第10期 孙德四等：胶质芽孢杆菌HJ07的UV与NTG诱变育种及其对铝土矿浸矿效果 ·1277· 参考文献 [12]Lu X C,Tu B W,Zhu TT,et al.Attachment of microbes on mineral surface in microbial weathering and its signif- [1]Liang H X,Lu A L,Li C P,et al.Conditions and direc- icance.Geol J China Univ,2011,17(1):21 tions for utilization of low-grade bauxite in China.China (陆现彩.屠博文，朱婷婷，等.风化过程中矿物表面微生物 in Mag.2011,20(7):10 附若现象及意义.高校地质学报，2011,17(1)：21) (梁汉轩，鹿爱莉，李翠平，等。我国铝土矿贫矿资源的开发 [13]Sun D S,Yu S L,Sun J Q.Inhibitory effect of different 利用条件及方向.中国矿业，2011,20(7)：10) minerals on silicate bacteria JXF strain growth.Gold, [2]Sun L,Xiao K Y,Wang Q M,et al.The analysis on 2008,29(1):45 the present situation and potential of bauxite resources in (孙德四，于盛禄，孙剑奇.不同矿物对硅酸盐细菌JXF菌 China.Geol Bull China.2011.30(5):722 株生长的抑制作用.黄金，2008,29(1)：45) (孙莉，肖克炎，王全明，等.中国铝土矿资源现状和潜力分 [14 Sun D S,Zhang X Z,Zhang Q.Leaching effects of metabo- 析.地质通报，2011,30(5)：722) lites of silicate bacterium on silicate minerals.Min Metall [3 Li JQ,Zhang Y.Research progress on pre-desilicification Eng2006,26(3:27 from minerals containing aluminum and silicon.Hy- (孙德四，张贤珍，张强.硅酸盐细菌代谢产物对硅酸盐矿 drometall China,2010,29(4):229 物的浸溶作用研究.矿治工程，2006,26(3)：27) (李军旗，张煜.含铝硅矿物预脱硅工艺研究进展.湿法冶 [15]Wu T,Chen J,Lian B.Advance in studies on the func- 金，2010.29(4)：229) tion of microbes to the weathering of silicate minerals. 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Conditions and direc￾tions for utilization of low-grade bauxite in China. China Min Mag, 2011, 20(7): 10 (梁汉轩, 鹿爱莉, 李翠平, 等. 我国铝土矿贫矿资源的开发 利用条件及方向. 中国矿业, 2011, 20(7): 10) [2] Sun L, Xiao K Y, Wang Q M, et al. The analysis on the present situation and potential of bauxite resources in China. Geol Bull China, 2011, 30(5): 722 (孙莉, 肖克炎, 王全明, 等. 中国铝土矿资源现状和潜力分 析. 地质通报, 2011, 30(5): 722) [3] Li J Q, Zhang Y. Research progress on pre-desilicification from minerals containing aluminum and silicon. Hy￾drometall China, 2010, 29(4): 229 (李军旗, 张煜. 含铝硅矿物预脱硅工艺研究进展. 湿法冶 金, 2010, 29(4): 229) [4] Xu J, Zhang Y M, Wang J. In one kind of microorganism removing bauxite silicon dioxide method study. China Min Mag, 2010, 19(3): 72 (徐靖, 张一敏, 王娟. 一种微生物脱除铝土矿中二氧化硅 的方法研究. 中国矿业, 2010, 19(3): 72) [5] Groudeva V I, Groudev S N. Bauxite dressing by means of Bacillus circulans. Travaux ICSOBA, 1983, 13(18): 257 [6] Groudeva V I, Zhong C D. Bauxite dressing by microor￾ganisms. Met Ore Dressing Abroad, 1989, 26(11): 9 (Groudeva V I, 仲崇渡. 铝土矿的微生物选矿. 国外金属 矿选矿, 1989, 26(11): 9) [7] Lian B, Donald L S, Fu P Q. Application and mechanism of silicate bacteria in agriculture and industry. Guizhou Sci, 2000, 18(1/2): 44 (连宾, Donald L S, 傅平秋. 硅酸盐细菌在工农业生产中 的应用及其作用机理. 贵州科学, 2000, 18(1/2): 44) [8] Natarajan K A, Modak J M, Anand P. Some microbiolog￾ical aspects of bauxite mineralization and beneficiation. Miner Metall Process, 1997, 14(2): 47 [9] Bandyopadhyay N, Banik A K. Optimization of physical factors for bioleaching of silica and iron from bauxite ore by a mutant strain of Aspergillus niger. Res Ind, 1995, 40(1): 14 [10] Niu Y J, Qiu G Z, Zhou J K, et al. Screening of sili￾cate bacteria and bioleaching silicon from bauxite. Chin J Nonferrous Met, 2004, 14(2): 281 (钮因健, 邱冠周, 周吉奎, 等. 硅酸盐细菌的选育及铝土矿 细菌脱硅效果. 中国有色金属学报, 2004, 14(2): 281) [11] Mo B B, Lian B. Study on feldspar weathering and anal￾ysis of relevant impact factors. Earth Sci Front, 2010, 17(3): 281 (莫彬彬, 连宾. 长石风化作用及影响因素分析. 地学前缘, 2010, 17(3): 281) [12] Lu X C, Tu B W, Zhu T T, et al. Attachment of microbes on mineral surface in microbial weathering and its signif￾icance. Geol J China Univ, 2011, 17(1): 21 (陆现彩, 屠博文, 朱婷婷, 等. 风化过程中矿物表面微生物 附着现象及意义. 高校地质学报, 2011, 17(1): 21) [13] Sun D S, Yu S L, Sun J Q. Inhibitory effect of different minerals on silicate bacteria JXF strain growth. Gold, 2008, 29(1): 45 (孙德四, 于盛禄, 孙剑奇. 不同矿物对硅酸盐细菌 JXF 菌 株生长的抑制作用. 黄金, 2008, 29(1)：45) [14] Sun D S, Zhang X Z, Zhang Q. Leaching effects of metabo￾lites of silicate bacterium on silicate minerals. Min Metall Eng, 2006, 26(3): 27 (孙德四, 张贤珍, 张强. 硅酸盐细菌代谢产物对硅酸盐矿 物的浸溶作用研究. 矿冶工程, 2006, 26(3): 27) [15] Wu T, Chen J, Lian B. Advance in studies on the func￾tion of microbes to the weathering of silicate minerals. Bull Mineral Petrol Geochem, 2007, 26(3): 263 (吴涛, 陈骏, 连宾. 微生物对硅酸盐矿物风化作用研究进 展. 矿物岩石地球化学通报, 2007, 26(3): 263) [16] Hui M, Hou Y C, Tian Q, et al. Characteristics of exo￾polysyccharides from the silicate bacterium GSY-1 and its leaching effects on bauxite mineral. J Henan Norm Univ Nat Sci, 2010, 38(1): 142 (惠明, 侯银臣, 田青, 等. 硅酸盐细菌 GSY-1 胞外多糖的 性质及其对铝土矿的脱硅效果. 河南师范大学学报: 自然 科学版, 2010, 38(1): 142) [17] Bhatti T M, Bigham J M, Vuorinen A, et al. Weather￾ing of phlogopite in simulated bioleaching solutions. Int J Miner Process, 2011, 98(1/2): 30 [18] Gericke M, Neale J W, van Staden P J. A mintek perspec￾tive of the past 25 years in minerals bioleaching. J S Afr Inst Min Metall, 2009, 109(10): 567 [19] Brierley C L. Biohydrometallurgical prospects. Hydromet￾allurgy, 2010, 104(3/4): 324 [20] Dopson M, Lovgren L, Bostrom D. Silicate mineral disso￾lution in the presence of acidophilic microorganisms: Im￾plications for heap bioleaching. Hydrometallurgy, 2009, 96(4): 288 [21] Mockovˇcakov´a A, Iveta S, Jiˇr’ı ˇ S, et al. Characterization ˇ of changes of low and high defect kaolinite after bioleach￾ing. Appl Clay Sci, 2008, 39(3/4): 202 [22] Anjum F, Shahid F, Akcil A. Biohydrometallurgy tech￾niques of low grade ores: a review on black shale. Hy￾drometallurgy, 2012, 117/118: 1 [23] Zhou Y F, Wang R C, Lu X C, et al. Influence of microbe-mineral contact model on mineral dissolution: a primary study on microperthite dissolution by Paenibacil￾lus polymyxa. Geol J China Univ, 2007, 13(4): 658 (周跃飞, 王汝成, 陆现彩，等. 微生物 - 矿物接触模式影响