A comparative Study of Heavy Metals Bioaccumulation in Different Types of Marine Algae from the Sudanese Red Sea Coast

Authors

  • Abuagla Yousif Ahmed Department of Chemistry and Biology. College of Education. Sudan University, Sudan Author
  • Ismail M. Awheda Department of Chemistry. Faculty of Science. Al-Marqab University, Libya Author
  • Fathi A. Smida Department of Chemistry. Faculty of Science. Al-Marqab University, Libya Author

DOI:

https://doi.org/10.58916/jhas.vi.415

Keywords:

heavy metals, marine algae, Red Sea

Abstract

This study aimed to determine the concentrations of heavy metals, Cr, Mn, Ni, Cu, Zn, Cd, and Pb in three main groups of marine algae; green, brown and red from the Sudanese coastal water of the Red Sea at seven main locations. The results of the study showed an affinity towards essential elements (Manganese, Copper and Zinc).Among the essential elements, highest concentration was exhibited by Mn  in all the species, irrespective of their classification,(average range from16.60to 172.53mg/g), where  brown algae Cystoseirasp. contains the highest uptake of Mn (257.32 mg/g). However, green algae Enteromorphasp. contains the highest uptake of Cd and Pb (0.25 and 2.40 mg/g) respectively, these species suggesting its suitability for utilization as biomonitor in the Red Sea coastal environment.

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References

Abdel Aleem, A.(1993). Marine algae of Alexandria. U. of Alexandria, p. 19-56.

Al-Homaidan, A.A., Al-Ghanayem, A.A., and Alkhalifa, A. H.( 2011).Green Algae as Bioindicators of Heavy Metal Pollution in Wadi Hanifah Stream, Riyadh, Saudi Arabia. International Journal of Water Resources and Arid Environments, 1,(1). p. 10-15.

Al-Homaidan, Ali A. (2007). Heavy metal concentrations in three species of green algae from the Saudi coast of the Arabian Gulf. Journal of Food, Agriculture & Environment, Vol.5 (3&4) p. 354-358.

Cavas, L., Tuzmen, M.N., Tuncmen, H.(2009).Heavy metals in caulerpa racemosa var. cylindracea fromTurkish Coastline., Hacettepe J. Biol. & Chem., 37(1), p.47-53.

Chmielewiska, E. and Medvel J. (2002). Bioaccumulation of heavy metals by green algae Cladophora in a refinery sewage lagoon, Croatica Chemica Acta (74) No. (1) p.135-145.

Irvine D.E.G., and Price J.H. (1978).Modern approaches to the taxonomy of red and brown algae, Academic Press, p.1-21, New York.

Davis, T., A., Volesky, B., Mucci, A.(2003).A review of the biochemistry of heavy metal biosorption by brown algae. Water Research, 37, p. 4311–4330.

Encyclopedia Britanica(1976).Volume 15, , Helen Hemingway Benton, p. 544.

Kumar, J.I. Nirmal, Oommen, C. and Kumar R. N.(2009).Biosorption of Heavy Metals from Aqueous Solution by Green Marine Macroalgae from Okha Port, Gulf of Kutch, India. American-Eurasian J. Agric. & Environ. Sci., Vol. 6 (3) p. 317-323

Raize, o., Argaman, ,Y., Yannai, S.(2004). Mechanisms of Biosorption of Different Heavy Metals by Brown Marine Macroalgae. Biotechnology and Bioengineering, Vol. 87, No. 4, p. 450-458.

Romera E, Gonzalez, F., M.L. Ballester, A. Munoz, B., J., A. (2007).Comparative study of biosorption of heavy metals using different types of algae. Bioresource Technology (98), p. 3344–3353.

Sam, A. K. , M. M.O. Ahmed, F.A. Elkhangi, Y.O. Elnigumi and El. Holm. (1998). Radioactivity levels in the Red Sea coastal environment of Sudan, Marine pollution bulletin Vol. (36) No. 1. p. 19 –26.

Torres, M.A., Barros, M.P., Campos, S.C., Pinto, E., Rajamani, S., Sayre, R.T., Colepicolo, P., (2008).Biochemical biomarkers in algae and marine pollution: A review. Ecotoxicology and Environmental Safety 71. p. 1–15.

Zbikowski, R., Szefer, P., Latała, A.(2007). Comparison of green algae Cladophora sp. and Enteromorpha sp. as potential biomonitors of chemical elements in the southern Baltic. Science of the Total Environment, 387, p.320-332.

Abuagla Y.A. Ali, Abubakr M. Idris, Mohmaed A.H. Eltayeb, Adel A. El-Zahhar & I.M. Ashraf. 2021. Bioaccumulation and health risk assessment of toxic metals in red algae in Sudanese Red Sea coast. Toxin Reviews 40, 1327–1337.

Anbazhagan V, Partheeban EC, Arumugam G, Arumugam A, Rajendran R, Paray BA, Al-Sadoon MK, Al-Mfarij AR. 2021 Mar; Health risk assessment and bioaccumulation of metals in brown and red seaweeds collected from a tropical marine biosphere reserve. Mar Pollut Bull. 164:112029.

Aknaf, A., Akodad, M., Layachi, M., Baghour, M., Oudra, B., Vasconcelos, V., 2022. The chemical characterization and its relationship with heavy metals contamination in surface sediment of Marchica Mediterranean Lagoon (North of Morocco). Environ Sci Pollut Res 29, 4159–4169.

Peng Z, Guo Z, Wang Z, Zhang R, Wu Q, Gao H, Wang Y, Shen Z, Lek S, Xiao J. 2022 Aug. Species-specific bioaccumulation and health risk assessment of heavy metal in seaweeds in tropic coasts of South China Sea. Sci Total Environ. 1;832:155031.

Emin Cadar, Rodica Sirbu, Bogdan Stefan Negreanu Pirjol, Ana Maria Ionescu, Ticuta Negreanu Pirjol, 2019. Heavy Metals Bioaccumulation Capacity on Marine Algae Biomass from Romanian Black Sea Coast, Revista de Chimie (Rev. Chim.), Volume 70, Issue 8, 3065-3072

Published

2024-09-04

How to Cite

Abuagla Yousif Ahmed, Ismail M. Awheda, & Fathi A. Smida. (2024). A comparative Study of Heavy Metals Bioaccumulation in Different Types of Marine Algae from the Sudanese Red Sea Coast. Bani Waleed University Journal of Humanities and Applied Sciences, 9(3), 517-527. https://doi.org/10.58916/jhas.vi.415

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