[1] Atkinson RJ, Posnel AM, Quisk JP. 1967. Adsorption of potentialdetermining ion at ferrio aqueous electrolyte interface. J Phys Chem, 71(3):551~560 [2] Bhatti JS, Comerford NB, Johnston CT. 1998. Influence of soil organic matter removal and pH on oxalate sorption onto a spodic horizon. Soil Sci Soc Am J, 62:152~158 [3] Chen L-C(陈龙池),Liao L-P(廖利平),Wang S-L(汪思龙),et al.2002.A review for research of root exudates ecology.Chin J Ecol(生态学杂志),21(6):57~62(in Chinese) [4] Dick MA, Tabataibai MA. 1987. Kinetics and activities of phosphatase-clay complexes. Soil Sci, 143:5~14 [5] Gianfreda L, Rao MA, Violante A. 1992. Adsorption, activity and kinetic properties of urease on montmorillonite, aluminum hydroxide and Al(OH)x- montmorillonite complexes. Soil Biol Biochem, 24:51~58 [6] Gianfreda L, Bollag J. 1994. Effect of soils on the behavior of immobilized enzymes. Soil Sci Soc Am J, 58:1672~1681 [7] Gianfreda L, Rao MA, Violante A. 1991. Invertase(β-fuctosidase):Effect of montmorillonite, Al-hydroxide and Al (OH) x-montmorillonite complex on activity and kinetic properties. Soil Biol Biochem, 23:581~587 [8] Giles CH, MacEwan TH, Nakhwa SN. 1960. Studies in adsorption XI.A system of classification of solution adsorption isotherms and its use in diagnosis of adsorption mechanism and in measurement of specific surface area of solids. J Chem Soc, 111:3973~3993 [9] Grierson PF. 1992. Organic acids in the rhizoshere of Banksia integri folia L.F. Plant Soil, 144:259~265 [10] Liu F(刘凡),Xu F-L(徐凤琳),Li X-Y(李学垣),et al.1993.Types of Fe oxides and their phosphate sorption character in soils with variable charge.J Huazhong Agric Univ(华中农业大学学报),12(5):450~454(in Chinese) [11] Lowery OH, Rosenbrough NJ, Farr AL, et al. 1951. Protein measurement with Folin phenol reagent. J Biol Chem, 193:265~278 [12] Morgan HW, Corke CT. 1976. Adsorption, desorption, and activity of glucose oxidase on selected clay species. Can J Microbiol, 22:684~693 [13] Naidja A, Huang PM. 1997. Activity of tyrosinase immobilized on hydroxyaluminum-montmorillonite complexes. J Mol Catal, 115:305~316 [14] Naidja A, Huang PM, Bollag JM. 2000. Enzyme-clay interactions and their impact on transformations of natural and anthropogenic organic compounds in soil. J Environ Qual, 29(3):677~691 [15] Naidja A, Violante A, Huang PM. 1995. Adsorption of tyrosinase onto montmorillonite as influenced by hydroxyaluminum coatings.Clays Caly Minerals, 43 (6):647~655 [16] Parfitt, RL, Farmer VC. 1977a. Adsorption on hydrous oxides I.Oxalate, benzoate on goethite. J Soil Sci, 28:29~39 [17] Parfitt RL, Fraser AR, Russell JD, et al. 1977b. Adsorption on hydrous oxides I. Oxalate, benzoate and phosphate on gibbsite. J Soil Sci, 28:40~47 [18] Quiquampoix H, Abadie J, Baron MH, et al. 1995. Mechanisms and consequences of protein adsorption on soil mineral surfaces. In:Hobert TA, Brash JL, eds. Protein at Interfaces Ⅱ, ACS Symposium Series No. 602. Washington, D. C.:American Chemical Society. 321~333 [19] Rao MA, Gianfreda L, Palmiero F. 1996. Interactions of acid phosphatase with clays, organic molecules and organo-mineral complexes. Soil Sci, 161(11):751~760 [20] Sepelyak RJ, Feldkamp JR, Moody TE. 1984. Adsorption of pepsin by aluminum hydroxide 1. Adsorption mechanism. J Pharmac Sci,73(11):1514~1517 [21] Servagent-Noinville S, Revault M, Quiquampoix H, et al. 2000.Conformational changes of bovine serum albumin induced by adsorption on different clay surfaces:FTIR analysis. J Colloid Interface Sci, 221:273~283 [22] Shen A-L(沈阿林),Li X-Y(李学垣),Wu S-R(吴受容).1997.The composition characteristics of low-molecular-weight organic acids in soil and their roles on soil materials cycling. Plant Nutr Fert Sci(植物营养和肥料学报),3(4):364~371(in Chinese) [23] Shen H(沈宏),Cao Z-H(曹志洪),Xu B-S(徐本生).1999.Dynamics of soil microbial biomass and enzyme activity and their relationships during maize growth.Chin J Appl Ecol(应用生态学报),10(4):471~474(in Chinese) [24] Shen Y, Strom L, Jonsson J, et al. 1996. Low-molecular organic acids in the rhizosphere soil solution of beech forest (Fagus sylvatica L.) cambisols determined by ion chromatography using supported liquid membrane enrichment technique. Soil Biol Biochem, 28(9):1163~1169 [25] Shi G-R(史刚荣).2004.Ecological effects of plant root exudates.ChinJEcol(生态学杂志),23(1):97~101(in Chinese) [26] Song Y-C(宋勇春),Feng G(冯固),Li X-L(李晓林).2003.Effects of different P sources on phosphatase activity of mycorrhizospere of red clover inoculated with AMF.Chin J Appl Ecol(应用生态学报),14(5):781~784(in Chinese) [27] Tu S-X(涂书新),Sun J-H(孙锦荷),Guo Z-F(郭智芬),et al.2000. On relationship between root exudates and plant nutrition in rhizosphere.Soil Environ Sci(土壤与环境),9(1):64~67(in Chinese) [28] Wu L-H(吴龙华),Zhang S-J(张素君).1995.Rhizosheric effects of organic material on coastal saline soil Huanghe River Delta Ⅰ.Effect on soil nutrient and enzyme activity.Chin J Appl Ecol(应用生态学报),6(2):160~165(in Chinese) [29] Xu R-K(徐仁扣),Zhao A-Z(赵安珍),Ji G-L(季国亮).2003.Effect of low-molecular-weight organic acids on surface characteristics of latosols.Chin J Soil Sci(土壤通报),34(6):510~512(in Chinese) [30] Yuan G-L(袁光林),Ma R-X(马瑞霞),Liu X-F(刘秀芬),et al.1998. Effects of allelochemicals on uricase activity. Environ Sci (环境科学),19(1):55~57(in Chinese) [31] Zhang Y-L(张玉兰),Chen L-J(陈利军),Liu G-F(刘桂芬),et al. 2003. Research advance in catalytic kinetics of soil hydrolase.Chin J Appl Ecol(应用生态学报),14(12):2326~2332(in Chinese) [32] Zhao Z-H(赵振华),Huang Q-Y(黄巧云),Jinag X(蒋新),et al. Effect of acetic acid on adsorption of acid phosphatase by some soil colloids and clay minerals.Chin J Appl Ecol(应用生态学报),15(3):482~486(in Chinese) |