Responses of Sesbania rostrata and S. cannabina to Pb, Zn, Cu and Cd toxi-cities 被引量：6

Responses of Sesbania rostrata and S. cannabina to Pb, Zn, Cu and Cd toxi-cities

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摘要 Responses of Sesbania rostrata and S. cannabina to Pb, Zn, Cu and Cd toxicities were assessed by a seed-suspending seedbed(SSS) approach. The results showed that the SSS approach was suitable for testing the tolerance of a plant to the stress of toxic metals. The endpoints include seed germination success, straightened radicle and hypocotyl of the seedlings from the seeds. The measurements could be done easily and accurately. It was found that the elongation of radicle was the most sensitive indicator to the stress of heavy metals among the endpoints. When exposure to lower or medium concentrations of Pb, Zn, and Cd, the development of the lateral roots were favorable. Species of S. rostrata was more tolerant than S. cannabina to the heavy metals, especially to Zn and Cd. The ED 50 of Pb, Zn, Cu and Cd were 32.90, 5.32, 4.40 and 12.00 μg/ml for S. rostrata, respectively, and they were 30.11, 2.87, 4.05 and 4.94 μg/ml respectively for S. cannabina. Responses of Sesbania rostrata and S. cannabina to Pb, Zn, Cu and Cd toxicities were assessed by a seed-suspending seedbed(SSS) approach. The results showed that the SSS approach was suitable for testing the tolerance of a plant to the stress of toxic metals. The endpoints include seed germination success, straightened radicle and hypocotyl of the seedlings from the seeds. The measurements could be done easily and accurately. It was found that the elongation of radicle was the most sensitive indicator to the stress of heavy metals among the endpoints. When exposure to lower or medium concentrations of Pb, Zn, and Cd, the development of the lateral roots were favorable. Species of S. rostrata was more tolerant than S. cannabina to the heavy metals, especially to Zn and Cd. The ED 50 of Pb, Zn, Cu and Cd were 32.90, 5.32, 4.40 and 12.00 μg/ml for S. rostrata, respectively, and they were 30.11, 2.87, 4.05 and 4.94 μg/ml respectively for S. cannabina.

作者 YANGZhong-yi CHENFu-hua YUANJian-gang ZHENGZheng-wei WONGMing-hung

机构地区 StateKeyLaboratoryforBiologicalControlandSchoolofLifeScience DepartmentofBiology

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2004年第4期670-673,共4页 环境科学学报（英文版）

基金 TheNationalNaturalScienceFoundationofChina (No.30 0 70 1 2 6)andHongKongCroucherFoundation

关键词 Sesbania rostrata Sesbania cannabina heavy metal tolerance testing method root elongation Pb/Zn tailings Sesbania rostrata, Sesbania cannabina heavy metal tolerance testing method root elongation Pb/Zn tailings

分类号 X503 [环境科学与工程—环境工程] X131 [环境科学与工程—环境科学]

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参考文献16

1[1]Craig G C, 1978. A method of measuring heavy metal tolerance in grasses[J].Transactions of the Rhodesia Scientific Association, 58: 9-16.
2[2]Dreyfus B, Dommergues R, 1981. Nitrogen fixing nodules induced by Rhizobium on the stem of the tropical legume Sesbania rostrata [ J ]. FEMS Microbiology Letters, 10: 313-317.
3[3]Dreyfus B, Alazard D, Dommergues Y, 1984. New and unusual microorganisms and niches [ M ]. ( Klug M. and Reddy C. ed. ): Current perspectives in microbial ecology. Washington DC: American Society of Microbiology, 161-169.
4[4]Dreyfus B, Rinando G, Dommergues Y, 1985. Observations on the use of Sesbania rostrata as green manure in paddy fields[ J]. MIRCEN Journal of Applied Microbiology and Biotechnology, 1:111-122.
5[5]Dreyfus B, Garcia L, Gillis M, 1988. Characterization of Azorhizobium caulinodans gen. nov. sp., a stem nodulating nitrogen fixing bacterium isolated from Sesbania rostrata [ J ]. International Journal of Systematic Bacteriology, 38: 89-98.
6[6]Ladha J K, Pareek R P, Becker M, 1992. Stem-nodulating legume-Rhizobium symbiosis and its agronomic use in lowland rice[M]. (Stewart B. A. ed. ):Advances in soil science, Vol. 20. New York: Springer-Verlag New York Inc., 147-192.
7[7]Manguiat I J, Sebiano A G, Jalolon A T et al., 1987. Biofertilizer and nitrogen fixation potentials of Sesbania rostrata under flooded and nonflooded conditions as affected by inoculation and nitrogen application[J]. The Philippine Journal of Crop Science, 12: 325-?.
8[8]Pareek R P, Ladha J K, Watanabe I, 1990: Estimating N2 fixation by Sesbania rostrata and S. cannabina ( syn. S. aculeata ) in lowland rice soil by the 15 N dilution method[J]. Biology and Fertility of Soils, 10: 77-88.
9[9]Radziah O, Shamsuddin H, 1990. Growth of Sesbania rostrata on different components of Tin tailings[J]. Pertanika, 13: 9-15.
10[10]Rand M C, Greenberg A E, Taras M J, 1971. Standard methods for the examination of water and wastewater[ M]. 14th ed., Washington, D. C.:Pub. Assoc.

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Journal of Environmental Sciences

2004年第4期

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Responses of Sesbania rostrata and S. cannabina to Pb, Zn, Cu and Cd toxi-cities 被引量：6

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