Chinese Journal of Applied Ecology ›› 2003, Vol. ›› Issue (12): 2326-2332.
• Articles • Previous Articles Next Articles
ZHANG Yulan1,2, CHEN Lijun1, LIU Guifen3, WU Zhijie 1
Received:
2003-03-04
Revised:
2003-07-03
Online:
2003-12-15
CLC Number:
ZHANG Yulan, CHEN Lijun, LIU Guifen, WU Zhijie . Research advance in catalytic kinetics of soil hydrolase[J]. Chinese Journal of Applied Ecology, 2003, (12): 2326-2332.
[1] Acosta-Martinez V and Tabatabai MA. 2000. Arylamidase activity in soils. Soil Sci Soc Am J,64:215~221 [2] Boyd SA and Mortland MM. 1990. Enzymes interactions with clays and clay-orgnic matter complexes. In: Bollag JM and Stotzky G,eds. Soil Biochemistry. Vol. 6. New York: Marcel Dekker. pp 1~28 [3] Boulkanz L, Balcsr N and Baron MH. 1995. FTIR analysis for structural characterization of albuin adsorbed on reversed phase support.Appl Spectrosc , 49:1737~1746 [4] Bremner JM and Mulvaney RL. 1978. Urease activity in soils. In:Burns RG ed. Soil Enzymes. New York: Academic Press. pp 149~196 [5] Bums RG ed. 1978. Soil Enzymes. New York:Academic Press. [6] Burns RG. 1986. Interactions of enzymes with soil minerals and organic colloids. In: Huang PM and Schnitzer M, eds. Interactions of soil minerals with natural organics and microbes. Madison, WI: Soil Science Society of America. pp 429~451 [7] Burns RG, Dick RP. 2001. Enzymes in the Environment: Activity,Ecology and Applications. New York: Marcel Dekker, Inc. [8] Cabrera ML, Kissel DE and Rock BR. 1991. Urea hydrolysis in soil:Effect of urea concentration and soil pH. Soil Biol Biochem, 23(12): 1121~1124 [9] Cervelli S, Nannipieri P, Ceccant B, et al. 1973. Michaelis constant of soil acid phosphatase. Soil Biol Biochem, 5: 841~845 [10] Chen L, Boeckx P, Zhou L, et al. 1998 Effect of hydroquinone, dicyandiamide and encapsulated calcium carbide on urea-N uptake by spring wheat, soil mineral N content and N2O emission. Soil Use Manage, 14:230~233 [11] Chen L-J(陈利军),WuZ-J(武志杰),Jiang Y(姜勇),et al.2002.Response of Ntransformation related soil enzyme activities to inhibitors application.Chin J ApplEcol(应用生态学报),13(9):1099~1103(in Chinese) [12] Dalal RC. 1985. Distribution, salinity, kinetic and thermodynamic characteristics of urease in avertiaol profile. Austr J Soil Res, 23:49~60 [13] Deng SP, Tabatabai MA. 1995. Cellulase activity of soils: Effect of trace elements. Soil Biol Biochem, 27 (7) :977~979 [14] Dick WA, Juma NG and Tabatabai MA. 1983. Effect of soils on acid phosphatase and inorganic pyrophophatase of corn roots. Soil Sci,136(1): 19~25 [15] Dick WA and Tabatabai MA. 1984. Kinetic parameters of phcophatases in soils and organic waste mate rials. Soil Sci, 137(1):7~14 [16] Dick WA and Tabatabai MA. 1987. Kinetics and activities of phosphatases-clay complexes. Soil Sci, 143(l): 5~15 [17] Fan J(樊军),Hao M-D(郝明德).2002.Kinetic characteristics of urease and alkaline phosphatase in dry land farming.Arid Region AgricRes(干旱地区农业研究),20(1):79~83(in Chinese) [18] Farrell RE, Gupta VVSR and Germida JJ. 1994. Effect of cultivation on the activity and kinetics of arylsulfatase in Saskatchewan soils. Soil Biol Biochem, 26(8): 1033~1040 [19] Garcia C, Hernandez T and Costa F. 1991. Changes in carbon fractions during composting and maturation of organic wastes. Environ Manage, 15:433~439 [20] Garcia C, Hernandez T, Costa F, et al. 1993. Kinetics of phosphatase activity in organic wastes. Soil Biol Biochem, 25(5): 561~565 [21] Garcia C, Hemandz Mt. 2000. Research and Perspectives of Soil Enzymology in Spain. Spain Murcia: CEBAS-CSIC. [22] Gianfreda L, Rao MA and Violante A. 1991. Invertase(β-fructosidase): Effect of montmorillonite, Al-hydroroxide and Al (OH) xmontmorillonite complex on activity and kinetic properties. Soil Biol Biochem, 23(6): 581~587 [23] Gianfreda L, Rao MA and Violante A. 1992. Adsorption, activity and kinetic properties of urease on montmorilonite, aluminium hydroxide and AL (OH)X-montm-rilonite complexes. Soil Biol Biochem, 24(1): 51~58 [24] Gianfreda L and Bollag J M. 1994. Effect of soils on the behavior of immobilized enzymes. Soil Sci Soc Am J, 58:1672~1681 [25] Gianfreda L, Cristofaro AD, Rao MA, et al. 1995. Kinetics behavior of synthetic organo-and organo-mineral-urease complexes. Soil Sci Soc Am J,59:811~815 [26] He W-X(和文祥)and Zhu M-E(朱铭莪).1997.Study of relation between urease and fertility of soils in Shannxi lⅡ. Soil urease kinetic characteristics.Acta Pedol Sin(土壤学报),34(1):392~398(in Chinese) [27] He W-X(和文祥),Zhu M-E(朱铭莪),Zhang Y-P(张一平).2000. Recent advance in relationship between soil enzymes and heavy metals.Soil Environ(土壤与环境),9(2):139~142(in Chinese) [28] He W-X(和文样),Wei G-H(韦革宏),Wu Y-J(武永军),et al.2001.Soil enzyme activity effected by Hg. China inaEnviron Sci(中国环境科学),21(3):279~283(in Chinese) [29] He W-X(和文祥),Zhu M-E(朱铭莪),Zhang Y-P(张一平).2002. Effect of pH on relationship between soil urease activity and Hg,Cd.J Northwest Sci-Tech UnivAgricFor(西北农林科技大学学报),30(3):66~70(in Chinese) [30] Huang QY, Shindo H and Tee Boon Goh. 1995. Adsorption, activities and kinetics of acid phosphatase as influenced by montmorillonite with different interlayer material. Soil Sci, 159(4): 271~277 [31] Juma NG and Tabatabai MA. 1978. Effects of trace elements on phosphatase activity in soils. Soil Sci Soc Am J, 41:343346 [32] Kiss S, Dragan-Bularda M, Radulescu D. 1978. Soil polyseccharidase: Activity and agricultural important. In: Bums RG ed. Soil Enzymes. New York: Academic Press. pp 117~147 [33] Kiss S, Pasca D, Dragan-Bulardan M. 1998. Enzymology of Disturbed Soils. Amsterdam: Elsevieer. pp 1~340 [34] Kobayashi Y and Aomine S. 1967. Mechanism of inhibitory effect of allophane and montmorillonite on some enzymes. Soil Sci Plant Nutr, 13:180~194 [35] Kramer S, Green DM. 2000. Acid and alkaline pbosphatase dynamics and their relationship to soil microclimate in a semiarid wooldland. Soil Biol Biochem , 32:179~188 [36] Kumar V, Singh M. 1986. Inhibition of soil urease activity and nitrification with some metallic cations. Austr J Soil Res, 24(4): 527~532 [37] Kuprevich VK and Shcherbakova TA. 1971. Comparative enzymatic activity in diverse types of soil. In: Paul EA and McLaren AD, eds.Soil Biochemistry. Vol. 2. New York: Marcel Dekker. pp 167~201 [38] Ladd JN and Bulter JA. 1975. Humus-enzyme systems and synthetic organic polymer enzyme analogs. In: Paul EA and McLaren AD,eds. Soil Biochemistry. Vol. 4. New York: Marcel Dekker. pp 143~194 [39] Ladd JN. 1985. Soil enzymes. In: Vaughan D, Malcolm RE, eds.Soil Organic Matter and Biological Activity. Dordrecht, Netherlands: Martinus Nijhoff. Dr. W. Junk Publishers. pp 176~221 [40] Lebedeval LA, et al. 1995. The effect of heavy metals and lime on urease activity podzalic soil. Moscow Univ Soil Sci Bull, 50(2): 68~71 [41] Lloyd AB. 1975. Extraction of urease from soil. Soil Biol Biochem,7:357~358 [42] Makboul HE and Ottow JCG. 1978. The protective effect of buffers on the inactivation of urease adsorbed to montmorillonite and kaolinite clay soils and minerals. In: Krumbein WE, ed. Environmental Biogeochemistry and Geomicrobiology. Vol. 2. The Terrestrial Environment. Michigan: Ann Arbor Science Publishers. [43] Makboul HE and Ottow JCG. 1979a. Michselis constant (Km) of acid phosphatase as affected by montmorillonite, illite, and kaolinite clay minerals. Microb Ecol , 5:207~213 [44] Makboul HE and Ottow JCG. 1979b. Alkaline phosphatase activity and michaelis constant in the presence of difference clay minerals.Soil Sci, 128(3): 129~135 [45] McLaren AD. 1975. Kinetics and consecutive reaction of soil enzymes. Chem Ser , 8:97 [46] Mclaren. AD. 1978. Kinetics and consecutive reaction of soil enzymes. In: Burns RG ed. Soil Enzymes. New York: Academic Press.96~116 [47] Nannipieri PB, Ceccanti B, Cervelli S, et al. 1978. Stability and kinetics properties of humus-urease complexes. Soil Biol Biochem,10:143~147 [48] Nannipieri PB, Ceccanti B, Cervelli S, et al. 1982. Hydrolases extracted from soil:Kinetics parameters of several enzymes catalyzing the same reaction. Soil Biol Biochem, 14:429~432 [49] Nannipieri PB, Grego S and Ceccanti B. 1990. Ecological significance of the biological activity in soil. In: Bollag JM and Stotzky G, eds.Soil Biochemistry. New York: Marcel Dekker. pp 293~354 [50] Nannipieri PB, Kandler E, Ruggiero P. 2002. Enzyme activity and microbial and biochemical processes in soil. In: Burns RG and Dick RP, eds. Enzymes in the Environment :Activity, Ecology and Applications. New York: Marcel Dekker. pp 1~33 [51] Paulson KZ and Kurtz LT. 1970. Michaelis constants of urease. Soil Sci Soc Am Pro, 34:70~72 [52] Pettit NM, Smith ARJ, Freedman RB, et al. 1976. Soil urease: Activity, stability, and kinetics parameters. Soil Biol Biochem, 8:479~487 [53] Qiu Y-X(邱业先)and Luo Z-M(罗泽民).2000.The kinetics of soil urease inhibition by some compounds. Acta Agric Univ Jiangxiensis(江西农业大学学报),22(3):357~359(in Chinese) [54] Quiquampoix H and Ratcliffe RG. 1992. A 31P NMR study of the adsorption of bovine serum albumin on montmorillonite using phosphate and the paramagnetic caution Mn2+: Modification of conformation with pH. J Colloid Interface Sci , 148: 342~352 [55] Rachhpal-Singh and Ney PH. 1984. The effect of soil pH and high urea concentrations on urease activity in soil. J Soil Sci, 35:519~527 [56] Rao MA, Violante A and Gianfred L. 1998. Interactions between tannic acid and acid phosphatase. Soil Biol Biochem, 30:111~112 [57] Rao MA and Gianfred L. 2000. Properties of acid phosphatase-tanic acid complexes formed in the presence of Fe and Mn. Soil Biol Biochem, 32:1921~1926 [58] Rao MA, Violante A and Gianfred L. 2000. Interaction of acidphosphatase with clays, organic molecules and organo-mineral complexes: Kinetics and stability. Soil Biol Biochem, 32:1007~1014 [59] Ross DG and McNeilly BA. 1972. Some influence of different soils and clay minerals on the activity of glucose oxidase. Soil Biol Biochem, 4: 9~18 [60] Roy AB and Trudinger PA. 1970. The Biochemistry of Inorganic Compounds of Sulphur. London: Combridge University Press. [61] Royer GP. 1975. The kinetics of immobilized enzymes. In: Weetall HH ed. Immobilized Enzymes, Antigens, Antibodies, and Peptides.New York: Marcel Dekker. pp 49~91 [62] Sarkar JM and Burns RG. 1984. Synthesis and properties of β- Dglucosidase- phenolic copolymers as analogues of soil humic-enzyme complexes. Soil Biol Biochem, 16: 619~625 [63] Sarkar JM, Leonowicz A, Bollag JM. 1989. Immobilization of Enzymes on clays and soils. Soil Biol Biochem, 21(2) :223~230 [64] Senwo ZN and Tabatabai MA. 1996. Aspartase activity of soils. Soil Sci Am J, 60:1416~1422 [65] Servgent-Noinville S, Revault M, Quiquampoix H, et al. 2000. Conformationnal changes of bovine serum albumin induced by adsorption on different clay surfaces:FTIR analysis. J Colloid Interface Sci, 4:221~238 [66] Simpson GH and Hughes JD. 1978. Arylsulphatase-clay interactions 1. Adsorptiooon of arylsulphatase by kaolinite and montmorillonite.Austr J Soil Res, 16: 27~33 [67] Skujins JJ. 1976. Extracellular enzymes in soil. Cri Rev Mictobiol,6:383~421 [68] Skujins JJ. 1978. History of abiontic soil enzyme research. In: Bums RG ed. Soil Enzymes. New York:Academic Press. pp 1~49 [69] Speir TW and Ross DJ. 1978. Soil phosphatase and sulphatase. In:Burns RG ed. Soil Enzymes. New York:Academic Press. pp 198~250 [70] Tabatabai MA and Bremner JM. 1971. Michaelis constant of soil enzymes. Soil Biol Biochem , 3: 317~323 [71] Tabatabai MA. 1973. Michaelis constant of urease in soils and soil fractions. Soil Sci Sco Am Pro,37:707~710 [72] Tabatbai MA, Fu M. 1992. Extraction of enzymes in soils. In:Stotzky G, Bollag JM, eds. Soil Biochemistry. Vol. 7. New York:Marcel Dekker. 197~227 [73] Tabatabai MA. 1994. Soil enzymes. In:Weaver RW, Angle JR, Bottomley PS, eds. Methods of Soil Analysis: Microbiological and Biochemical Properties. Part 2. SSSA Book Ser. 5. Soil Sci Soc Am,Madison, WI. pp 775~833 [74] Tabatabai MA, Dick WA. 2002. Enzymes in soil. In: Bums RG and Dick RP, eds. Enzymes in the Environment: Activity, Ecology and Applications. New York: Marcel Dekker Inc. pp 567~596 [75] Tabatabai MA, Garcia-Manzanedo AM, Aeosta-Martinez V. 2002.Substrate specificity of arylamidase in soils. Soil Biol Biochem, 34(1): 103~110 [76] Theng BKG. 1979. Formation and Properties of Clay-Polymer Complexes. New York: Elsevier. [77] Todorov TS, Dimkov R, et al. 1987. Effect of lead contamination on the biological properties of alluvial meadow soil. Pochovoznwtie, Agrokhimiya, 22(5): 33~40 [78] Xu L-F(许炼峰),Hao X-R(郝兴仁),Liu T-H(刘腾辉),et al.1995. Effect of heavy metals Cd and Pb on soil microbial activity.TropSubtropSoil Sci(热带亚热带土壤科学),4(4):216~220(in Chinese) [79] Yang Z-Y(杨志新)and Liu S-Q(刘树庆).2001.Effect of compound pollution of heavy metals on soil enzymic activities. Acta Sci Circ(环境科学学报),21(1):60~63(in Chinese) [80] Zhao XY, Zhou LK. 1991. Effect of the urease inhibitor, hydroquinone on soil enzyme activities. Soil Biol Biochem, 23 (11): 1089~1091 [81] Zhou L-K(周礼恺).1987.Soil Enzymology.Beijing:Science Press.(in Chinese) [82] Zhou L-K(周礼恺),Zhso X-Y(赵晓燕),Li R-H(李荣华),et al.1992. Effect of urease inhibitor hydroquinone on urea-N transformation in soil.Chin JApplEcol(应用生态学报),3(1):36~41(in Chinese) |
[1] | MENG Yali, WANG Liguo, ZHOU Zhiguo, WANG Ying, ZHANG Lizhen, BIAN Haiyun, ZHANG Siping, CHEN Binglin . Dynamics of soil enzyme activity and nutrient content in intercropped cotton rhizosphere and non-rhizosphere [J]. Chinese Journal of Applied Ecology, 2005, 16(11): 2076-2080. |
[2] | WANG Jianwu, FENG Yuanjiao, LUO Shiming . Effects of Bt corn straw decomposition on soil enzyme activities and soil fertility [J]. Chinese Journal of Applied Ecology, 2005, 16(3): 524-528. |
[3] | SHEN Jupei, CHEN Zhenhua, CHEN Lijun . Phosphatase activities in rice planting meadow brown soil and their responses to fertilization [J]. Chinese Journal of Applied Ecology, 2005, 16(3): 583-585. |
[4] | ZHANG Lili, CHEN Lijun, ZHANG Yulan, WU Zhijie . Research advances in catalytic kinetics of soil oxidoreductase [J]. Chinese Journal of Applied Ecology, 2005, 16(2): 371-374. |
[5] | MA Yunhua, WEI Min, WANG Xiufeng . Dynamics of soil phenols in continuous cropping solar greenhouse and their effects on disease resistance-related enzyme activities in cucumber root [J]. Chinese Journal of Applied Ecology, 2005, 16(1): 79-82. |
[6] | SUN Caixia, CHEN Lijun, WU Zhijie, WU Qiong, CHEN Cuiwei. Photosynthetic characters and Bt toxin content of different transgenic Bt cottons [J]. Chinese Journal of Applied Ecology, 2004, (10): 1878-1882. |
[7] | LI Dongpo, WU Zhijie, CHEN Lijun, ZHU Ping, REN Jun, LIANG Chenghua, PENG Chang, GAO Hongjun. Dynamics of microbial biomass P and its affecting factors in a long-term fertilized black soil [J]. Chinese Journal of Applied Ecology, 2004, (10): 1897-1902. |
[8] | ZHANG Yulan, ZHANG Lili, CHEN Lijun, WU Zhijie . Response of soil hydrolase and oxidoreductase activities to free-air carbon dioxide enrichment(FACE)under rice-wheat rotation [J]. Chinese Journal of Applied Ecology, 2004, (6): 1014-1018. |
[9] | ZHANG Lili, ZHANG Yulan, CHEN Lijun, WU Zhijie . Response of soil saccharidase activities to free-air carbon dioxide enrichment (FACE) under rice-wheat rotation [J]. Chinese Journal of Applied Ecology, 2004, (6): 1019-1024. |
[10] | HE Wenxiang, MA Aisheng, WU Yongjun, ZHU Minge . Effect of arsenic on soil urease activity [J]. Chinese Journal of Applied Ecology, 2004, (5): 895-898. |
[11] | LIU Xuejun, JU Xiaotang, ZHANG Fusuo . Effect of reduced N application on N utilization and balance in winter wheat-summer maize cropping system [J]. Chinese Journal of Applied Ecology, 2004, (3): 458-462. |
[12] | ZHAO Zhenhua, HUANG Qiaoyun, JIANG Xin, YU Guifen, WANG Fang, LI Xueyuan . Effect of acetic acid on adsorption of acid phosphatase by some soil colloids and clay minerals [J]. Chinese Journal of Applied Ecology, 2004, (3): 482-486. |
[13] | TAN Qiling, HU Chengxiao, ZHAO Bin, R. G. Mclaren, CHENG Li, WU Lishu . Effect of continual application of two kinds sludge on enzyme activities and heavy metal concentrations in alluvial soil [J]. Chinese Journal of Applied Ecology, 2004, (3): 497-500. |
[14] | LI Dongpo, WU Zhijie, CHEN Lijun, YANG Jie, ZHU Ping, REN Jun, PENG Chang, GAO Hongjun. Dynamics of urease activity in a long-term fertilized black soil and its affecting factors [J]. Chinese Journal of Applied Ecology, 2003, (12): 2208-2212. |
[15] | SUN Caixia, CHEN Lijun, WU Zhijie, ZHANG Yulan, ZHANG Lili. Effect of transgenic Bt rice planting on soil enzyme activities [J]. Chinese Journal of Applied Ecology, 2003, (12): 2261-2264. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||