[1]林志伟,于春生,李海燕,等.哈茨木霉抗多菌灵突变株对大豆菌核病的诱导抗性生理[J].大豆科学,2016,35(03):472-476.[doi:10.11861/j.issn.1000-9841.2016.03.0472]
 LIN Zhi-wei,YU Chun-sheng,LI Hai-yan,et al.Induced Resistance Physiological on Stem Rot of Soybean by Carbendazim ResistanceMutant Strain of Trichoderma harzinaum[J].Soybean Science,2016,35(03):472-476.[doi:10.11861/j.issn.1000-9841.2016.03.0472]
点击复制

哈茨木霉抗多菌灵突变株对大豆菌核病的诱导抗性生理

参考文献/References:

[1] 孙明明,韩英鹏,陈浩,等. 大豆菌核病鉴定方法比较及分析[J]. 大豆科学,2007,26( 5) : 728-731. ( Sun M M,Han Y P,Chen H,et al. Comparisons and analyses on the methods of evaluatingtolerance to soybean white mould[J]. Soybean Science,2007,26( 5) : 728-731. )

[2] 潘洪玉,席景会,刘伟成,等. 大豆菌核病的防治适期与防治指标[J]. 植物保护学报,2001,28( 4) : 299-302. ( Pan H Y,Xi J H,Liu W C,et al. Optimal stage and threshold of the controlof Sclerotina rot[J]. Acta Phytophylacica Sinaca,2001,28( 4) :299-302. )
[3] 张淑梅,王玉霞,王佳龙,等. 枯草芽孢杆菌防治大豆菌核病效果初报[J]. 大豆通报,2006( 1) : 18-19. Zhang S M,Wang YX,Wang J L,et al. Biocontrol of soybean Sclerotinia sclerotiorumby Bacillus subtilis[J]. Soybean Bulletin,2006( 1) : 18-19. )
[4] Shoresh M,Harman G E,Mastouri F. Induced systemic resistanceand plant responses to fungal biocontrol agents[J]. Annual Reviewof Phytopathology,2010,48: 21-43.
[5] Harman G E. Multifunctional fungal plant symbionts: New tools toenhance plant growth and productivity[J]. New Phytologist,2011,189: 647-649.
[6] Yoshioka Y,Ichikawa H,Naznin H A,et,al. Systemic resistanceinduced in Arabidopsis thaliana by Trichoderma asperellumSKT-1,a microbial pesticide of seed borne diseases of rice[J].Pest Management Science,2011,68( 1) : 60-66.
[7] Alani R A,Adhab M A,Eluuadhidi M A,et al. Induced systemicresistance and promotion of wheat and barley plants growth by bioticand non-biotic agents against barley yellow dwarf virus[J]. AfricanJournal of Biotechnology,2011,10: 12079-12084.
[8] 孙冬梅,林志伟,迟丽,等. 黄绿木霉菌及其混剂对大豆菌核病的诱导抗性初探[J]. 大豆科学,2012,29( 1) : 88-91. ( SunD M,Lin Z W,Chi L,et al. Preliminary study on induced resistanceby Trichoderma aureoviride and its multiple microbe on soybeanSclerotinia sclerotiorum[J]. Soybean Science,2012,29( 1) : 88-91. )
[9] Xu H,Mendgen K. Targeted cell wall degradation at the penetrationsite of cowpea rust basidiosporelings[J]. Molecular Plant MicrobeInteractions,1997,10: 87-94.
[10] Tondje P R,Robert D P,Bon M C,et al. Isolation and identificationof mycoparasitic isolates of Trichoderma asperellum with potentialfor suppression of black pod disease of cacao in Cameroon[J].Biological Control,2007,43: 202-212.
[11] Samuels G J. Trichoderma: Systematics,the sexual state,and ecology[J]. Phytopathology,2006,96: 195-206.
[12] Howell C R. Cotton seedling preemergence damping-off incited byRhizopus oryzaeand Pythium spp. and its biological control withTrichoderma spp. [J]. Phytopathology,2001,92: 177-180.
[13] 王艳丽,沈瑛,徐同. 哈茨木霉防治水稻纹枯病研究[J]. 植物保护学报,2000,27( 2) : 97-101. ( Wang Y L,Shen Y,XuT. Study on Trichoderma harzianum strains to control of rice sheathblight[J]. Acta Phytophylacica Sinaca,2000,27( 2) : 97-101. )
[14] Kredics L,Antal Z,Manczinger L,et al. Influence of environmentalparameters on trichoderma strains with biocontrol potential[J]. Food Technology and Biotechnology,2003,41( 1) : 37-42.
[15] Jackson A M,Whipps J M,Llynch J M. Nutritional studies of fourfungi with disease biocontrol potential[J]. Enzyme and MicrobialTechnology,1991,13: 456-461.
[16] 李梅,杨谦,李常银. 多菌灵抗性基因转化哈茨木霉的研究[J]. 农业环境科学学报,2003,22( 4) : 493-495. ( Li M,YangQ,Li C Y. Transformation of Trichoderma T88 with gene resistantto fungicide Carbendazium[J]. Journal of Agro-Environment Science,2003,22( 4) : 493-495. )
[17] 于春生,张雨竹,张风娇,等. 紫外- 氯化锂复合诱变哈茨木霉产生多菌灵抗药性菌株的研究[J]. 植物保护,2015,41( 5) : 79-84. ( Yu C S,Zhang Y Z,Zhang F J,et al. UV – LiClcompostite mutation on Trichoderma harzianum to produce carbendazim-resistant strains[J]. Plant Protection,2015,41 ( 5) : 79-84. )
[18] Filiz E,Koc I,Ozyigit I I. Comparative analysis and modeling ofsuperoxide dismutases ( SODs ) in Brachypodium distachyon L.[J]. Applied Biochemistry and Biotechnology,2014,173: 1183-1196.
[19] 潘汝谦,黄旭明,古希昕. 活性氧清除酶类在黄瓜感染霜霉病过程中的活性变化[J]. 植物病理学报,1998,29( 3) : 287-288. ( Pan R Q,Huang X M,Gu X X. Activity change in activeoxygenscavenging enzymes in cucumber infected by downy mildew[J]. Acta Phytophatologica Sinica,1998,29( 3) : 287-288. )
[20] 刘守伟,吴凤芝,马艳玲. 枯萎病菌对不同抗性黄瓜品种几种酶活性的影响[J]. 植物保护,2009,35( 1) : 82-85. ( Liu S476 大豆科学3 期W,Wu F Z,Ma Y L. Effects of Fusarium wilt pathogen on theenzyme activity of cucumber cultivars of different resistance[J].Plant Protection,2009,35( 1) : 82-85. )
[21] 庄炳昌,徐豹,廖林. 接种大豆花叶病毒后、大豆叶片超氧物歧化酶、过氧化物酶和蛋白组份的变化[J]. 植物病理学报,1993,23( 3) : 261-265. ( Zhuang B C,Xu B,Liao L. Change ofsuperoxide dismutase,peroxicase and storage protein in soybeanleaves after inoculation with soybean mosaic virus[J]. Acta PhytopathologicaSinica,1993,23( 3) : 261-265. )
[22] 台莲梅,许艳丽,闫凤云. 尖孢镰孢菌毒素对大豆防御酶系活性的影响[J]. 中国油料作物学报,2008,30( 2) : 249-251.( Tai L M,Xu Y L,Yan F Y. The effect of toxin from Fusariumoxysporum on defense enzyme activities in soybean root[J]. ChineseJournal of Crop Sciences,2008,30( 2) : 249-251. )
[23] 李郑军,许修宏,冯雪雯. 接种根瘤菌及尖孢镰刀菌对大豆防御酶活性的影响[J]. 植物保护,2009,35( 6) : 91-93. ( Li ZJ,Xu X H,Feng X W. Change in defensive enzymes activity ofthe nodulated soybeans inoculated with Fusarium oxysporum[J].Plant Protection,2009,35( 6) : 91-93. )
[24] 马桂珍,暴增海,刘云鹤,等. 粘帚霉生防菌株发酵液对大豆幼苗中几种防御酶活性的影响[J]. 吉林农业大学学报,2007,29 ( 3 ) : 267-270. ( Ma G Z,Bao Z H,Liu Y H,etal. Effects of fermented liquid of Gliocladium spp. biocontrolstrains on activities of defense enzyme in soybean seedling[J].Journal of Jilin Agricultural University,2007,29( 3) : 267-270. )
[25] 张雨竹,董雪梅,郭春兰,等. 桃色顶孢霉发酵液对大豆的促生及对抗氧化酶活性的影响[J]. 中国油料作物学报,2014,36( 4) : 519-523. ( Zhang Y Z,Dong X M,Guo C L,et al. Effectof Acremonium persicium fermentation on seeds germination and antioxidanenzymes activity of soybean[J]. Chinese Journal of OilCrop Sciences,2014,36( 4) : 519-523. )

备注/Memo

基金项目: 农业部公益项目( 201103016-03A1) ; 国家自然科学基金地区科学基金( 21267001) 。

第一作者简介: 林志伟( 1970-) ,男,硕士,副教授,主要从事植物病虫害防治研究。E-mail: lzwsdm@ sohu. com。

更新日期/Last Update: 2016-07-24