EFFECT OF CLAY MINERALS, CALCITE, AND ORGANIC MATTER ON ADSORPTION AND DESORPTION OF CADMIUM AND LEAD

Authors

  • Ashrf M. Shref
  • Abdul Baqi D.S. Al Maamouri
  • Mazin F. Khudhair
  • Firas W. Ahmed

DOI:

https://doi.org/10.36103/zfgk8x49

Keywords:

binding energy; maximum adsorption; langamire equation; mineral installation,

Abstract

A Factorial experiment of CRD was conducted, to study and evaluate the effectiveness of Calcite, Bentonite, and Kaolinite minerals, as well as organic matter, on adsorption and desorption of Pb and Cd. Bentonite and kaolinite clay minerals were treated by adding of 20 % calcite and 5 % organic matter of the weight of the mineral, so that the final weight became 100 g per treatment. Treatments were incubated for 180 days after that, and treated with five concentrations of Pb and Cd, (0, 10, 20, 30, 40, and 50 μg ml-1) as PbCl2 and CdSo4 respectively, The results showed the superiority of bentonite mineral over kaolinite in the maximum adsorption Xm and binding energy K by 137, 312.5, 20, and 193.5 % for Pb and Cd respectively. In the case of calcite mineral with both minerals, an increase in the binding energy and the greater adsorption were observed in the case of Cd and a decrease in the case of Pb with bentonite. In case of presence of organic matter with kaolinite, the maximum adsorption Xm for cadmium increased, as it was 204.08 μg g-1, while in the case of bentonite with organic matter it was 111.1 μg g-1. In the case of Pb, it reached 93.46 and 208.3 μg gm-1 for both minerals betonies and kaolinite, respectively. Regarding collective release, the results showed that the order of the treatment for the released Cd was as follows: M2 + O.M + C = M2 +O.M < M2 < M2 +C < M1 + C < M1 < M1 +O.M + C < M1 + O.M  In the case of released Pb, the order of treatment was as follows: M1 < M1 + C = M1 + O.M < M1 + O.M + C < M2 + O.M + C <  M2 + C < M2 + O.M < M2.

References

Ahmed, M. T.; K. H. Khouedem, and M. N. Al-Din. 2022. A survey of some heavy and radioactive elements in the falling dust for selected areas in kirkuk governorate, northern Iraq. Iraqi Journal of Sciences. 63(9):3817-3824.

https://doi.org/10.24996/ijs.2022.63.9.14

Ahmad, K. I.; A. Batt.; M. Muneer and Z. Lqbal .2012. Removel of heavy metals (Zn+2,Cr+2,Pb+2,Cd+2,Cu+2and Fe+2) in aqueous media by calcium carbonate as an adsorption. International Journal of Chemical and Biochemical Sciences. 2(1):48-53.

https://www.iscientific.org/wp-content/uploads/2018/02/8-IJCBS-12-02-09.pdf

Al-Rawi, S. A. A.; and S. K. A. Razzaq. 2020. Sources of heavy minerals of the neogene clastics at bekhme, northern Iraq. Iraqi Journal of Science. 61(10): 2610- 2618.

https://doi.org/10.24996/ijs.2020.6110.17

Al-Jubouri, D. A. R. A. 2016. A study of the Different Quantitative Standards for Contamination of Cadmium, Lead, Zinc and Nickel Elements in Soils and Roadside Plants in Baghdad Governorate. Ph.D. Dissertation. College of Agriculture Sciences. University of Baghdad. pp: 153.

Al-Salmany. S. W. K and I. A .Ibrahim. 2021. Phytoextraction of cadmium and lead from a contaminated soil using eucalyptus seedlings. Iraqi Journal of Agricultural Sciences. 52(4): 810-827. https://doi.org/10.36103/ijas.v52i4.1390

Al-Rubaie, A. K. H and M. R. A. Al-Owaidi. 2022. Assessment of heavy metal contamination in urban soils of selected areas in hilla city, Babylon, Iraq. Iraqi Journal of Science. 63(4): 1627-1641. https://doi.org/10.24996/ijs.2022.63.4.21

Al-Zubaidi, M. M. H. 2020. Description of Adsorption and Reversal of Adsorption of Cadmium in some Iraqi Calcareous Soils. Ph.D. Dissertation. College of Agricultural Engineering Sciences. University of Baghdad. pp: 174.

Al-Shammari, S. H. K. 2022. A study of the Mineral Composition, Organic Matter and Properties of some Iraqi Soils under Different Climatic Conditions. Ph.D. Dissertation. College of Agricultural Engineering Sciences. University of Baghdad. pp: 166.

Al-Miamary, F. A.; S. F. Al-Lahibi; A. I. Al-Jubouri and R. Swennen. 2022. Depositional conditions and nature of source rocks of the upper part of the balambo formation in northeastern iraq based on rare earth elements data. Iraqi Journal of Sciences. 63(9): 3804-3816. https://doi.org/10.24996/ijs.2022.63.9.13

Al-daini, L. J. K and K. M. Naser. 2020. Evalution of the efficiency some mineralogical and organic materials to remove some heavy metals from contaminated soil. Plant Archives. 20 (Supplement1): 915-921.

http://www.plantarchives.org/SPECIAL%20ISSUE%2020-1/915 921%20(34).pdf

Al-Gebory, K. D. H. and A. M. H. Al-Khafagy. 2011. Effects of some organic fertilizers on growth, productivity and leaf content from N, P, and K elements of onion plant. Kufa Journal for Agricultural Science, 3(1):47-55

Al-Khafagy, A. M. H. and K. D. H. Al-Gebory. 2010. Influences of fertilizers and organic nutrients on growth and seed yield of onion. Diyala Journal of Agricultural Sciences. 2 (2): 64 – 84

Al-Hayani, A.S. J. Z.; S. N. H. Al-Hassoun and M. A. J. Al-Obeidi. 2022. Adsorption of copper on the surfaces of inexpensive materials (plant residues, sludge and bentonite mineral). Iraqi Journal of Agricultural Sciences 53(3): 654-659. https://doi.org/10.36103/ijas.v53i3.1575

Al-Taee, Z. H. A and A. D. S. Al Maamouri. 2020. Study of the mineral composition of some iraqi soils and its effect on zinc adsorption. Plant Archives.20. (1): 769-776.

https://www.plantarchives.org/20-1/769-776%20(5484).pdf

Chen, X,B.; Y.V. Wright and L.M. Purring .2007. Effect of pH on heavy metal adsorption on mineral apatit Environ. Sci. Technol. 3:624-631. https://doi.org/10.1021/es950882f

Fadel, M. A and F. M. Abdel-Hussein. 2022. Accumulation detection of cadmium in some land-use soil of Baghdad city, iraq. Iraqi Journal of Science. 63(8): 3570-3677.

https://doi.org/10.24996/ijs.2022.63.8.29

Ibrahem, H.S, and K.M. Naser. 2020. Sequential extraction of zinc and nickel elements in contaminated soils. Plant Archives. 20 (Special Issue): 320-324.

https://www.plantarchives.org/20-1/320-324%20(5382).pdf

Issa, S. K. 2022. Soil minerals. Ministry of Higher Education and Scientific Research. University House for printing and publishing. Deposit number 1909. pp: 318.

Kleber, M. K.; M. Eusterrhues; C. Keliuweit and P. Nico. 2015. Mineral-organic associations. formation, properties and relevance in soil environments. Adv. Agron. 30: 1-140. https://doi.org/10.1016/bs.agron.2014.10.005

Khademi, H and Z. Naderizdeh. 2010. Mineralogical changes of clay sized phlogopite and muscoviteas affected by organic matter amendment in rhizoshere. Anadolu. J. Agri. Sci. 25(2): 74-79. https://dergipark.org.tr/en/download/article-file/187782

Lindsay. W. L and W. A. Norvell. 1978. Development of DTPA soil test for zinc, lead, iron, and copper soil. Soc. Am. J. 42(2): 421-425.

https://doi.org/10.2136/sssaj1978.03615995004200030009x

Lindsay. W. L. 2014. Chemical equilibria in soil. John Wiley and Sons. New york: 232-275.

Naser, K. M.; A. M. Shref and M. F. Kudher. 2020. The effect of adding some organic and mineral substances to calcareous soil on adsorption and desorption of copper and its removal efficiency from soil. Plant Archives. 20 (supplement1): 549-555.

http://www.plantarchives.org/SPECIAL%20ISSUE%2020-1/108__549-555_.pdf

Shi, Z.; D. M. Ditor; H. E. Allen and D. L. Sparks. 2013. Ageneral model for kinetics of heavy metal adsorption and desorption on soil. Sci. Technol., 47:3761-3767. https://doi.org/10.1021/es304524p

Peterson, G. W and G. B. Lee. 1966. Quantaive determination of calcite and dolomite in soil. J Soil. Sci. 17:328-338. https://doi.org/10.1111/j.1365-2389.1966.tb01477.x

Wang, X.,; G.Yu, , X. Wang, J Liu, P Jiang, S You, N Ding, Q Guo, and F Lin. 2021. Applications of nanomaterials for heavy metal removal from water and soil: A review. Sustainability, 13(2), 713. https://doi.org/10.3390/su13020713

Wuana, R. A and F. E. Okieimen. 2011. Heavy metals in contaminated soils: A review of sources, chemistry, risks and best available strategies for remediation. International Scholarly Research Network (ISRN) Ecology. 2011: 1-20. ID 402647.

https://doi.org/10.5402/2011/402647

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Published

2024-10-27

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How to Cite

Ashrf M. Shref, Abdul Baqi D.S. Al Maamouri, Mazin F. Khudhair, & Firas W. Ahmed. (2024). EFFECT OF CLAY MINERALS, CALCITE, AND ORGANIC MATTER ON ADSORPTION AND DESORPTION OF CADMIUM AND LEAD. IRAQI JOURNAL OF AGRICULTURAL SCIENCES, 55(5), 1657-1666. https://doi.org/10.36103/zfgk8x49

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