Chemical composition of some seaweed from Mediterranean Sea coast, Egypt

doi:10.1007/s10661-012-3009-y

. 2013 Jul;185(7):6089-99.

doi: 10.1007/s10661-012-3009-y. Epub 2012 Dec 5.

Chemical composition of some seaweed from Mediterranean Sea coast, Egypt

Ghada F El-Said¹, Amany El-Sikaily

Affiliations

PMID: 23212555
PMCID: PMC3667364
DOI: 10.1007/s10661-012-3009-y

Chemical composition of some seaweed from Mediterranean Sea coast, Egypt

Ghada F El-Said et al. Environ Monit Assess. 2013 Jul.

. 2013 Jul;185(7):6089-99.

doi: 10.1007/s10661-012-3009-y. Epub 2012 Dec 5.

Authors

Ghada F El-Said¹, Amany El-Sikaily

Affiliation

¹ Environmental Division, National Institute of Oceanography and Fisheries, Alexandria, Egypt.

PMID: 23212555
PMCID: PMC3667364
DOI: 10.1007/s10661-012-3009-y

Abstract

This study pointed to the assessment of the chemical composition (F, Ca, Mg, Na, K, Fe, Mn, Zn, Cu, Ni, Co, Cr, Cd, and carbohydrate) of different marine seaweeds (red, green, and brown) from the Egyptian Mediterranean Sea coast. The results showed that green seaweeds supplied better calcium sources than the red and brown ones. Also, red and brown seaweeds showed higher averages of Na and K than that in green species and these seaweeds could play an important role in the electrolyte balance in humans. On the other hand, green seaweeds gave the highest average carbohydrate concentration; thus, these green species could be used as a source of polysaccharides. Ion quotient values for almost seaweed species were between 1.4 and 4.0, so they can reduce hypertension, preeclampsia, and heart disease in human beings. Interestingly, the calculated hazard quotient of elements was below 1. Accordingly, these seaweed species were of high quality and safety and might be used in the field of nutrition.

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Figures

**Fig. 1**
Sampling locations along Alexandria Mediterranean Sea coast, Egypt

**Fig. 2**
Cluster analysis for some elements and carbohydrate in different seaweeds

**Fig. 3**
The calculated ingestion, estimated daily intake, and HQ values of some elements in the different seaweeds for child and adult

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References

1. Abdallah, M.A.M. (2007). Chemical Composition and Trace element concentration of marine algae Enteromorpha spp. As potential food source. Third Symposium of Marine vegetation and seaweeds, UNEP/MAP/RAC-SPA. (France), March 27–29 (pp. 225–228).
1. Abdallah MAM. Chemical composition, mineral content and heavy metals of some marine seaweeds from Alexandria coast, Egypt: potential uses. Egyptian Journal of Aquatic Research. 2008;34(2):84–94.
1. Aguilera-Morales M, Casas-Valdez M, Carrillo-Domìnguez S, González-Acosta B, Perez-Gil F. Chemical composition and microbiological assays of marine algae Enteromorpha spp. as a potential food source. Journal of Food Composition and Analysis. 2005;18:79–88. doi: 10.1016/j.jfca.2003.12.012. - DOI
1. Albering HJ, Rila JP, Moonen EJC, Hoogweff JA, Klenjans JCS. Human health risk assessment in relation to environment pollution of two artificial freshwater lakes in the Netherlands. Environmental Health Perspectives. 1999;107:27–35. doi: 10.1289/ehp.9910727. - DOI - PMC - PubMed
1. Aleem AA. The marine algae of Alexandria Egypt, Ed. University of Alexandria Egypt. 1993;138:1–55.

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[1] Abdallah, M.A.M. (2007). Chemical Composition and Trace element concentration of marine algae Enteromorpha spp. As potential food source. Third Symposium of Marine vegetation and seaweeds, UNEP/MAP/RAC-SPA. (France), March 27–29 (pp. 225–228).

[2] Abdallah, M.A.M. (2007). Chemical Composition and Trace element concentration of marine algae Enteromorpha spp. As potential food source. Third Symposium of Marine vegetation and seaweeds, UNEP/MAP/RAC-SPA. (France), March 27–29 (pp. 225–228).

[3] Abdallah MAM. Chemical composition, mineral content and heavy metals of some marine seaweeds from Alexandria coast, Egypt: potential uses. Egyptian Journal of Aquatic Research. 2008;34(2):84–94.

[4] Abdallah MAM. Chemical composition, mineral content and heavy metals of some marine seaweeds from Alexandria coast, Egypt: potential uses. Egyptian Journal of Aquatic Research. 2008;34(2):84–94.

[5] Aguilera-Morales M, Casas-Valdez M, Carrillo-Domìnguez S, González-Acosta B, Perez-Gil F. Chemical composition and microbiological assays of marine algae Enteromorpha spp. as a potential food source. Journal of Food Composition and Analysis. 2005;18:79–88. doi: 10.1016/j.jfca.2003.12.012. - DOI

[6] Aguilera-Morales M, Casas-Valdez M, Carrillo-Domìnguez S, González-Acosta B, Perez-Gil F. Chemical composition and microbiological assays of marine algae Enteromorpha spp. as a potential food source. Journal of Food Composition and Analysis. 2005;18:79–88. doi: 10.1016/j.jfca.2003.12.012. - DOI

[7] Albering HJ, Rila JP, Moonen EJC, Hoogweff JA, Klenjans JCS. Human health risk assessment in relation to environment pollution of two artificial freshwater lakes in the Netherlands. Environmental Health Perspectives. 1999;107:27–35. doi: 10.1289/ehp.9910727. - DOI - PMC - PubMed

[8] Albering HJ, Rila JP, Moonen EJC, Hoogweff JA, Klenjans JCS. Human health risk assessment in relation to environment pollution of two artificial freshwater lakes in the Netherlands. Environmental Health Perspectives. 1999;107:27–35. doi: 10.1289/ehp.9910727. - DOI - PMC - PubMed

[9] Aleem AA. The marine algae of Alexandria Egypt, Ed. University of Alexandria Egypt. 1993;138:1–55.

[10] Aleem AA. The marine algae of Alexandria Egypt, Ed. University of Alexandria Egypt. 1993;138:1–55.

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Chemical composition of some seaweed from Mediterranean Sea coast, Egypt

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Chemical composition of some seaweed from Mediterranean Sea coast, Egypt

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