Effects on Enzyme Activities and Microbe in Rhizosphere soil of ScMV-CP transgenic Sugarcane

Abstract

Abstract: 【OBJECTIVE】Study on effects on enzyme activities and microbe in rhizosphere soil of ScMV-CP transgenic sugarcane. 【METHOD】This experiment used BIOLOG Ecoplate and plate cultivation of microorganism associated with related soil enzyme activities analyses under field release of transgenic sugarcane. 【RESULTS】The results showed that the dehydrogenase activity of was lowered significantly(p<0.05), and the cellulose, protease and urease activities were improved remarkably(p<0.01), but there was no difference on sucrase activity and phosphatase activities in rhizosphere soil of ScMV-CP transgenic sugarcane compared with non-transgenic sugarcane. The total number of colony forming units (CFUs) of culturable bacteria and fungi were increased significantly((p<0.01) in transgenic sugarcane rhizosphere soil, but The total number of CFUs of culturable was not effected. No significantly higher CFUs of bacteria, fungi and actinomycetes resistant to kanamycin(Km)were obtained in transgenic sugarcane soil. BIOLOG experiment showed the metabolism activity of soil bacteria was increased lightly, and the soil bacteria diversity indexes such as Simpson index(D’),Shannon-Wiener index(H’), evenness, Mclntosh index(DMc) were not different from each other after inoculating 72h in BIOLOG Ecoplate.【CONCLUSION】There were some effects on soil enzyme activities and CFUs of soil microbe in the rhizosphere soil of ScMV-CP transgenic sugarcane, but no increasement of CFUs of soil microbe resistant to kanamycin(Km)were obtained. And results BIOLOG experiment showed the transgenic sugarcane didn’t change the soil bacteria diversity.

CLC Number:

S154

Ruan Miaohong, Xu Yan, Zheng Yao, Yang Chuanyu,Zheng Bixia, Guo Ying, Chen Rukai, Zhuang Muqing. Effects on Enzyme Activities and Microbe in Rhizosphere soil of ScMV-CP transgenic Sugarcane[J]. Chinese Agricultural Science Bulletin, 2007, 23(4): 381-381.

References

[1] NealJ L, R I Larson, T G Atkinson. Changes in rhizosphere populations of selected physiological groups of bacteria related to substitution of specific pairs of chromosomes in spring wheat. Plant Soil,1973,39:209-212.
[2] McGregor A N, Tumer M A. Soil effects of transgenic agriculture: biological processes and ecological consequences. NZ Soil News,2000,48(6):166-169.
[3] Bruinsma M, G A Kowalchuk, J A van Veen. Effects of genetically modified plants on microbial communities and processes in soil. Biol. Fertil. Soils, 2003,37:329-337.
[4] 王建武,冯远娇,骆世明.转基因作物对土壤生态系统的影响.应用生态学报,2002,13(4):491-494.
[5] Saxena D, Stotzky G. Bacillus thuringiensis(Bt)toxin released from root exudates and biomass of Bt corn has no apparent effect on erathworns, nematodes, protozoa, bacteria, and fungi in soil. Soil Biology & Biochemistry,2001,33:1255-1230.
[6] Oger P, Petit A, Dessaux Y. Genetically engineered plants producing opines alter their biological environment.Nature Biotechnol,1997,15(4):369-372.
[7] Lukow T, Duntleld PF, Liesack W. Use of the T-RFLP technique to assess special and temporal changes in the bacterial community structure within all agricultural soil planted with transgenic and non-transgenic potato plants.FEMS Microbiol Ecol,2000,32:241-247.
[8] 徐晓宇,叶庆富,吴伟祥.转Bt基因“克螟稻”秸秆还田对稻田厌氧微生物种群和酶活性的影响.植物营养与肥料学报,2004,10(1):63-67.
[9] 中国科学院南京土壤研究所微生物室.土壤微生物实验法.北京:科学出版社,1985:40-75.
[10] 关松荫.土壤酶及其研究法.北京:中国农业出版社,1986:264-278.
[11] Hackett C A, Griffiths B S. Statistical analysis of the time-course of Biolog substrate utilization. Journal of Microbiological Methods,1997,30:63-69.
[12] 曹慧,孙辉,杨浩,等.土壤酶活性及其对土壤质量的指示研究进展.应用与环境生物学报,2005,9(1):105-109.
[13] Garcia C, Hernandez T. Biological and biochemical indicators in derelict soils subject to erosion.Soil Bio1＆Biochem,1997,29:171-177.
[14] Choi K H, Dobbs F C. Comparison of two kinds of biolog microplates (GN and ECO)in their ability to distinguish among aquatic microbial communities.Journal of Microbiological Methods,1999,36(3):203-213.
[15] Zak J C,Willig M R, Moorhead D L, et al. Functional diversity of microbial communities a quantitative approach. Soil Biology & Biochemistry,1994,26:1101-1108.
[16] Donegan KK, Palm CJ, Fieland VJ, et al. Change in levels,spicies and DNA fingerprints of soil microorganisms associated with cotton expressing the Bacillus thuringiensis var. Kurstaki endotoxin.Applied soil Ecology,1995,2:111-124.
[17] 沈法富,韩秀兰,范术丽.转Bt基因抗虫棉根际微生物区系和细菌生理群多样性的变化.生态学报,2004,24(3):432-437.
[18] Donegan KK, Schaller DL, Stone JK, et al. Microbial populations,fungal species diversity and plant pathogen levels in field plots of potato plants expressing the Bacillus thuringiensis var. tenbrionls endotoxin. Transgenic Research,1996,5:25-35.
[19] Yutaka Tabei. Environmental risk assessment of transgenic melon in Japan.Plant Biotechology,1999,16(1):65-68.
[20] 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.生态学报,2005,25(5):1213-1220.
[21] 袁红旭,张建中,郭建夫,等.种植转双价抗真菌基因水稻对根际微生物群落及酶活性的影响.土壤学报,2005,42(1):122-126.