Compartmentation of trace metals in Cymodocea nodosa from a heavily polluted area (Central Gulf of Gabes; Southern Mediterranean Sea): Potential use of the seagrass as environmental monitoring and bioremediation tool

Radhouan Belgacem El Zrelli; Lamia Yacoubi; Sylvie Castet; Michel Grégoire; Yu Jia Lin; Faouzi Attia; Korhan Ayranci; Zaher Abdel Baki; Pierre Courjault-Radé; Lotfi Jilani Rabaoui

doi:10.1016/j.rsma.2023.103056

Compartmentation of trace metals in Cymodocea nodosa from a heavily polluted area (Central Gulf of Gabes; Southern Mediterranean Sea): Potential use of the seagrass as environmental monitoring and bioremediation tool

Radhouan Belgacem El Zrelli^*
, Lamia Yacoubi
, Sylvie Castet
, Michel Grégoire
, Yu Jia Lin
, Faouzi Attia
, Korhan Ayranci
, Zaher Abdel Baki
, Pierre Courjault-Radé
, Lotfi Jilani Rabaoui

^*Corresponding author for this work

Department of Geosciences

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

This study was conducted to better understand the adaptative strategies of Cymodocea nodosa occurring in the heavily polluted environment of central Gulf of Gabes (SE Tunisia). Cd, Cu, Pb and Zn concentrations were assessed in the seagrass roots, rhizomes, and leaves, and in the surrounding seawater and sediments. Sediments were found to be the main source of contaminants bioaccumulated in C. nodosa. Bioaccumulation patterns differed significantly with metals and plant organs. While Cd, Cu and Zn were found to accumulate in leaves, Pb concentrates mainly in roots. In the heavily polluted environment of the Gulf of Gabes, C. nodosa seems to have developed two different adaptative strategies: metal trapping in roots and metal transfer from permanent (roots) to temporary (leaves) organs. These mechanisms allow the seagrass to remove the excess of metals. These properties show the potential use of C. nodosa not only as bioindicator but also as an effective bioremediation tool.

Original language	English
Article number	103056
Journal	Regional Studies in Marine Science
Volume	65
DOIs	https://doi.org/10.1016/j.rsma.2023.103056
State	Published - 10 Dec 2023

Bibliographical note

Publisher Copyright:
© 2023 Elsevier B.V.

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 14 Life Below Water

Keywords

Bioaccumulation
Cymodocea nodosa
Gulf of Gabes
Phosphogypsum
Trace metals

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
Ecology
Aquatic Science
Animal Science and Zoology

Access to Document

10.1016/j.rsma.2023.103056

Fingerprint

Dive into the research topics of 'Compartmentation of trace metals in Cymodocea nodosa from a heavily polluted area (Central Gulf of Gabes; Southern Mediterranean Sea): Potential use of the seagrass as environmental monitoring and bioremediation tool'. Together they form a unique fingerprint.

Cite this

El Zrelli, R. B., Yacoubi, L., Castet, S., Grégoire, M., Lin, Y. J., Attia, F., Ayranci, K., Baki, Z. A., Courjault-Radé, P., & Rabaoui, L. J. (2023). Compartmentation of trace metals in Cymodocea nodosa from a heavily polluted area (Central Gulf of Gabes; Southern Mediterranean Sea): Potential use of the seagrass as environmental monitoring and bioremediation tool. Regional Studies in Marine Science, 65, Article 103056. https://doi.org/10.1016/j.rsma.2023.103056

@article{ce5e092ba16843edb97d9c1060daec0d,

title = "Compartmentation of trace metals in Cymodocea nodosa from a heavily polluted area (Central Gulf of Gabes; Southern Mediterranean Sea): Potential use of the seagrass as environmental monitoring and bioremediation tool",

abstract = "This study was conducted to better understand the adaptative strategies of Cymodocea nodosa occurring in the heavily polluted environment of central Gulf of Gabes (SE Tunisia). Cd, Cu, Pb and Zn concentrations were assessed in the seagrass roots, rhizomes, and leaves, and in the surrounding seawater and sediments. Sediments were found to be the main source of contaminants bioaccumulated in C. nodosa. Bioaccumulation patterns differed significantly with metals and plant organs. While Cd, Cu and Zn were found to accumulate in leaves, Pb concentrates mainly in roots. In the heavily polluted environment of the Gulf of Gabes, C. nodosa seems to have developed two different adaptative strategies: metal trapping in roots and metal transfer from permanent (roots) to temporary (leaves) organs. These mechanisms allow the seagrass to remove the excess of metals. These properties show the potential use of C. nodosa not only as bioindicator but also as an effective bioremediation tool.",

keywords = "Bioaccumulation, Cymodocea nodosa, Gulf of Gabes, Phosphogypsum, Trace metals",

author = "\{El Zrelli\}, \{Radhouan Belgacem\} and Lamia Yacoubi and Sylvie Castet and Michel Gr{\'e}goire and Lin, \{Yu Jia\} and Faouzi Attia and Korhan Ayranci and Baki, \{Zaher Abdel\} and Pierre Courjault-Rad{\'e} and Rabaoui, \{Lotfi Jilani\}",

note = "Publisher Copyright: {\textcopyright} 2023 Elsevier B.V.",

year = "2023",

month = dec,

day = "10",

doi = "10.1016/j.rsma.2023.103056",

language = "English",

volume = "65",

journal = "Regional Studies in Marine Science",

issn = "2352-4855",

publisher = "Elsevier B.V.",

}

El Zrelli, RB, Yacoubi, L, Castet, S, Grégoire, M, Lin, YJ, Attia, F, Ayranci, K, Baki, ZA, Courjault-Radé, P & Rabaoui, LJ 2023, 'Compartmentation of trace metals in Cymodocea nodosa from a heavily polluted area (Central Gulf of Gabes; Southern Mediterranean Sea): Potential use of the seagrass as environmental monitoring and bioremediation tool', Regional Studies in Marine Science, vol. 65, 103056. https://doi.org/10.1016/j.rsma.2023.103056

Compartmentation of trace metals in Cymodocea nodosa from a heavily polluted area (Central Gulf of Gabes; Southern Mediterranean Sea): Potential use of the seagrass as environmental monitoring and bioremediation tool. / El Zrelli, Radhouan Belgacem; Yacoubi, Lamia; Castet, Sylvie et al.
In: Regional Studies in Marine Science, Vol. 65, 103056, 10.12.2023.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Compartmentation of trace metals in Cymodocea nodosa from a heavily polluted area (Central Gulf of Gabes; Southern Mediterranean Sea)

T2 - Potential use of the seagrass as environmental monitoring and bioremediation tool

AU - El Zrelli, Radhouan Belgacem

AU - Yacoubi, Lamia

AU - Castet, Sylvie

AU - Grégoire, Michel

AU - Lin, Yu Jia

AU - Attia, Faouzi

AU - Ayranci, Korhan

AU - Baki, Zaher Abdel

AU - Courjault-Radé, Pierre

AU - Rabaoui, Lotfi Jilani

PY - 2023/12/10

Y1 - 2023/12/10

N2 - This study was conducted to better understand the adaptative strategies of Cymodocea nodosa occurring in the heavily polluted environment of central Gulf of Gabes (SE Tunisia). Cd, Cu, Pb and Zn concentrations were assessed in the seagrass roots, rhizomes, and leaves, and in the surrounding seawater and sediments. Sediments were found to be the main source of contaminants bioaccumulated in C. nodosa. Bioaccumulation patterns differed significantly with metals and plant organs. While Cd, Cu and Zn were found to accumulate in leaves, Pb concentrates mainly in roots. In the heavily polluted environment of the Gulf of Gabes, C. nodosa seems to have developed two different adaptative strategies: metal trapping in roots and metal transfer from permanent (roots) to temporary (leaves) organs. These mechanisms allow the seagrass to remove the excess of metals. These properties show the potential use of C. nodosa not only as bioindicator but also as an effective bioremediation tool.

AB - This study was conducted to better understand the adaptative strategies of Cymodocea nodosa occurring in the heavily polluted environment of central Gulf of Gabes (SE Tunisia). Cd, Cu, Pb and Zn concentrations were assessed in the seagrass roots, rhizomes, and leaves, and in the surrounding seawater and sediments. Sediments were found to be the main source of contaminants bioaccumulated in C. nodosa. Bioaccumulation patterns differed significantly with metals and plant organs. While Cd, Cu and Zn were found to accumulate in leaves, Pb concentrates mainly in roots. In the heavily polluted environment of the Gulf of Gabes, C. nodosa seems to have developed two different adaptative strategies: metal trapping in roots and metal transfer from permanent (roots) to temporary (leaves) organs. These mechanisms allow the seagrass to remove the excess of metals. These properties show the potential use of C. nodosa not only as bioindicator but also as an effective bioremediation tool.

KW - Bioaccumulation

KW - Cymodocea nodosa

KW - Gulf of Gabes

KW - Phosphogypsum

KW - Trace metals

UR - https://www.scopus.com/pages/publications/85166017345

U2 - 10.1016/j.rsma.2023.103056

DO - 10.1016/j.rsma.2023.103056

M3 - Article

AN - SCOPUS:85166017345

SN - 2352-4855

VL - 65

JO - Regional Studies in Marine Science

JF - Regional Studies in Marine Science

M1 - 103056

ER -

El Zrelli RB, Yacoubi L, Castet S, Grégoire M, Lin YJ, Attia F et al. Compartmentation of trace metals in Cymodocea nodosa from a heavily polluted area (Central Gulf of Gabes; Southern Mediterranean Sea): Potential use of the seagrass as environmental monitoring and bioremediation tool. Regional Studies in Marine Science. 2023 Dec 10;65:103056. doi: 10.1016/j.rsma.2023.103056