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Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
RESEARCH ARTICLE

Combining chemical and biological parameters to assess the ecological quality of a coastal ecosystem in the Levantine Basin

Myriam Ghsoub A B , Milad Fakhri https://orcid.org/0000-0003-4327-2674 A C , Thierry Courp B , Myriam Lteif A , Gaby Khalaf A and Wolfgang Ludwig B
+ Author Affiliations
- Author Affiliations

A Lebanese National Council for Scientific Research – National Centre for Marine Sciences CNRS-L/CNSM, Jounieh, Lebanon. Email: bihar@cnrs.edu.lb

B Université de Perpignan Via Domitia, Centre de Formation et de Recherche sur les Environnements Méditerranéens, UMR 5110, 52 Avenue Paul Alduy, F-66860, Perpignan, France. Email: cefrem@univ-perp.fr

C Corresponding author. Email: milosman@cnrs.edu.lb

Marine and Freshwater Research 73(3) 398-410 https://doi.org/10.1071/MF21222
Submitted: 29 July 2021  Accepted: 6 November 2021   Published: 7 December 2021

Abstract

For a better evaluation of the ecological status of aquatic ecosystems, especially at the land–sea interface, a multidisciplinary holistic approach is crucial and various indices should be taken into account. The combined use of chemical and biological indices may be an efficient way to determine ecological status in highly dynamic coastal ecosystems. Therefore, the present study analysed grain size composition, organic carbon (OC), major and trace elements and macroinvertebrate communities in surface sediment samples collected from the coastal marine area facing the Ibrahim River. The stations studied were slightly contaminated by trace elements with no effect on biota. Based on the chemical indices and the polychaetes : amphipods ratio, the ecological status of the stations studied was considered good.

Keywords: coastal zones; estuaries, Levantine basin, macroinvertebrates, sediments, trace elements.


References

Abboud-Abi Saab, M. (1985). Contribution à l‘étude Des Populations Microplanctoniques Des Eaux Côtières Libanaises (Méditerranée Orientale). Ph.D. Thesis, Université d’Aix-Marseille II, Marseille, France.

Abboud-Abi Saab, M., Fakhri, M., Sadek, E., and Matar, N. (2008). An estimate of the environmental status of Lebanese littoral waters using nutrients and chlorophyll-a as indicators. Lebanese Science Journal 9, 43–60.

Abi Ghanem, C. (2008). ‘Speciation’ of three trace elements mercury, lead, cadmium in sediments of the Lebanese coastal zones. NNT: 2008AGPT0088ff. ffpastel-00005015f. (AgroParisTech.) Available at https://pastel.archives-ouvertes.fr/pastel-00005015/document

Abi-Ghanem, C., Khalaf, G., and Najjar, E. (2014). distribution of lead, cadmium, and vanadium in lebanese coastal sediments and mussels. Journal of Coastal Research 30, 1074–1080.
distribution of lead, cadmium, and vanadium in lebanese coastal sediments and mussels.Crossref | GoogleScholarGoogle Scholar |

Abi-Ghanem, C., Mahfouz, C., Khalaf, G., Najjar, E., El-Zakhem, H., and Manneh, R. (2016). Pb, Cd and Cu distribution and mobility in marine sediments from two ports in Lebanon: Beirut army naval port and Tripoli fishing port. Lebanese Science Journal 17, 57–73.
Pb, Cd and Cu distribution and mobility in marine sediments from two ports in Lebanon: Beirut army naval port and Tripoli fishing port.Crossref | GoogleScholarGoogle Scholar |

Aguilar, R., García, S., Perry, A. L., Alvarez, H., Blanco, J., and Bitar, G. (2018). 2016 Deep-Sea Lebanon Expedition: exploring submarine canyons. (OCEANA: Madrid, Spain.)

Andrade, H., and Renaud, P. E. (2011). Polychaete/amphipod ratio as an indicator of environmental impact related to offshore oil and gas production along the Norwegian continental shelf. Marine Pollution Bulletin 62, 2836–2844.
Polychaete/amphipod ratio as an indicator of environmental impact related to offshore oil and gas production along the Norwegian continental shelf.Crossref | GoogleScholarGoogle Scholar | 22000480PubMed |

Assaker, A. (2016). Hydrologie et Biogéochimie Du Bassin Versant Du Fleuve Ibrahim: Un Observatoire Du Fonctionnement de La Zone Critique Au Liban. Institut National Polytechnique de Toulouse, Toulouse, France.

Badreddine, A. (2018). Coastal ecosystems of the Lebanese coast: ecological status, conservation, evolution. Ph.D. Thesis, Université Côte d’Azur, Nice, France.

Baiyegunhi, C., Liu, K., and Gwavava, O. (2017). Grain size statistics and depositional pattern of the Ecca Group sandstones, Karoo Supergroup in the Eastern Cape Province, South Africa. Open Geosciences 9, 554–576.
Grain size statistics and depositional pattern of the Ecca Group sandstones, Karoo Supergroup in the Eastern Cape Province, South Africa.Crossref | GoogleScholarGoogle Scholar |

Bastami, K. D., Neyestani, M. R., Shemirani, F., Soltani, F., Haghparast, S., and Akbari, A. (2015). Heavy metal pollution assessment in relation to sediment properties in the coastal sediments of the southern Caspian Sea. Marine Pollution Bulletin 92, 237–243.
Heavy metal pollution assessment in relation to sediment properties in the coastal sediments of the southern Caspian Sea.Crossref | GoogleScholarGoogle Scholar | 25583242PubMed |

Blott, S. J., and Pye, K. (2001). Gradistat: a grain size distribution and statistics package for the analysis of unconsolidated sediments. Earth Surface Processes and Landforms 26, 1237–1248.
Gradistat: a grain size distribution and statistics package for the analysis of unconsolidated sediments.Crossref | GoogleScholarGoogle Scholar |

Centre d’Expertise en Analyse Environnementale du Québec (2014). Détermination du carbone organique total dans les solides: dosage par titrage, MA. 405 – C 1.1, Rév. 2. (Ministère du Développement durable, de l’Environnement et de la Lutte contre les changements climatiques: Quebec, QC, Canada.) Available at https://www.ceaeq.gouv.qc.ca/methodes/pdf/MA405C11.pdf

Cheriyan, E., Sreekanth, A., Mrudulrag, S. K., and Sujatha, C. H. (2015). Evaluation of metal enrichment and trophic status on the basis of biogeochemical analysis of shelf sediments of the southeastern Arabian Sea, India. Continental Shelf Research 108, 1–11.
Evaluation of metal enrichment and trophic status on the basis of biogeochemical analysis of shelf sediments of the southeastern Arabian Sea, India.Crossref | GoogleScholarGoogle Scholar |

Dauvin, J. C., Andrade, H., De-La-Ossa-Carretero, J. A., Del-Pilar-Ruso, Y., and Riera, R. (2016). Polychaete/amphipod ratios: an approach to validating simple benthic indicators. Ecological Indicators 63, 89–99.
Polychaete/amphipod ratios: an approach to validating simple benthic indicators.Crossref | GoogleScholarGoogle Scholar |

De Falco, G., Magni, P., Teräsvuori, L. M. H., and Matteucci, G. (2004). Sediment grain size and organic carbon distribution in the Cabras Lagoon (Sardinia, Western Mediterranean). Chemistry and Ecology 20, 367–377.
Sediment grain size and organic carbon distribution in the Cabras Lagoon (Sardinia, Western Mediterranean).Crossref | GoogleScholarGoogle Scholar |

Dumas, C. (2014). Impact of extreme events on particulate trace metal transfer from the continent to the deep sea. Ph.D. Thesis, Université de Perpignan-Via Domitia, Perpignan, France.

Emery, K. O., Heezen, B. C., and Allan, T. O. (1966). Bathymetry of the Eastern Mediterranean sea. Deep-Sea Research 13, 173–192.

Fitzpatrick, A., Fox, J., and Leung, K. (2001). Environmental Baseline Survey of the Nahr Ibrahim, Lebanon, (Massachusetts Institute of Technology, Cambridge, MA, USA.)

Foti, A., Fenzi, G. A., Di Pippo, F., Gravina, M. F., and Magni, P. (2014). Testing the saprobity hypothesis in a Mediterranean lagoon: effects of confinement and organic enrichment on benthic communities. Marine Environmental Research 99, 85–94.
Testing the saprobity hypothesis in a Mediterranean lagoon: effects of confinement and organic enrichment on benthic communities.Crossref | GoogleScholarGoogle Scholar | 24838081PubMed |

Gao, X., Zhou, F., Chen, C. T. A., and Xing, Q. (2015). Trace metals in the suspended particulate matter of the Yellow River (Huanghe) Estuary: concentrations, potential mobility, contamination assessment and the fluxes into the Bohai Sea. Continental Shelf Research 104, 25–36.
Trace metals in the suspended particulate matter of the Yellow River (Huanghe) Estuary: concentrations, potential mobility, contamination assessment and the fluxes into the Bohai Sea.Crossref | GoogleScholarGoogle Scholar |

Ghsoub, M., Fakhri, M., Courp, T., Khalaf, G., Buscail, R., and Ludwig, W. (2020). River signature over coastal area (Eastern Mediterranean): grain size and geochemical analyses of sediments. Regional Studies in Marine Science 35, 101169.
River signature over coastal area (Eastern Mediterranean): grain size and geochemical analyses of sediments.Crossref | GoogleScholarGoogle Scholar |

Goedicke, T. R. (1973). Distribution of surface currents and drift along the central continental shelf of Lebanon as related to pollution, Report CNRS, Beirut, Lebanon.

Grall, J., and Coic, N. (2006). Synthèse des méthodes d’évaluation de la qualité du benthos en milieu côtier. Ifremer DYNECO/VIGIES/06–13/REBENT, Bretagne, France.

Hakanson, L. (1980). An ecological risk index for aquatic pollution control. A sedimentological approach. Water Research 14, 975–1001.
An ecological risk index for aquatic pollution control. A sedimentological approach.Crossref | GoogleScholarGoogle Scholar |

Hanif, N., Eqani, S., Ali, S., Cincinelli, A., Ali, N., Katsoyiannis, I., Tanveer, Z., and Bokhari, H. (2016). Geo-accumulation and enrichment of trace metals in sediments and their associated risks in the Chenab River, Pakistan. Journal of Geochemical Exploration 165, 62–70.
Geo-accumulation and enrichment of trace metals in sediments and their associated risks in the Chenab River, Pakistan.Crossref | GoogleScholarGoogle Scholar |

Hyland, J., Balthis, L., Karakassis, I., Magni, P., Petrov, A., Shine, J., Vestergaard, O., and Warwick, R. (2005). Organic carbon of sediments as an indicator of stress in the marine benthos. Marine Ecology Progress Series 295, 91–103.
Organic carbon of sediments as an indicator of stress in the marine benthos.Crossref | GoogleScholarGoogle Scholar |

Long, E. R., Macdonald, D. D., Smith, S. L., and Calder, F. D. (1995). Incidence of adverse biological effects within ranges of chemical concentrations in marine and estuarine sediments. Environmental Management 19, 81–97.
Incidence of adverse biological effects within ranges of chemical concentrations in marine and estuarine sediments.Crossref | GoogleScholarGoogle Scholar |

Magni, P., De Falco, G., Como, S., Casu, D., Floris, A., Petrov, A. N., Castelli, A., and Perilli, A. (2008). Distribution and ecological relevance of fine sediments in organic-enriched lagoons: the case study of the Cabras Lagoon (Sardinia, Italy). Marine Pollution Bulletin 56, 549–564.
Distribution and ecological relevance of fine sediments in organic-enriched lagoons: the case study of the Cabras Lagoon (Sardinia, Italy).Crossref | GoogleScholarGoogle Scholar | 18234238PubMed |

Magni, P., Tagliapietra, D., Lardicci, C., Balthis, L., Castelli, A., Como, S., Frangipane, G., Giordani, G., Hyland, J., Maltagliati, F., Pessa, G., Rismondo, A., Tataranni, M., Tomassetti, P., and Viaroli, P. (2009). Animal-sediment relationships: evaluating the ‘Pearson–Rosenberg paradigm’ in Mediterranean coastal lagoons. Marine Pollution Bulletin 58, 478–486.
Animal-sediment relationships: evaluating the ‘Pearson–Rosenberg paradigm’ in Mediterranean coastal lagoons.Crossref | GoogleScholarGoogle Scholar | 19162282PubMed |

Martinez-Haro, M., Beiras, R., Bellas, J., Capela, R., Coelho, J., Lopes, I., Moreira-Santos, M., Reis-Henriques, A., Ribeiro, R., Santos, M., and Marques, J. (2015). A review on the ecological quality status assessment in aquatic systems using community based indicators and ecotoxicological tools: what might be the added value of their combination? Ecological Indicators 48, 8–16.
A review on the ecological quality status assessment in aquatic systems using community based indicators and ecotoxicological tools: what might be the added value of their combination?Crossref | GoogleScholarGoogle Scholar |

Nassif, N. (2006). Pollution Chimique de La Côte Libanaise: Essai de Modélisation et Approche Réglementaire, INAPG, France.

Prabakaran, K., Nagarajan, R., Eswaramoorthi, S., Anandkumar, A., and Franco, F. M. (2019). Environmental significance and geochemical speciation of trace elements in Lower Baram River sediments. Chemosphere 219, 933–953.
Environmental significance and geochemical speciation of trace elements in Lower Baram River sediments.Crossref | GoogleScholarGoogle Scholar | 30572242PubMed |

Sahli, L., El Hadef El Okki, M., Afri-Mehennaoui, F.-Z., and Mehennaoui, S. (2014). Utilisation d’indices pour l’évaluation de la qualité des sédiments: Cas du bassin Boumerzoug (Algérie). European Scientific Journal 10, 336–346.

Sanlaville, P. (1977). Étude Géomorphologique de La Région Du Littoral Du Liban. (Université libanaise: Beirut, Lebanon.)

Sutherland, R. A., Tolosa, C. A., Tack, F. M. G., and Verloo, M. G. (2000). Characterization of selected element concentrations and enrichment ratios in background and anthropogenically impacted roadside areas. Archives of Environmental Contamination and Toxicology 38, 428–438.
Characterization of selected element concentrations and enrichment ratios in background and anthropogenically impacted roadside areas.Crossref | GoogleScholarGoogle Scholar | 10787093PubMed |

Tagliapietra, D., and Sigovini, M. (2010). Benthic fauna: collection and identification of macrobenthic invertebrates. NEAR Curriculum in Natural Environmental Sciences, Terre et Environnement 88, 253–261.

Tait, R. V. (1981). ‘Elements of Marine Ecology: An Introductory Course’, 3rd edn. (Butterworths: London, UK.)

United Nations Development Program Lebanon (2011). ‘State and Trends of the Lebanese Environment’, 3rd edn. (MOE/UNDP/ECODIT.) Available at https://www.lb.undp.org/content/dam/lebanon/docs/Energy%20and%20Environment/Publications/SOER_en.pdf

Wedepohl, K. H. (1995). The composition of the continental crust. Geochimica et Cosmochimica Acta 59, 1217–1232.
The composition of the continental crust.Crossref | GoogleScholarGoogle Scholar |

Zhong, Y., Chen, Z., Li, L., Liu, J., Li, G., Zheng, X., Wang, S., and Mo, A. (2017). Bottom water hydrodynamic provinces and transport patterns of the northern South China Sea: evidence from grain size of the terrigenous sediments. Continental Shelf Research 140, 11–26.
Bottom water hydrodynamic provinces and transport patterns of the northern South China Sea: evidence from grain size of the terrigenous sediments.Crossref | GoogleScholarGoogle Scholar |