[1] Adamczyk JJ, Hardee DD, Adams LC,et al. 2001. Correlating differences in larval survival and development of bollworm(Lepidoptera: Noctuidae) and fall armyworm (Lepidoptera: Noctuidae) to differential expression of Cry1A(c) delta-endotoxin in various plant parts among commercial cultivars of transgenic Bacillus thuringiensis cotton.J Econ Entomol,94(1):284~290 [2] Bundy CS, McPherson RM. 2000. Dynamics and seasonal abundance of stink bugs (Heteroptera: Pentatomidae) in a cotton-soybean ecosystem.J Econ Entomol,93(3):697~706 [3] Chen S(陈松), Wu J-Y(吴敬音), Zhou B-L(周宝良),et al.2000.On the temporal and spatial expressions of Bt toxin protein in Bt transgenic cotton.Acta Gossypii Sin(棉花学报), 12(4):189~193(in Chinese) [4] Cui J-J(崔金杰), Xia J-Y(夏敬源). 1998. Effects of Bt transgenic cotton (with early maturity) on population dynamic of main pests and their natural enemies. Acta Gossypii Sin(棉花学报), 10(5):255~262(in Chinese) [5] Cui J-J(崔金杰), Xia J-Y(夏敬源). 2000a. Effects of Bt (Bacillus thuringiensis) transgenic cotton on the dynamics of pest population and their enemies.Acta Phytophy Sin(植物保护学报), 27(2):141~145(in Chinese) [6] Cui J-J(崔金杰), Xia J-Y(夏敬源). 2000b. Effects of transgenic Bt cotton R93-6 on the insect community.Acta Entomol Sin(昆虫学报), 43(1):43~51(in Chinese) [7] Dai X-F(戴小枫), Wang W-G(王武刚), Dong S-L(董双林),et al. 1998. Toxin and control efficiency of transgenic Bt cotton against Helicoverpa amigera (Hubner) in northern China.J Agric Biotechnol(农业生物技术学报),6(2):109~115(in Chinese) [8] De CB, Moar W, Lee SB,et al.2001. Overexpression of the Bt cry2Aa2 operon in chloroplasts leads to formation of insecticidal crystals.Nat Biotechnol, 19(1):71~74 [9] Ding Z-Y(丁志勇), Xu C-R(许崇任), Wang R-J(王戎疆). 2001. Comparision of several important isoenzymes between Bt cotton and regular cotton.Acta Ecol Sin(生态学报),21(2):332~336(in Chinese) [10] Fan X-L(范贤林), Shi X-P(石西平), Zhao J-Z(赵建周),et al. 1999. Insecticidal activity of transgenic tobacco plants expressing both Bt and CpTI genes on cotton bollworm (Helicoverpa armigera).Chin J Biotechnol(生物工程学报),15(1):6~10(in Chinese) [11] Fang X-J(方宣钧), Jia S-R(贾士荣). 1999. Progress of commercialization of transgenic cotton in China.Biotechnol Inform(生物技术通报),15(2):39~40(in Chinese) [12] Fitt GP, Mares LC,et al.1994.Field evaluation and potential ecological impact of transgenic cottons (Gossypium hirsutum) in Australia.Biocontrol Sci Technol,4(4):535~548 [13] Forrester NW, Hokkanen HM, Deacon J. 1994. Resistance management options for conventional Bacillus thuringiensis and transgenic plants in Australian summer field crops.Biocontrol Sci Technol,4(4):549~553 [14] Gould F, Anderson A, Jones A,et al. 1997. Initial frequency of alleles for resistance to Bacillus thuringiensis toxin in field pouplation of Heliothis virescens.Proc Nat Acad Sci USA,94:3519~3523 [15] Gray AJ,Raybould AF.1998.Reducing transgene escape routes.Nature,392:653~654 [16] He D-J(何丹军),Shen J-L(沈晋良),Zhou W-J(周威军),et al.2001. Using F2 genetic method of isofemale lines to detect the frequency of resistance alleles to Bacillus thuringiensis toxin from transgenic Bt cotton in cotton bollworm (Lepidoptera:Noctuidae).Acta Cossypii Sin(棉花学报),13(2):105~108(in Chinese) [17] Jia S-R(贾士荣). 1999. The nature of current debate on biosafety of genetically modified crops.Biotechnol Informa(生物技术通报),15(6):1~7(in Chinese) [18] Kota M, Daniell H, Varma S,et al.1999. Overexpression of the Bacillus thuringiensis (Bt) Cry2Aa2 protein in chloroplasts confers resistance to plants against susceptible and Bt-resistant insects.Proc Natl Acad Sci USA,96(5):1840~1845 [19] Li Y-E(李燕娥), Zhu Z(朱桢). 1998. Obtaining transgenic cotton plants with cowpea trypsin inhibitor gene.Acta Gossypii Sin(棉花学报),10(5):237~243(in Chinese) [20] Lin Y(林毅).2000. Adaptation of transgenic strains of insect-resistance cotton to different ecological environments.Chin J Appl Ecol(应用生态学报),11(2):246~248(in Chinese) [21] Liu Q(刘谦),Zhu X-Q(朱鑫泉). 2001. Bio-Safety. Beijing: Science Press. 72~86(in Chinese) [22] Luo L-Z(罗礼智), Cao Y-Z(曹雅忠). 2000. Damaging characteristics of Spodoptera exigua and analysis of its outbreak trend.Plant Protec(植物保护),26(3):37~38(in Chinese) [23] Moeed A, Hokkanen HM, Deacon J. 1994. Management of genetic technology in New Zealand.Biocontrol Sci Technol,4(4): 597~600 [24] Office of Agricultural Biological Genetic Engineering Safety Administration, MOA. 1999. The review results about the safety evaluation of agricultural GMOs and its products.Biotechnol Inform(生物技术通报),15(4):35~37(in Chinese) [25] Olsen KM, Daly JC. 2000. Plant-toxin interactions in transgenic Bt cotton and their effect on mortality of Helicoverpa armigera(Lepidoptera: Noctuidae).J Econ Entomol,93(4):1293~1299 [26] Roush R. 1994. Resistance management for Bt-transgenic cotton.Aust Cottongrower,15(2):17~20 [27] Santos MO, Adang MJ, All JN,et al. 1997 Testing transgenes for insect resistance using Arabidopis.Molec Breed,23:183~194 [28] Saxena D, Stotzky G. 2000. Insecticidal toxin from Bacillus thuringiensis is released from roots of transgenic Bt corn in vitro and in situ.FEMS Microbiol Ecol,33(1):35~39 [29] Shen J-L(沈晋良), Zhou W-J(周威君), Wu Y-D(吴益东),et al.1998. Early resistance of Helicoverpa armigera (Hubner) to Bacillus thuringiensis and its relation to the effect of transgenic cotton lines expressing Bt toxin on the inesct. Acta Entomol Sin(昆虫学报),41(1):8~14(in Chinese) [30] Shelton AM, Tang JD, Roush RT,et al. 2000. Field tests on managing resistance to Bt-engineered plants.Nat Biotechnol,18(3):339~342 [31] Shu C-E(束春娥), Sun H-W(孙洪武), Sun Y-W(孙以文),et al.1998. Toxic response of cotton bollworm to various parts of Bt-transgenic cotton in different growing stages.Acta Gossypii Sin(棉花学报), 10(3):131~135(in Chinese) [32] Su X-D(苏锡东). 1999. Current status of transgenic plants applied in plant protection.Chin Plant Protec Soc Newsletter(植物保护学会会刊),41:87~106(in Chinese) [33] Sun L-X(孙雷心). 2000. A summary on the whole world transgenic crops commercialization in 1999.Biotechnol Inform(生物技术通报),16(3):39~41(in Chinese) [34] Tabashnik BE. 1994. Evolution of resistace to Bacillus thuringiensis. Annu Rev Entomol,39:47~79 [35] Tang JD, Collins HL,et al.2001. Greenhouse tests on resistance management of Bt transgenic plants using refuge strategies.J Econ Entomol,94(1):240~247 [36] Venette RC, Hutchison WD, Andow DA. 2000. An in-field screen for early detection and monitoring of insect resistance to Bacillus thuringiensis in transgenic crops.J Econ Entomol,93(4):1055~1064 [37] Wan F-H(万方浩), Ye Z-C(叶正楚), Guo J-Y(郭建英). 2000.Progresses and expectations on biological control in China.Entomol Knowledge(昆虫知识),37(2): 65~74(in Chinese) [38] Wang C-Z(王琛柱), Qin J-D(钦俊德). 1998. Current status of studies on insect and plant mutural effect.World Agric(世界农业), (4):33~35(in Chinese) [39] Wearing CH, Hokkanen HM, Deacon J. 1994. Pest resistance to Bacillus thuringiensis:Case studies of ecological crop assessment for Bt gene incorporation and strategies of management.Biocontrol Sci Technol,4(4):573~590 [40] Wigley PJ, Chilcott CN, Broadwell AH,et al.1994. Conservation of Bacillus thuringiensis efficacy in New Zealand through the planned deployment of Bt genes in transgenic crops.Biocontrol Sci Technol,4(4):527~534 [41] Williams S, Friedrich L, Dincher S,et al. 1992. Chemical regulation of Bacillus thuringiensis δ-endotoxin expression in transgenic plants.Bio-Technology,10:540~543 [42] Zhang B-H(张宝红).2000. Resistance management for Bt-transgnic cotton.Acta Gossypii Sin(棉花学报),12(3):164~168(in Chinese) |