[1] 冯夏,陈焕瑜,帅应垣,等.广东小菜蛾对苏云金杆菌的抗性研究.昆虫学报,1996,39(3):238-244. [2] 余德亿,占志雄,汤葆莎.小菜蛾对Bt的抗性及其治理.昆虫天敌,1999,21(1):21-27. [3] 周传恩.我国杀虫微生物的应用研究进展及发展前景.农药,2001,40(7):8-10. [4] Ichimatsu T, Mizuki E, Nishimura K et al. Occurrence of Bacillus thuringiensis in fresh waters of Japan. Curr Microbiol,2000,40(4):217-220. [5] Swiecicka I, Fiedoruk K, Bednarz G. The occurrence and properties of Bacillus thuringiensis isolated from free-living animals. Lett Appl Microbiol,2002,34(3):194-198. [6] Lee D H, Cha I H, Woo D S et al. Microbial ecology of Bacillus thuringiensis: fecal populations recovered from wildlife in Korea. Can. J. Microbiol.2003,49(7):465-471. [7] Lee D H, Shisa N, Wasano N et al. Characterization of flagellar antigens and insecticidal activities of Bacillus thuringiensis populations in animal feces. Curr Microbiol,2003,46(4):287-290. [8] Ohba M, Lee DH. Bacillus thuringiensis associated with faeces of the Kerama-jika, Cervus nippon keramae, a wild deer indigenous to the Ryukyus, Japan. Journal of Basic Microbiology, 2003, 43(2):158-162. [9] Delucca A J , Simonson J G, Larson A D. Bacillus thuringiensis distribution in soils of the United States. Can J Microbiol, 1981,27(9):865-870. [10] Knowles B H, Farndale R W. Activation of insect cell adenylate cyclase by Bacillus thuringiensis delta-endotoxins andmelittin. Toxicity is independent of cyclic AMP. Biochem J,1988,253(1):235-241. [11] Bernhard K, Jarrett P, Meadowsm. Natural isolates of Bacillus thuringiensis: Worldwide distribution, characterization, and activity against insect pests. Journal of Invertebrate Pathology,1997,70:59-68. [12] Minoru Maeda, Eiichi Mizuki,Yukinobu Nakamura et al. Recovery of Bacillus thuringiensis from Marine Sediments of Japan.Current Microbiology,2000,40:418-422. [13] 许鸿川.植物学.北京:中国林业出版社,2006,254-255. [14] Sally M, Gingell R, Campbell et al. The effect of zinc, lead and cadmium pollution on the leaf surface microflora . Environmental Pollution,1976,11(1):25-37. [15] Ercolani G L. Factor analysis of fluctuation in populations of Pseudomonas syringae pv.savastanoi on the phylloplane of the olive . Microbial Ecology.1985,11(1):41-49. [16] Ercolane G L. Pseudomonas savastanoi and Other Bacteria Colonizing the Surface of Olive Leaves in the Field. Journal of General Microbiology,1978,109:245-257. [17] Yoshmura F. Phylloplane bacteria in a pine forest. Can.J.Microbiol,1982,28:580-592. [18] Smith R A, Couche G A.The phylioplane as a source of Bacillus thuringiensis Variants.Applied and Environmental Microbiology,1991,57:311-315. [19] Ohba M.Bacillus thuringiensis population naturally occurring on mulberry leaves:a possible source of the populations associated with silkworm rearing insectaries. Appl Bacterlol,1996,80:56-64. [20] Damgaard P H, Hansen B M,Pedersen J C et al.Natural occurrence of Bacillus thuringiensis on cabbage foliage and in insects associated with cabbage crops.Journal of Applyed Microbiology,1997,82:253-258 [21] Damgaard P H, Abdel Hameed A, Ellenberg J et al. Natural occurrence of Bacillus thuringiensis on grass foliage. World Journal of Microbiology &Bloteclmology,1998,14:239-242. [22] Normander B, Christensen B B, Molin S et al. Effect of bacterial distribution and activity on conjugal gene transfer on the phylloplane of the bush bean (Phaseolus ). Applied and Environmental Microbiology,1998,64:1902-1909. [23] Kaelin P, Gadani F.Occurrence of Bacillus thuringiensis on cured tobacco leaves.Current Microbiology,2000,40:205-209. [24] Maduell P, Callejas R, Cabrera K R, et al. Distribution and characterization of Bacillus thuringiensis on the phylloplane of species of Piper(Peperaceae)in three altitudinal levels, Microb Ecol,2002,44:144-153. [25] Rizali Akhmad, Asano Shin-ichiro, Sahara Ken et al. Novel Bacillus thuringiensis serovar aizawai strains isolated from mulberry leaves in Indonesia. Appl Entomol Zool,1998,33(1):111-114. [26] Mizuki E, Ichimatsu T, Hwang S H et al. Ubiquity of Bacillus thuringiensis on phylloplanes of arboreous and herbaceous plants in Japan. Journal of Applied Microbiology,1999,86:979-984. [27] Kaelin P, Zaugg L, Albertini A M, et al. Activity of Bacillus thuringiensis isolates on Lasioderma serricorne (F.) (Coleoptera: Anobiidae). J Journal of Stored Products Research,1999,35:145-158. [28] Kaur S, Singh A. Natural occurrence of Bacillus thuringiensis in leguminous phylloplanes in the New Delhi region of India. World Journal of Microbiology and Biotechnology,2000,16(7):679-682(4). [29] Jara S, Maduell P, Orduz S. Diversity of Bacillus thuringiensis strains in the maize and bean phylloplane and their respective soils in Colombia. J Appl Microbiol,2006,101(1):117-124. [30] Bizzarri Mriangela F, Bishop Alistair H. Recovery of Bacillus thuringiensis in vegetative form from the phylloplane of clover (Trifolium hybridum)during a growing season. Journal of Invertebrate Pathology,2007,94:38-47. [31] Cinar C, Apaydin O, Yenidunya A F,et al. Isolation and characterization of Bacillus thuringiensis strains from olive-related habitats in Turkey. Appl Microbiol.2008,104(2):515-525. [32] 高家合.我国复烤烟叶苏云金杆菌的分离及杀虫特性测定.中国烟草科学,2005,26(1):34-38. [33] 张灵玲.苏云金芽孢杆菌LLP29菌株的分离及其对白纹伊蚊作用机理的研究:[博士学位论文].福建:福建农林大学,2007:27-29. [34] Wasano N, Imura S, Ohba M. Failure to recover Bacillus thuringiensis from the Lützow-Holm Bay region of Antarctica. Letters in Applied Microbiology,1999,28(1):49-51. [35] Forsyth G, Logan N A. Isolation of Bacillus thuringiensis from Northern Victoria Land, Antarctica.Lett Appl Microbiol,2000,30(3):263-266. [36] Zhang L L, Lin J, Luo L,et al. A novel Bacillus thuringiensis strain LLB6 isolated from bryophytes, and its new cry2Ac-type gene .Letters in Applied Microbiology,2007,44(3):301-307 [37] Maeda M, Mizuki E, Hara M, et al. Isolation of Bacillus thuringiensis from intertidal brackish sediments in mangroves. Microbiol Res.2001,156(2):195-198.
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