[1]Colpan E, Zengin M, Özbahce A. The effects of potassium on yield and fruit quality components of stick tomato. Horticultural Environmental Biotechnology, 2013, 54(1): 20-28.[2]Li W J, He P, Jin J Y. Effect of potassium on ultrastructure of maize stalk pith and Young root and their relation to stalk rot resistance. Agricultural Sciences in China, 2010, 9(10): 1467-1474.[3]Bocharnikova E A, Loginov S V, Matychenkov V V, Storozhenko P A. Silicon fertilizer efficiency. Russian Agricultural Sciences, 2010, 36(6): 446-448.[4]Farshidi M, Abdolzadeh A, Sadeghipour H R. Silicon nutrition alleviates physiological disorders imposed by salinity in hydroponically grown canola (Brassica napus L.) palnts. Acta Physiological Plant, 2012, 34: 1779-1788.[5]Laskou M, Economou-Eliopoulos M. Bio-mineralization and potential biogeochemical process in bauxite deposits: genetic and ore quality significance. Mineralogy and Petrology, 2013, 107: 471-486.[6]Muravyov M I, Fomchenko N V, Kondrat’eva T F. Biohydrometallurgical technology of copper recovery from a complex copper concentrate. Applied Biochemistry and Microbiology, 2011, 47(6): 607-614.[7]Mo B B, Lian B. Interactions between Bacillus mucilaginosus and silicate minerals (weathered admellite and feldspar): weathering rate, products and reaction mechanisms. Chinese Journal of Geochemistry, 2011, 30: 187-192.[8]Sokolova T A. The role of soil biota in the weathering of minerals: A review of literature. European Soil Science, 2011, 44(1): 56-72.[9]Lian B, Donald L S, Fu P Q. Application and mechanism of silicate bacteria in agriculture and industry. Guizhou Science, 2000, 18(1/2): 44-53.[10]Štyriaková I, Štyriak I, Nandakuman M P, Mattiasson B. Bacterial destruction of mica during bioleaching of kaolin and quartz sands by Bacillus cereus. World Journal of Microbiology and Biotechnology, 2003, 19: 583-590. [11]孙德四, 陈晔, 曹飞. 细菌-矿物接触方式对铝土矿降解的影响. 中国矿业大学学报, 2013, 42(1): 122-127.Sun D S, Chen Y, Cao F. Influence of microbe-mineral contact model on decomposition of bauxite. Journal of China University of Mining & Technology, 2013, 42(1): 122-127. (in Chinese)[12]孙德四, 陈晔, 曹飞. 矿物环境对硅酸盐细菌的铝土矿浸矿脱硅作用的影响. 化工进展, 2012, 21(10): 2341-2348.Sun D S, Chen Y, Cao F. Effects of mineral environments on desilicon from bauxite by silicate bactreia. Chmical Industry and Engineering Progress, 2012, 21(10): 2341-2348. (in Chinese) [13]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): 281-286.Mo B B, Lian B. Study on feldspar weathering and analysis of relevant impact factors. Earth Science Frontiers, 2010, 17(3): 281-286. (in Chinese)[14]胡婕, 郁建平, 连宾. 黑曲霉对含钾矿物的解钾作用及机理分析.矿物岩石地球化学通报, 2011, 30(3): 277-284.Hu J, Yu J P, Lian B. Capability and mechanism of potassium releasing from potassium-bearing minerals by Aspergillus niger. Bulletin of Mieralogy, Petrology and Geochemistry, 2011, 30(3): 277-284. (in Chinese)[15]Zhou Y F, Wang R C, Lu X C, Chen T H. Roles of adhered Paenibacillus polymyxa in the dissolution and flotation of bauxite: a dialytic investigation. Frontiers of Earth Science in China, 2010, 4(2): 167-173.[16]Zhou Y F, Wang R C, Lu X C. Anorthite dissolution promoted by bacterial adhesion: Direct evidence from dialytic experiment. Science China Earth Sciences, 2011, 54(2): 204-211.[17]Ghorbani Y, Oliazadeh M, Shahvedi A, Roohi R, Pirayehgar A. Use of some isolated fungi in biological leaching of aluminum from low grade bauxite. African Journal of Biotechnology, 2007, 6(11): 1284-1288.[18]Liu W X, Xu X S, Wu X H, Yang Q Y, Luo Y M, Christie P. Decomposition of silicate minerals by Bacillus mucilaginosus in liquid culture. Environmental Geochemistry and Health, 2006, 28: 133-140.[19]Štyriaková I, Štyriak I, Oberhänsli H. Rock weathering by indigenous heterotrophic bacteria of Bacillus spp. at different temperature: a laboratory experiment. Mineralogy and Petrology, 2012, 105: 135-144.[20]Yu R L, Ou Y, Tan J X, Wu F D, Sun J, Miao L, Zhong D L. Effects of EPS on adhesion of Acidithiobacillus ferrooxidans on chalcopyrite and pyrite mineral surfaces. Transactions of Nonferrous Metals Society of China, 2011, 21: 407-412.[21]连宾, 陈骏, 傅平秋, 刘丛强, 陈烨. 微生物影响硅酸盐矿物风化作用的模拟试验. 高校地质学报, 2005, 11(2): 181-186.Lian B, Chen J, Fu P Q, Liu C Q, Chen Y. Weathering of silicate minerals by microorganisms in culture experiments. Geological Journal of China Universities, 2005, 11(2): 181-186. (in Chinese)[22]周跃飞, 王汝成, 陆现彩,陆建军. 微生物-矿物接触模式影响矿物溶解机制的试验研究. 高校地质学报, 2007, 12/13(4): 658-662.Zhou Y F, Wang R C, Lu X C, Lu J J. Influence of microbe-mineral contact model on mineral dissolution: A primary study on microperthite dissolution by Paenibacillus polymyxa. Geological Journal of China Universities, 2007, 12/13(4): 658-662. (in Chinese)[23]Adeleke R A, Cloete T E, Bertrand A,Khasa D P. Mobilisation of potassium and phosphorus from iron ore by ectomycorrhizal fungi. World Journal of Microbiology and Biotechnology, 2010, 26: 1901-1913.[24]Zhan S F, Chen Y, Sun D S. Effects of potassium-dissolution microorganisms on surface properties of orthoclase and bioleaching. Advanced Materials Research, 2013, 753/755: 109-113. [25]钟婵娟, 孙德四, 陈晔, 曹飞. 基于矿物晶体结构的铝土矿细菌浸矿机制研究. 中国矿业大学学报, 2013, 42(3): 638-645.Zhong C J, Sun D S, Chen Y, Cao F. Effects of mineral crystal structures on bacterial leaching of bauxite. Journal of China University of Mining & Technology, 2013, 42(3): 638-645. (in Chinese)[26]孙德四, 王化军, 张强. 环状芽孢杆菌对铝土矿浸出分解行为的影响. 中国有色金属学报, 2013, 23(4): 1119-1128.Sun D S, Wang H J, Zhang Q. Effects of Bacillus circulans on decomposition behavior of bauxite. The Chinese Journal of Nonferrous Metals, 2013, 23(4): 1119-1128. (in Chinese) |