[1] 丁克强,骆永明.2001.多环芳烃污染土壤的生物修复[J].土壤,4:169~178. [2] 丁克强,骆永明.2001.生物修复石油污染土壤[J].土壤,4:179~196. [3] 王庆仁,刘秀梅,崔岩山,等.2001.土壤与水体有机污染的生物修复及其应用研究进展[J].生态学报,21(1):159~163. [4] 申建波,张福锁.1999.根分泌物的生态效应[J].中国农业科技导报,1(4):21~27. [5] 刘世亮,骆永明,曹志洪,等.2002.多环芳烃污染土壤的微生物与植物联合修复研究进展[J].土壤,5:257~265. [6] 沈宏,严小龙.2000.根分泌物研究现状及其在农业与环境领域的应用[J].农村生态环境,16(3):51~54. [7] 吴启堂.1993.根分泌物对镉生物有效性的影响[J].土壤,3:257~259. [8] 吴辉,郑师章.1992.根系分泌物及其生态效应[J].生态学杂志,11(6):42~47. [9] 张福锁.1992.根系分泌物及其对根际微生态系统中养分有效性的直接影响[A].见:张福锁主编.土壤-植物营养研究新动态(第一卷)[C].北京:北京农业大学出版社,64~72. [10] 沈德中.1998.污染土壤的植物修复[J].生态学杂志,17(2):59~64. [11] 杨仁斌,曾清如,周细红,等.2000.植物根系分泌物对铅锌尾矿污染土壤中重金属的活化效应[J].农业环境保护,19(3):152~155. [12] 和文祥,蒋新,朱茂旭,等.2001.酶修复土壤农药污染的研究进展[J].生态学杂志,20(3):47~51. [13] 陈怀满著.1994.土壤-植物系统中的重金属污染[M].北京:科学出版社,1~8. [14] 陈英旭,林琦,陆芳,等.2000.有机酸对铅、镉植株危害的解毒作用研究[J].环境科学学报,20(4):467~472. [15] 易筱筠,党志,石林.2002.有机污染物污染土壤的植物修复[J].农业环境保护,21(5):477~479. [16] 施卫明.1993.根系分泌物与养分有效性[J].土壤,25(5):252~256. [17] 骆永明.2000.强化植物修复的螯合诱导技术及其环境风险[J].土壤,2:57~74. [18] 赵爱芬,赵雪,常学礼.2000.植物对污染土壤修复作用的研究进展[J].土壤通报,31(1):43~46. [19] 涂书新,孙锦荷,郭智芬,等.2000.根系分泌物与根际营养关系评述[J].土壤与环境,19(1):64~67. [20] 袁可能.1990.土壤化学[M].北京:农业出版社,26. [21] 桑伟莲,孔繁祥.1999.植物修复研究进展[J].环境科学进展,7(3):41~44. [22] 龚月桦,王俊儒,高俊风.1998.植物修复技术及其在环境保护中的作用[J].农业环境保护,17(6):268~270. [23] 曹享云.1994.营养胁迫与根系分泌物[J].土壤学进展,22(3):27~32. [24] 黄昌勇.2000.土壤学[M].北京:中国农业出版社,263~270. [25] 黄维南,杨乃博,孙惠珍,等.1964.无菌培养下植物离体根的生长素分泌和根的生长[J].植物生理学报,1(增刊):304~314. [26] 黄维南.1987.植物根系的分泌生理及其在农业上的意义[J].植物生理学通讯,6:66~70. [27] 蒋先军,骆永明,赵其国.2000.土壤重金属污染的植物提取修复技术及其应用前景[J].农业环境保护,19(3):179~183. [28] 焦芳婵,毛雪,李润植.2002.植物清除环境污染物的策略及应用[J].农业环境保护,219(3):281~284. [29] Alexander M. 1983. Peroxidase-catalyzedremoval of phenols from coal-conversion wastewater[J]. Science, 221: 259 ~261. [30] Aprill W, Sims RC. 1990. Evaluation of the use of prairie grases for stimulating PAH treatment in soil[J]. Chemosphere, 20:253~265. [31] Baker AJ, Brooks RR. 1989. Terresterial higher plant which hyperaccumulate metallic elements [J]. Biorecovery, 1: 81 ~97. [32] Barber DA, Lynch JM. 1977. Microbial growth in rhizosphere [J]. Soil. Biol. Soil Chem, 9:305~308. [33] Bhadra R, et al. 1999. Confirmation of conjugation processes during TNT metabolism by axenic plant roots[J]. Environ. Sci.Technol, 17: 491~494. [34] Bollag JM. 1988. Laccase mediated detoxification of phenolic compounds[J]. Appl. Environ. Microbiol., 54: 3086~3091. [35] Cieslinski G, et al. 1998. Low molecular weight organic acids in rhizosphere soils of durum wheat and their effect on cadmium bioaccumulation [J ]. Plant. Soil, 203 : 109 ~117. [36] Cunninngham SD. 1995. Phytoremediation of contaminated soil [J]. Trend Biotechnol., 13(9): 393~397. [37] Gordon M, et al. 1998. Phytoremediation of trichloroethylene with hybrid poplars[J]. Environ. Health Prosp., 32:1001 ~1004. [38] Heinrich D. 1985.Chemotactic attraction of Azospirillum lipoferuny by wheat roots and characterization[J]. Can. J. Microbial,31:26~31. [39] Hsu TS, et al. 1979. Accelerated mineralization of two organophosphate insecticide in the rhizosphere[J]. Appl. Environ Microbial, 37: 36. [40] Huang JW, et al. 1998. Phytoremediation of Uranium contaminated soils: role of organic acid in triggering Uranium hyperaccumulation in plant [J ]. Environ. Sci. Technol., 32: 2004 ~2008. [41] Inskeep WP, et al. 1986. Thermodynamic prediction for the effect of root exudates on mental speciation in the rhizosphere[J].J. plant, 9 (3): 567 ~586. [42] Joner EJ, et al. 2002. Nutritional constraints to degradation of polycyclic aromatic hydrocarbons in simulated rhizosphere [J].Soil. Biol. Soil Chem., 34: 859~864. [43] Kilibanov AM, et al. 1981. Horseradish peroxidase for the removal of carcinogenic aromatic amines from water [J]. Enzyme.Microb. Technol., 3:119~121. [44] Krishnarnurti GS, et al. 1997. Kinetic of cadmium release from soils as influenced by organic acids: implication in cadmium availability[J]. J . Environ. Qual, 26: 271 ~277. [45] Knudson L. 1920. The secretion of invertase by plant root [J].AM.J.Bot.,7:317~329. [46] Mench M, et al. 1988. Metal binding with root exudates of low molecular weight[J]. J. Soil Sci., 39: 521~527. [47] Nicell JA, et al. 1993. Reactor development for peroxidase catalyzed polymerization and precipitation of phenols from wastewater [J]. Water Res., 11:1629~1639. [48] Reilly KA, et al. 1996. Dissipation of PAHs in the rhizosphere [J] .J. Environ. Qual., 25:3~4. [49] Sandmann ER, et al. 1984. Enumeration of 2-4-D-degading microorganism in soils and crop plant rhizosphere using indicator media: high populations associated with sugarcane (.Saccharum officinaram) [J]. Chemosphere, 13:1073~1084. [50] Schnoor JL, et al. 1995. Phytoremediation of organic and nutrition contamination[J]. Environ Sci. Technol., 29(7): 318 ~323. [51] Steer J, Harris JA. 2000. Shift in the microbial community in rhizosphere and non-rhizosphere soils during the growth of Agrostis stoloni fera [J ]. Soil. Biol. Soil Chem., 32: 869 ~878. |