[1]吴孔明,郭予元,王武刚. 部分GK系列Bt棉对棉铃虫抗性的田间评价[J]. 植物保护学报,2000,27(4):317-321.
[2]Sarkar B,Patra A K,Purakayastha T J. Transgenic Bt-cotton affects enzyme activity and nutrient availability in a sub-tropical inceptisol[J]. Journal of Agronomy and Crop Science,2008,194(4):289-296.
[3]Shen R F,Cai H,Gong W H. Transgenic Bt cotton has no apparent effect on enzymatic activities or functional diversity of microbial communities in rhizosphere soil[J]. Plant and Soil,2006,285(1/2):149-159.
[4]丁志勇,许崇任,王戎疆. 转Bt基因抗虫棉与常规棉中几种同工酶的比较——转基因植物安全性评价生理指标初探[J]. 生态学报,2001,21(2):332-336.
[5]Saxena D,Flores S,Stotzky G. Bt toxin is released in root exudates from 12 transgenic corn hybrids representing three transformation events[J]. Soil Biology and Biochemistry,2002,34(1):133-137.
[6]孙彩霞,张玉兰,缪璐,等. 转Bt基因作物种植对土壤养分含量的影响[J]. 应用生态学报,2006,17(5):943-946.
[7]Motavalli P P,Kremer R J,Fang M,et al. Impact of genetically modified crops and their management on soil microbially mediated plant nutrient transformations[J]. Journal of Environmental Quality,2004,33(3):816-824.
[8]Nardi S,Concheri G,Pizzeghello D,et al. Soil organic matter mobilization by root exudates[J]. Chemosphere,2000,41(5):653-658.
[9]张美俊,杨武德. 转Bt基因棉种植对根际土壤生物学特性和养分含量的影响[J]. 植物营养与肥料学报,2008,14(1):162-166.
[10]鲍士旦. 土壤农化分析[M]. 3版. 北京:中国农业出版社,2000:14-24,70-97.
[11]Chen Z H,Chen L J,Wu Z J. Relationships among persistence of Bacillus thuringiensis and Cowpea trypsin inhibitor proteins,microbial properties and enzymatic activities in rhizosphere soil after repeated cultivation with transgenic cotton[J]. Applied Soil Ecology,2012,53(2):23-30.
[12]曾萍,冯远娇,张婉纯,等. 种植Bt玉米及秸秆还田后土壤中Bt蛋白的变化及其对土壤养分的影响[J]. 应用生态学报,2014,25(7):1997-2003.
[HJ1.75mm]
[13]孙彩霞,陈利军,武志杰. Bt杀虫晶体蛋白的土壤残留及其对土壤磷酸酶活性的影响[J]. 土壤学报,2004,41(5):761-766.
[14]张莉,胡文军,沈文静,等. 多年连续种植转基因Bt汕优63稻田水体和土壤中Cry1Ab/c蛋白残留调查[J]. 生态与农村环境学报,2015,31(4):534-539.
[15]刘蔸蔸. 转基因抗虫棉Bt蛋白残留及对土壤生物的影响[D]. 南京林业大学,2009:39-40.
[16]James R R. Utilizing a social ethic toward the environment in assessing genetically engineered insect-resistance in trees[J]. Agriculture and Human Values,1997,14(3):237-249.
[17]Mayeno A N,Gleich G J. Eosinophilia-myalgia syndrome and tryptophan production:a cautionary tale[J]. Trends in Biotechnology,1994,12(9):346-352.
[18]马丽颖,崔金杰,陈海燕. 种植转基因棉对4种土壤酶活性的影响[J]. 棉花学报,2009,21(5):383-387.
[19]娜布其,赵建宁,李刚,等. 转双价(Bt+CpTI)棉种植对土壤速效养分和酶活性的影响[J]. 农业环境科学学报,2011,30(5):930-937.
[20]娜日苏. 黄河流域棉区转Bt基因棉种植对土壤微生物生态学特性的影响[D]. 内蒙古师范大学,2011:29-30.
[21]王建武,冯远娇. 种植Bt玉米对土壤微生物活性和肥力的影响[J]. 生态学报,2005,25(5):1213-1220.
[22]赵云丽,赵建宁,李刚,等. 转基因(Bn-csRRM2)高产棉花对土壤速效养分和酶活性的影响[J]. 棉花学报,2015,27(2):143-148.
[23]Yang W,Zhang M,Ding G. Effect of transgenic Bt cotton on bioactivities and nutrients in rhizosphere soil[J]. Communications in Soil Science and Plant Analysis,2012,43(4):689-700.
[24]乌兰图雅,李刚,赵建宁,等. 不同生育期转双价(Bt+CpTI)基因抗虫棉根际土壤酶活性和养分含量变化[J]. 生态学杂志,2012,31(7):1733-1737.