1006．
[18] 李德全,陈志谊,聂亚锋．生防菌Bs-916及高效突变菌株抗菌物质及其对水稻抗性诱导作用的研究[J]．植物病理学报,2008, 28(2): 192-198．
[19] Zhang CX, Zhang XX, Shen SH. Proteome analysis for antifungal effects of Bacillus subtilis KB-1122 on Magnaporthe grisea P131[J]. World Journal of Microbiology and Biotechnology, 2014, 30(6): 1763-1774．
[20] 张芬, 刘邮洲, 于俊杰, 等．水稻稻瘟病菌拮抗细菌的筛选与鉴定[J]．江苏农业学报, 2011, 27(3): 505-509．
[21] Mathurot C, Somporn C, Saisamorn L. Screening siderophore producing bacteria as potential biological control agent for fungal rice pathogens in Thailand[J]. World Journal of Microbiology and Biotechnology, 2009, 25(11): 1919-1928.
[22] Suryadi Y, Susilowati D N, Riana E, et al. Management of rice blast disease (Pyricularia oryzae) using formulated bacterial consortium[J]. Emirates Journal of Food and Agriculture, 2013, 25(5): 349-357.
[23] Saikia R, Gogoi D K, Mazumder S. Brevibacillus laterosporus strain BPM3, a potential biocontrol agent isolated from a natural hot water spring of Assam, India[J]. Microbiological Research, 2011, 166(3): 216-225.
[24] Cui T B, Chai H Y, Jiang L X. Isolation and partial characterization of an antifungal protein produced by Bacillus licheniformis BS-3 [J]. Molecules, 2012, 17(6): 7336-7347.
[25] Tendulkar S R, Saikumari Y K, Patel V, et al. Isolation, purification and characterization of an antifungal molecule produced by Bacillus licheniformis BC98, and its effect on phytopathogen Magnaporthe grisea[J]. J Appl Microbiol, 2007, 103(6): 2331-2339.
[26] J-H Yang, H-X Liu, G -M Zhu, et al. Diversity analysis of antagonists from rice-associated bacteria and their application in biocontrol of rice diseases[J]. Journal of Applied Microbiology, 2008, 104(1): 91-104.
[27] Palaniyandi SA, Yang SH, Zhang L, et al. Effects of actinobacteria on plant disease suppression and growth promotion[J]. Appl Microbiol Biotechnol, 2013, 97: 9621-9636.
[28] 曾夏冬．水稻内生放线菌osiLf-2的分离、鉴定及其抗稻瘟病研究[D]．长沙：湖南农业大学,2016．
[29] 王真真,徐婷,袁珊珊,等．水稻内生放线菌OsiRt-1的分离鉴定及对稻瘟病的防治作用[J]．微生物学通报,2016, 43(5): 1009-1018．
[30] 彭卫福,吴志明,陈未,等．拮抗多种植物病原真菌 Streptomyces triostinicus C2 的分离与鉴定[J]．生物技术通报,2016, 32(7): 106-111．
[31] 徐志荣,傅雁辉,赵英杰,等．链霉菌JD211发酵液对水稻防御稻瘟病菌诱导抗性[J]．浙江农业学报,2017, 29(6): 971-976．
[32] Yu Q, LiuZ, LinD, et al. Characterization and evaluation of Staphylococcus sp. Strain LZ16 for the biological control of rice blast caused by Magnaporthe oryzae[J]．Biological Control, 2013, 65(3): 338-347.
[33] Sena A, Chaibub A A, Cortes M V C B, et al. Increased enzymatic activity in rice leaf blast suppression by crude extract of Epicoccum sp. [J]. Tropical Plant Pathology, 2013, 38(5): 387-397.
[34] 张望月,高健,张超,等．五种假单胞菌的分离鉴定及其生物活性[J]．微生物学报, 2013, 53(9): 957-965.
[35] Kazempour M N. Biological Control of Rhizoctonia solarti, the Causal Agent of Rice Sheath Blight by Antagonistic Bacteria in Greenhouse and Field Conditions[J]. Plant Pathology Journal, 2004, 3(2):88-96.
[36] Jha Y, Subramanian RB. Endophytic Pseudomonas pseudoalcaligenes shows better response against the Magnaporthe grisea than a rhizospheric Bacillus pumilus in Oryza sativa (Rice)[J]. Archives of Phytopathology and Plant Protection, 2011, 44(6): 592-604.
[37] 陈桂华,肖艳松,柏连阳．中药前胡提取物对水稻幼苗抗稻瘟病的诱导作用[J]．湖南农业大学学报(自然科学版),2007, 33(5): 602-604．
[38] 张翠荣．柠檬醛对稻瘟病菌几丁质酶基因表达的影响[Ｄ]．贵阳：贵州大学,2016．
[39] Amadioha A C. Controlling rice blast in vitro and in vivo with extracts of Azadirachta indica [J]. Crop Protection, 2000, 19(5): 287-290.
[40] Lee S E, Park B S, Kim M K, et al. Fungicidal activity of pipernonaline, a piperidine alkaloid derived from long pepper, Piper longum L., against phytopathogenic fungi[J]. Crop Protection, 2001, 20(6): 523-528.#$NL[41] GH Huo,SWG Zhan,SFU Ri-Hui. In vitro Antifungal Activity of Saponin Extracts from Schima superba in Combination with Sapindus mukorossi against Piricularia oryzae[J]．天然产物研究与开发,2010, 22(5): 755-760．
[42] 严伟．抗稻瘟病菌植物源提取物组方研究[D]．南昌：江西农业大学,2011．#$NL[43] RoutSS, ThatoiSSH N, STewari S N. Performance of aqueous extract of Aegle marmelos based Amaext-a, an antifungal product against Pyricularia grisea causing blast disease of rice[J]. Archives of Phytopathology and plant Protection, 2012, 45(20): 2507-2518.#$NL[44] RoutSS, ThatoiSSH N,STewari S N. Sensitivity of ethanolic extract of Aegle marmelos-based Amasof-e, an organic antifungal product, against Pyricularia grisea that causes blast disease of rice[J]. Archives of Phytopathology and plant Protection, 2015, 48(1): 73-83.
[45] Jeffrey G. Ellis. Can plant microbiome studies lead to effective biocontrol of plant diseases[J]. MPMI, 2017, 30(3): 190-193.
[46] Vijay Krishna Kumar K, Yellareddygari S, Reddy M S, et al. Efficacy of Bacillus subtilis MBI 600 Against Sheath Blight Caused by Rhizoctonia solani and on Growth and Yield of Rice[J]. Rice Science, 2012, 19(1):55-63.
[47] 李扬苹．土壤中枯草芽孢杆菌(Bacillus Subtilis)B908的分子检测[D]．杨凌:西北农林科技大学,2004．
[48] 管玲莉,任佐华,李俊俊,刘二明．一株拮抗稻瘟病菌细菌的筛选与鉴定[J]．生物技术通报, 2016, 32(6): 168-173．
[49] 穆静娟,焦加国,葛新成,等．植物病原真菌广谱拮抗菌 M29的筛选、鉴定及其抑菌机制[J]．南京农业大学学报,2017, 40(1): 84-92．
[50] 吕黎, 王蕾, 周佳敏, 等. 巨大芽孢杆菌的研究现状及应用[J]. 农业科学研究,2014, 35(3): 49-52．
[51] 卢钰升,顾文杰,蒋瑞萍,等．一株生防细菌GB58的鉴定与抑菌能力测定．中国农学通报,2016, 32(6): 198-204．
[52] Kavitha S, Senthikumar S, Gnanamaickam S, et al. Isolation and partial characterization of antifugal protein from Bacillus polymyxa strain VLB16[J]. Process Biochemistry, 2005, 40：3236-3243.
[53] Mosquera EspinosaAT, Bayman P, PradoGA, et al. The double life of Ceratobasidium: orchid mycorrhizal fungi and their potential for biocontrol of Rhizoctonia solani sheath blight of rice[J]. Mycologia, 2013, 105(1): 141-150.
[54] 张亚,廖晓兰,曾晓楠,等．鸭粪中1株水稻纹枯病菌拮抗细菌的鉴定[J]．植物病理学报,2010, 40(5): 517-521．
[55] 张亚,苏品,刘双清,等．一株假单胞菌SU8抑菌物质的研究初报[J]．中国植保导刊,2014, 6: 13-18, 25．
[56] Shahram naeimi, Ssyyed mahmood okhovvat, Mohammad javan-nikkhah, et al. Biological control of Rhizoctonia solani AG1-1A, the causal agent of rice sheath blight with Trichoderma strains[J]. Phytopathol. Mediterr, 2010, 49, 287-300．
[57] 刘路宁,屠艳拉, 张敬泽．绿木霉菌株TY009防治纹枯病等水稻主要真菌病害的潜力[J]．中国农业科学,2010 ,S43 (10) : 2031-2038．
[58] 王金宇．抑制水稻纹枯病植物源活性物质的筛选、分离和应用条件优化[M]．湘潭：湖南科技大学,2011．
[59]唐善军, 高杜娟, 陈友德, 李友荣．水稻稻曲病不同病情指标间关系研究[J]．植物保护,2014, 40(1): 154-156．
[60] Ashish K, Tarendra KS, et al. Influence of Trichoderma spp. against Ustilaginoidea virens inciting false smut of rice [J]. Environment Ecology, 2014, 32(1): 163-168.
[61]李丹阳．降解稻曲病菌菌核的真菌筛选及其作用机制分析[M]．杭州：浙江大学,2016．
[62]尹小乐,陈志谊等．稻曲病括抗细菌的筛选与评价[J]．江苏农业学报,2011,27(5):983-989．
[63] 高杜娟,唐善军,陈友德,等．近30年国家和湖南省审定的水稻品种白叶枯病抗性分析[J]．中国稻米,2017, 23(1): 65-68．
[64] Ranjan R K, Rai B, Chaudhari P K, et al. Isolation and screening of rice rhizo bacteria against bacterial leaf blight of rice[J]. ORYZA—An International Journal on Rice, 2013, 50(3): 308-310.
[65] 张小芳,艾瑛,魏兰芳,等．生防细菌对水稻的促生性及诱导抗性研究[J]．生物技术进展,2017,7(1): 43-51．
[66] 郑文君．申嗪霉素对水稻白叶枯病菌和油菜菌核病菌的生物学活性及抗性风险评估[M]．南京：南京农业大学,2010．
[67] 李玉洋,辛寒晓,范学明,等．水稻恶苗病拮抗菌的筛选、鉴定及其抑菌活性[J]．生物技术通报,2017, 33(5): 190-196．
[68] 田洁萍, 王玉霞,张淑梅．解淀粉芽孢杆菌防治水稻恶苗病效果初报[J]．黑龙江科学 , 2010(4): 10-11,14．
[69] 张淑梅,沙长青,赵晓宇,等．一株抗真菌内生多粘芽孢杆菌的分离鉴定及对水稻恶苗病菌的抑制作用[J]．中国生物工程杂志 , 2010(2): 84-88．
[70] 赵贞丽,贾斌,沈国娟,等．水稻恶苗病生防用拮抗细菌分离鉴定及抑菌活性研究[J]．延边大学农学学报, 2014(1): 22-27．
[72] Shahram Naeimi, Sandor Kocsube, Zsuzsanna Antal, Laszlo Kredics. Strain-specific SCAR markers for the detection of Trichoderma harzianum AS12-2, a biological control agent against Rhizocto nia solani , the causal agent of rice sheath blight[J]. Acta Biologica Hungarica, 2011, 62(1): 73-84.
[73] S Dubey, V Jhelum, PK Patanjali. Control release agrochemicals formulations: A review[J]. Journal of Scientific Industrial Research, 2011, 70: 105-112.
[74] F Kanampiu, H Karaya, M Burnet, J Gressel. Needs for and effectiveness of slow release herbicide seed treatment Striga control formulations for protection against early season crop phytotoxicity[J]. Crop Protection, 2009, 28(10): 845-853.#$NL[75] Y Suryadi, DN Susilowati, TS Kadir, SZR Zaffan, SN Hikmawati, et al. Bioformulation of Antagonistic Bacterial Consortium for Controlling Blast, Sheath Blight and Bacterial Blight Diseases on Rice[J]. Asian Journal of Plant Pathology, 2013, 7(3): 92-108.
[76] Duran N, Marcato PD. Nanobiotechnology perspectives. Role of nanotechnology in the food industry: a review[J]. Int J Food Sci Technol, 2013, 48(6): 1127-1134.
[77] Isman, M. BS,SKatan, JS,SAharonson, N. Plant essential oils for pest and disease management[J]. Crop Protection, 2000, 19(8): 603-608.
[78] de Oliveira JL, Campos EV, Bakshi M, Abhilash PC, Fraceto LF. Application of nanotechnology for the encapsulation of botanical insecticides for sustainable agriculture: prospects and promises[J]. Biotechnol Adv. 2014, 32(8): 1550-1561.
[79] Isman MB, Grieneisen ML. Botanical insecticide research: many publications, limited useful data[J]. Trends in Plant Science, 2013, 19(3):140-145.
[80] Jiatao Xie , Daohong Jiang. New insights into mycoviruses and exploration for the biological control of crop fungal diseases[J]. Annu. Rev. Phytopathol, 2014, 52:45-68.
[81] Chariou P.L., Steinmetz N.F. Delivery of Pesticides to Plant Parasitic Nematodes Using Tobacco Mild Green Mosaic Virus as a Nanocarrier[J]. ACS Nano, 2017,S11, 4719-4730.
[82] 张兴,马志卿,冯俊涛,等．植物源农药研究进展[J]．中国生物防治学报,2015, 31(5): 685-698．
[83] Wende Liu, Jinling Liu, Lindsay Triplett, et al. Novel Insights into Rice Innate Immunity Against Bacterial and Fungal Pathogens[J]. Annu. Rev. Phytopathol, 2014, 52: 11.1-11.29.