参考文献_企业管理_经管营销_专业资料.doc

2Chen Z,Chen Land Wu Z.Relationships among persistence of bacillus thuringiensis and cowpea trypsin inhibitor proteins, microbial properties and enzymatic activities in rhizosphere soil after repeated cultivation with transgenic cottonJ. Applied Soil Ecology, 2012, 53(2): 23303Wei M, Tan F, Zhu H and Cheng K. Impact of bt-transgenic rice (SHK601) on soil ecosystems in the rhizosphere during crop developmentJ. Plant Soil and Environment, 2012, 58(5): 2172234谢明,张艳军,吴刚.转cry1Ac基因抗虫棉对土壤三种酶活性的影响J.植物保护,2011,37(6): 93963Rifai M A.A review of the genus TrichodermaJ.Mycol.pap，1969,116，1 56.5Cook R J, Baker K F. The nature and practice of biological control of plant pathogensM.APSC, 1983, pp.539 pp.6Chet I. Trichoderma-application, mode of action, and potential as biocontrol agent of soil-borne plant pathogenic fungi. Innovative approaches to plant disease control, 1987, pp. 137-160.7Samuels G J. Trichoderma: a review of biology and systematics of the genusJ.Mycologycal Research, 1996, 100(8): 923-935.8杨依军, 齐中波, 等.拮抗木霉菌在生物防治中的作用J. 天津农业科学, 2000, 6(3):29-33.9乔宏萍, 宗兆锋. 用重寄生菌防治植物病害J. 中国生物防治, 2002, 18(4): 176-179.10 郭润芳, 刘晓光.拮抗木霉菌在生物防治中的应用与研究进展J.中国生物防治.2002, 18( 4) : 180- 184.11姚元枝.木霉菌防治油菜菌核病和辣椒白绢病的研究J.怀化师专学报, 1997, 16(6):67-69.12王革, 周晓罡, 方敦煌, 等.木霉拮抗烟草赤星病菌菌株的筛选及其生防机制A. 云南农业大学学报, 2000, 15(3): 216-218.13田连生, 王伟华. 利用木霉防治大棚草霉灰霉病J. 植物保护, 2000, 26(2): 47-48.14Bhuyan S A. Antagonistic effect of T. viride, T. harzianum and Asperigillus terreus onRhizoctonia solani causing sheath blight of riceJ. Agricultural Science Society of North EastIndia, 1994, 7(1): 125-128.15Harman G E. Myths and Dogmas of Biocontrol Changes in perceptions derived fromreserch on Trichoderma harzianum T-22J. The American Phytopathological, 2000, 84(4):377-393.16Zimand G., Elad Y, Chet I. Effect of Trichoderma harizianum on Botrytis cinereapathogenicity J. Phytopathology, 1996, 86: 1255-1260.17李增智. 菌物在害虫、植病和杂草治理中的现状和未来J. 中国生物防治, 1991,15(1): 35-40.18丁万隆, 高秋义. 木霉防治西洋参立枯病研究J. 中草药, 1994, 25(2): 91-92.19李良,申功进,等.哈茨木霉对茉莉白绢病的生物防治的研究J.浙江农业大学学报,1983,9(3):221-225.20邢云章, 马凤茹. 绿色木霉防治人参根腐病的研究J. 特产研究, 1983(4): 16-17.19Bailey B A，Lumsden R D.Trichoderma and Gliocladium. J.1998,2:185 204.20Wyssp,Bollert，Wiemkena.Testing the effect of biological control agents on the formation of vesiculararbuscularmycorrhiza.J.Plant soil.1992,147:159 162.21Meyer G，Bigirimana J，Elad Y，et al.Eur.J.Plant patho.J.1998,104:279 286. 22Ahmadjs,Bakerr.Growth of rhizosphere competent rates J.Can.J.Microbiol.1988，34:807 814.23Howell C R，Hansori L E，Stipanovic R D，etal.Phytopathology J.1999，89:248 252.24Yedidial，Benhamou N，Chet I.Applied and emvironmetal.MicobiologyJ. 1999,65（3）:1061 1070.13焦琮,路炳声.康氏木霉制剂对棉花和菜豆幼苗几个生理生化指 标的影响J.中国生物防治J.1995,11（1）:30 32.14Altoma R E，Norvell验室W A，B Applied and environmental microbiologyJ.999,65（7）:2926 2933.15Chang Y C，Baker R.Increased growth of plant in thepresence of the biological controlagent trichodermaharaianum.J.Plant Dis,1986, 70:145 148.16Windam M，Elad L Y，Bakr R A.mechanism for increased plant growth induced by Trichoderma spp.J.Phytopathology，1986， 76:518 521.18Calvetc P R，Perajm. Growth response of marigold (Tageteserectad.) to inoculation with Glomusmosseae,Trichodermaaureoviride and Pythiumltimuminape at perlitemixture.J.plant soil，1993，148:1 6.18.雷增普.北京地区黄垆黄萎病病原菌的研究J.北京林业大学学报,1993, 15(3): 88-93.21.李俊文,张昆仑.黄栌黄萎病病原菌的研究J.林业实用技术,1992,(1):21-25.35.石磊岩.我国棉花黄萎病菌研究进展J.棉花学报,1995,7(4):243-24540.田黎,王克荣,陆家云.轮枝菌(Verticilliumdahliae和V. alboatrum)的形态、致病力变异及变异机制J.西北农业学报,1999,8(4): 106-109.46.王建美,田呈明,过颂新,等.黄栌根内生真菌分离鉴定及拮抗真菌筛选J.菌物研究,2008, 6(1):35-39.28.陆家云.植物病原真菌学M.北京:中国农业出版社,2000: :389-390.92.Klosterman S J, A. Z. K., Vallad G E Diversity, pathogenicity, and management of Verticillium species J. Annu Rev Phytopathol, 2009, 47(10): 39-62.80.Gold J, Barbara Lee, Robb J. Colonization of tomatoes by Verticillium dahliae: determinative phaseII. J. Can. J. Bot, 1995, 74(8): 1279-1288.84.Huisman O.C., Interrelations of root growth dynamics to epidemiology of root-invading fungi, J,Annual Review of Phytopathology, 1982,20 (1): 303-327108.Subbarao G E V A. Colonization of Resistant and Susceptible Lettuce Cultivars by a Green Fluorescent Protein-Tagged isolate of Verticillium dahliae J. The American Phytopathological Society,2008,98(8):872-887.34.石磊岩.棉花黄萎病田间发病规律的观察J.植物保护,1984,(2):8-9.1.鲍绍文,田呈明,陶万强.黄栌与大丽轮枝菌互作的组织病理学变化.林业科学,2011,47(2): 58-69.27葛银林.二硝基苯胺类化合物对棉花抗枯萎病的诱导作用及机理J.植物保护学报,1995,22(I):62一66.107.Smit R, Dubery I.A Cell wall reinforcement in cotton hypocotyls in response to a Verticilliumdahliae elicitorJ. Phytochemistry, 1997,44(27):811-815.57. 周庭辉,戴小枫.棉花抗黄萎病生理与生化机制研究J.分子植物育种,2006, 4(004): 593-600.93.Lamb C, D ixon R A. The oxidative burst in plant disease resistance J . Annu Rev Plant Physiol PlantMol Biol, 1997,48(10): 251-275,25.林植芳,李双顺,林桂珠,等.衰老叶片和叶绿体中H202的积累与质膜过氧化的关系J.植物生理学报,1998, 14(1): 16-22.1王丽伟.我国转基因粮食作物研发现状与发展对策分析D.中国农业科学院,2008.4杨长青,王凌健,毛颖波等.植物转基因技术的诞生和发展J.生命科学,2011,23(02):140-150.6中央广播网/ygxw/201402/t20140223_514915109.shtml31吴伟祥,叶庆富,阂航等.克螟稻秸秆ciylAb基因表达产物对土壤生物学活性的影响J.土壤学报,2003,04: 606-612.21 周礼恺. 土壤酶M. 北京: 科学出版社，l987 ：116-19036袁红旭,郭建夫,杨毓峰等.转几丁质酶基因水稻对土壤化学性状及酶活性旳影响研究J,中国生态农业学报,2005,13(1): 98-100.28MotavalliPP, Kremer RJ, Fang M,et al. Impact of genetically modified crops and their management on soil microbially mediated plant nutrient transformations J. Journal Environmental Quality, 2004, 33(3): 816-824.3史冬平.生物技术在作物育种上的应用J.农业与技术,2007,5:62-65.37吴建峰,林先贵.土壤微生物在促进植物生长方面的作用J.土壤学报,2003,01: 18-21.38Krogh PH., Griffiths B. ECOGEN-Soil ecological and economic evaluation of genetically modified crops J. Pedobiologia, 2007,51: 171-173.42ZadorinaE, Boulygina E,Kolganova T. Evaluation of the effect of late blight-resistant potato plants on the structure of bacterial associations in soil J, Applied Biochemistry and Microbiology,2009,45: 194-198.39Castaldini M, Turrini A,Sbrana C, et al. Impact of Bt corn on rhizospheric and on beneficial mycoirhizal symbiosis and soil eubacterial communities iosis in experimental microcosms J. Applied and Environmental Microbiology, 2005,71: 6719-6729.44王成鹏.转Bt和Bt+CpT1基因棉对土壤微生物群落影响的研究D.南京林业大学,2012.45Liu Wei, Wu Weixiang. Transgenic Bt rice does not affect enzyme activities and microbial composition in the rhizosphere during crop development J. Soil Biology and Biochemistry, 2008,40: 475-486.12Graham, L.S., Stickler!, M.B. PLANT CHITINASES J. Canadian Journal of Botany-RevueCanadienne De Botanique, 1994, 72: 1057-1083.13许新萍,胡明.用高效的基因枪转化系统将抗虫抗病基因导入水稻J,遗传,1998,20(增刊):12.14Xiao, Y.H,Li, X,B.,Yang, XY et al. Cloning and characterization of a balsam pear class I chitinase gene (Mcchitl) and its ectopic expression enhances fungal resistance in transgenic plantsJ. Bioscience Biotechnology and Biochemistry, 2007,71: 1211-1219.15王晓雯,杨星勇,李德谋等.转nsLTPs类抗菌蛋白基因烟草对赤星病和青枯病的抗病性分析J.农业生物技术学报,2006,03: 365-370.16王新发.转几丁质酶基因和-1,3-葡聚糖酶基因的甘蓝型油菜及其对菌核病抗性的研究D.中国农业科学院,2003.1Lerman L, Fischer S,Hurley I et ai Sequence-determined DNA separationsJ. Annual review of biophysics and bioengineering. 1984,13(1): 399-423.2Fischer SG,Lerman LS. Length-independent separation of DNA restriction fragments in two-dimensional gel eJectrophoresisJ. Cell. 1979,16(1): 191.3Muyzer G, de Waal EC, Uitterlinden AG. Profiling of complex microbial populations by denaturing gradient gei electrophoresis analysis of polymerase chain reaction-amplified genes coding for 16SrRNAJ. Applied and Environmental Microbiology. 1993, 59(3): 695-700.4Muyzer G. DGGE/TGGE a method for identifying genes from natural ecosystemsJ. Curr Opin Microbiol. 1999,2(3): 317-322.5Riesner D, Henco K, Steger G. Temperature-gradient gel electrophoresis: a method for the analysis of conformational transitions and mutations in nucleic acids and proteinsJ. Advances in electrophoresis. 1991,4: 169-250.6Rosenbaum V,Riesner D. Temperature-gradient gel electrophoresis: Thermodynamic analysis of nucleic acids and proteins in purified form and in cellular extractsJ. Biophysical chemistiy. 1987,26(2-3): 235-246.7Palleroni NJ. Prokaiyotic diversity and the importance of cuJturingJ. Antonie van Leeuwenhoek.1997,72(1): 3-19.8Sheffield VC, Cox DR, Lerman LS et ai Attachment of a 40-base-pair G+ C-rich sequence(GC-clamp) to genomic DNA fragments by the polymerase chain reaction results in improved detection of single-base changes J. Proceedings of the National Academy of Sciences. 1989,86(1):232.9Myers RM, Fischer SG, Lerman LS et al Nearly all single base substitutions in DNA fragments joined to a GC-clamp can be detected by denaturing gradient gel e!ectrophoresisJ. Nucleic Acids Research. 1985,13(9):3131-3145.10Muyzer G,De Waal E. Determination of the genetic diversity of microbial communities using DGGE analysis of PCR amplified 16 S rDNAJ. NATO ASI SERIES G ECOLOGICAL SCIENCES. 1994,35: 207-207.11罗海峰,齐鸿雁,薛凯等.PCRDGGE技术在农田土壤微生物多样性研究中的应用J.生态学报.2003, 23(008): 1570-1575.12Sandaa RA, Enger 0, Torsvik V. Abundance and diversity of Archaea in heavy-metal-contaminated soilsJ. Applied and Environmental Microbiology. 1999,65(8): 3293-3297.13Yang Q,Angly FE,Wang Z et al Wastewater treatment systems harbor specific and diverse yeast communitiesJ. Biochemical Engineering Journal. 2011.14Smit E, Leeflang P, Gommans S et al. Diversity and seasonal fluctuations of the dominant members of the bacterial soil community in a wheat field as determined by cultivation and molecular methodsJ. Applied and Environmental Microbiology. 2001, 67(5): 2284-2291.15张文学,乔宗伟,胡承等.PCR技术对浓香型白酒糟醅细菌菌群的解析J.四川大学学报:工程科学版.2005, 37(005): 82-87.7Saito A, Fujii T, Shinya T, Shibuya N, Ando A and Miyashita K. The msiK gene, encoding the ATP-hydrolysing component of N,N -diacetylchitobiose ABC transporters, is essential for induction of chitinase production in streptomyces coelicolorJ. Microbiology-Sgm, 2008,154(2): 335833658Shinya T, Hanai K, Galis I, Suzuki K. Matsuoka K, Matsuoka H and Saito M. Characterization of NtChitIV, a class IV chitinase induced by beta-1,3-,1,6-glucan elicitor from Alternaria alternata 102: Antagonistic effect of salicylic acid and methyl jasmonate on the induction of NtChitIVJ. Biochemical and Biophysical Research Communications,2007,353(2): 3113179El Ghaouth A, Wilson C L and Callahan A M. Induction of chitinase, beta-1,3-glucanase, and phenylalanine ammonia lyase in peach fruit by UV-C treatmentJ. Phytopathology, 2003,93(3): 34935510裴炎,张正圣,夏玉先,宋水清.苦瓜几丁酶的纯化及性质J.植物学报, 1993,35(6):48648911肖月华,侯磊,袁小红等.植物类几丁酶苦瓜同源基因(McChi5)的克隆及特征分析J.遗传学报, 2002,29(11):1028103312罗小英,曾雪嘉,肖月华等.抗菌肽和几丁质酶基因提高烟草对黑胫病菌和赤星病菌的抗性研究J.植物病理学报,2005,35(3):2492551Cook R J.Science-based risk assessment for the approval and use of plants in agriculturaland other environmentJ.Agricultural Biotechnology and the Poor,1999,16(5):123130.2Chen Z,Chen Land Wu Z.Relationships among persistence of bacillus thuringiensis and cowpea trypsin inhibitor proteins, microbial properties and enzymatic activities in rhizosphere soil after repeated cultivation with transgenic cottonJ. Applied Soil Ecology, 2012, 53(2): 23303Wei M, Tan F, Zhu H and Cheng K. Impact of bt-transgenic rice (SHK601) on soil ecosystems in the rhizosphere during crop developmentJ. Plant Soil and Environment, 2012, 58(5): 2172234谢明,张艳军,吴刚.转cry1Ac基因抗虫棉对土壤三种酶活性的影响J.植物保护,2011,37(6): 93965雷江荣,王冬梅,李晓荣,李建平,黄乐平.转SNC1基因棉花抗枯萎病防御酶活性分析J. 华北农学报, 2010, 25(2):9136刘红梅,黄永春,屠臣阳,皇甫超河,王慧,杨殿林.转双价棉丛枝菌根真菌侵染率与植株养分含量变化的研究J.作物杂志, 2012,20(1):798319郭润芳,刘晓光,高克祥等.拮抗木霉菌在生物防治中的应用与研究进展J.中国生物防治, 2002,18(4):18018420Harman G E, Howell C R, Viterbo A, Chet I and Lorito M, Trichoderma species-opportunistic, avirulent plant symbiontsJ. Nature Reviews Microbiology, 2004,2(1): 435621Latorre B A, Lolas M and Marholz G, Verticillium wilt, a limiting factor for tobacco production in chileJ. Plant Disease,1989,73(8): 66466613丰胜求,张艳,徐久玮,甘莉,甘蓝型油菜防御酶活性变化与抗病性的关系J.华中农业大学学报,2005,24(3):23123514余叔文.植物生理与分子生物学M. 北京:科学出版社,1992,p.41743015王敬文,薛应龙.植物苯丙氨酸解氨酶的研究J.植物生理学报,1981,7(4):37338022Wang B, Shen H, Yang X Y, Guo T, Zhang B X and Yan W H, Effects of chitinase-transgenic (McChit1) tobacco on the rhizospheric microflora and enzyme activities of the purple soilJ. Plant Soil and Environment, 2013,59(6): 241246.23鲁如坤,土壤农业化学分析方法M. 北京:中国农业科技出版社, 2000, p.31231418陈捷,蔺瑞明,高增贵,薛春生,鄢洪海,郭红莲.玉米弯孢叶斑病菌毒素对寄主防御酶系活性的影响及诱导抗性效应J.植物病理学报, 2002,32(1):434816董小卫,王放,申莉莉,王凤龙,刘常荣.三生-NN与NC89接种TMV后防御酶的活性变化J.中国烟草科学, 2009,30(3):414424赵蕾,滕安娜,木霉对植物的促生及诱导抗性研究进展J.植物保护, 2010,36(3):43466 Bao S DAnalysis of Soil AgrochemistryBeijing: Chinese Agriculture Press，2000: 14-387 Lu R KAnalytical Methods of Soil AgrochemistryBeijing: Chinese Agriculture Science and Technology Press，19998 Tabatabai M. (1994): Soil enzymes. In: Weaver R.W., Angle S., Bottomley P., Bezdicek D., Smith S., Tabatabai A., Wollum A. (eds): Methods of Soil Analysis. Part 2. Microbiological and Bio-chemical Properties. Soil Science Society of America: 797798.9 Ye W., Zhang W.Q., Zhou P.X., Xie J.Z., Zhang Y.L. (1983): Experimental Methods of Soil Microbes. Science Pres