Volume 2 Issue 1 Article 1

Potential Toxic Elements Distribution Based on Interplay between Pollutants and Biochemical Remediative Amendments

Writer(s): Mohamed Saber 1, Essam Hob Allah 2, Soad El-ashry 3, Alaa Zaghloul 4,

The aim of this work is to measure in field experiment the distribution of potential toxic elements PTE's Cu, Ni and Zn in sewaged soil after application of chemical remediation technique represented by probentonite, bioremediation technique as thiobacillus thiooxidant, Mycorrhyzal (AM) conidia, and mixture of this treatments (PBC) applied before the plantation of Canola (Brassica Napus, L.), Indian Mustard (Brassica juncea Czern.) and Black nightshade (Solanum nigrum L) as a hyper accumulated plants. The obtained results showed that phytoremediation technique applied individually increased the readily available form after remediation arranged as canola> black nightshade> Indian mustard, meanwhile the application of Probentonite with phyto-accumulation plants increased the residual form in soil system. In the case of bioremediation materials applied, data showed decreasing in both readily and hardly available forms with margin increasing in moderately available forms. The final conclusion of this work documented as the application of PCB technique could be the best management practices in minimizing Zn equivalent to the save level. Different mechanisms of the remediation materials actions were discussed.



Keyword(s): distribution, PTE's, remediation techniques, sewaged soils,

  • [1] Alloway, B.J. (1990) Heavy metals in soils. John Wiley and Sons, Inc. New York, ISBN 0470215984
  • [2] Xian, X., (1987) Chemical partitioning of cadmium, zinc, lead, and copper in soils near smelters. J. Environ. Sci. Health 6, 527-541.
  • [3] Xian, X., (1989). Effect of chemical forms of cadmium, zinc, and lead in polluted soils on their uptake by cabbage plants. Plant and Soil 113, 257-264.
  • [4] Forstner, U. and Salomons, W. (1980). Trace metal analysis on polluted sediments. Part I: Assessment of sources and intensities. Environ. Tech. Lett., 1, 494-505.
  • [5] Scokart, P. Meeus-verdinne, k. and Borger, R. (1987) Speciation of heavy metals in polluted soils by sequential extraction and ICP spectrometry. Int. J. Environ. Analysis chem. 29: 305-312.
  • [6] Saber, M.; Hoballah, E.; Azza, Sh. Turky and Doaa, I. Ali (2011). Microbial Decontamination of Enteric Pathogens in Sewaged Soils. Australian J. of Basic and Appl. Sci., 5(11): 1312-1320.
  • [7] Saber, M., Azza, Sh. Turkey, Fatma, H. Abd-el-Zaher and Dalia, M, Abd-El-Mola (2011) Biological characterization of sandy soil irrigated with sewage effluent for extended periods. International Journal of Basic and Applied Sciences, Vol: 1 No 1 pp 68-76
  • [8] Saber, M (2012) Existence and decontamination of HVC, infectious enteric bacteria and parasites in sewaged soils. (personal communication) .
  • [9] Zaghloul, A and Abou-Seeda, M. (2003) Lead release characteristics in some Egyptian soils in relation to their properties. Egypt. J. Appli. Sci., vol.17, p. 372-385
  • [10] Davis R., Carlton-Smith C (1981) The preparation of sewage sludges of controlled metal content for experimental purposes. Environmental Pollution Series B, Chemical and Physical, 2: 167–177.
  • [11] Coppola, S., Dumontet, S., Portonio, M., Basile, G., and Marino, P., (1988) Effect of cadmium-bearing sewage sludge on crop plants and microorganisms in two different soils. Agricultural Ecosystems and the Environment 20, 181-194.
  • [12] Syliva, D., Willson, D., Graham, J., Maddox, J., Mlllner, P., Morton, J., Skipper, H., Wright, S. and Jarstfer, A. (1993) Evaluation of vesicular-arbuscular mycorrhyzal fungi in diverse plant and soil Soil biology and biochemistry 25(6); 705-713.
  • [13] Ma LQ, Rao GN (1997). Chemical fractionation of cadmium, copper, nickel, and zinc in contaminated soils. J. Environ. Qual., 26: 259-264.

SOURCE SHOW

Citation type: APA

Mohamed Saber, Essam Hob Allah, Soad El-ashry, Alaa Zaghloul. (2019). Potential Toxic Elements Distribution Based on Interplay between Pollutants and Biochemical Remediative Amendments. Ulusal Çevre Bilimleri Araştırma Dergisi, 2 ( 1 ) , 1-9. http://ijepem.com/volume-2/issue-1/article-1/

Citation type: BibTex

@article{2019, title={Potential Toxic Elements Distribution Based on Interplay between Pollutants and Biochemical Remediative Amendments}, volume={2}, number={1}, publisher={International Journal of Environmental Pollution and Environmental Modelling}, author={Mohamed Saber, Essam Hob Allah, Soad El-ashry, Alaa Zaghloul}, year={2019}, pages={1-9} }

Citation type: MLA

Mohamed Saber, Essam Hob Allah, Soad El-ashry, Alaa Zaghloul. Potential Toxic Elements Distribution Based on Interplay between Pollutants and Biochemical Remediative Amendments. no. 2 International Journal of Environmental Pollution and Environmental Modelling, (2019), pp. 1-9.