Citation: Sandrine Chifflet, Marc Tedetti, Hana Zouch, Rania Fourati, Hatem Zaghden, Boubaker Elleuch, Marianne Quéméneur, Fatma Karray, Sami Sayadi. Dynamics of trace metals in a shallow coastal ecosystem: insights from the Gulf of Gabès (southern Mediterranean Sea)[J]. AIMS Environmental Science, 2019, 6(4): 277-297. doi: 10.3934/environsci.2019.4.277
[1] | Cobelo-Garcia A, Prego R, Labandeira A (2004) Land inputs of trace metals, major elements, particulate organic carbon and suspended solids to an industrial coastal bay of the NE Atlantic. Water Res 38: 1753–1764. doi: 10.1016/j.watres.2003.12.038 |
[2] | Duarte B, Gilda S, Costa JL, et al. (2014) Heavy metal distribution and partitioning in the vicinity of discharge areas of Lisbon drainage basin (Tagus Estuary, Portugal) J Sea Res 93: 101–111. |
[3] | Oursel B, Garnier C, Pairaud I, et al. (2014) Behaviour and fate of urban particles in coastal waters: settling rate, size distribution and metals contamination characterization. Estuar Coast Shelf S 138: 14–26. doi: 10.1016/j.ecss.2013.12.002 |
[4] | Eggleton J, Thomas KV (2004) A review of factors affecting the release and bioavailability of contaminants during sediment disturbance events. Environ Int 30: 973–980. doi: 10.1016/j.envint.2004.03.001 |
[5] | Morillo J, Usero J, Gracia I (2007) Potential mobility of metals in polluted coastal sediments in two bays of Southern Spain. J Coastal Res 23: 352–61. |
[6] | Pérez-López R, Álvarez-Valero AM, Nieto JM, et al. (2008) Use of sequential extraction procedure for assessing the environmental impact at regional scale of the São Domingos Mine (Iberian Pyrite Belt) Appl Geochem 23: 3452–63. |
[7] | Ayata SD, Irisson JO. Aubert A, et al. (2018) Regionalisation of the Mediterranean basin, a MERMEX synthesis. Pr Oceanogr 163: 7–20. doi: 10.1016/j.pocean.2017.09.016 |
[8] | Bel Hassen M, Drira Z, Hamza A, et al. (2009) Phytoplankton dynamics related to water mass properties in the Gulf of Gabes: ecological implications. J Marine Sys 75: 216–226. doi: 10.1016/j.jmarsys.2008.09.004 |
[9] | Meddeb S (2014) GEF: Governance and knowledge Generation Socio-economic Evaluation of Maritime Activities. Plan Bleu Project ID :P118145, Borrower/Bid N°:FC006, 103p. |
[10] | Caçador I, Costa JL, Duarte B, et al. (2012) Macroinvertebrates and fishes as biomonitors of heavy metal concentration in the Seixal Bay (Tagus estuary): which species perform better? Ecol Indic 19: 184–190. doi: 10.1016/j.ecolind.2011.09.007 |
[11] | Gargouri D, Azri C, Serbaji MM, et al. (2011) Heavy metal concentrations in the surface marine sediments of Sfax Coast, Tunisia. Environ Monit Assess 175: 514–530. |
[12] | Ghannem N, Azri C, Serbaji MM, et al. (2011) Spatial distribution of heavy metals in the coastal zone of "Sfax-Kerkennah" plateau, Tunisia. Environ Progress Sustain Energy 30: 221–233. doi: 10.1002/ep.10462 |
[13] | Ghannem N, Gargouri D, Serbaji MM, et al. (2014) Metal contamination of surface sediments of the Sfax–Chebba coastal line, Tunisia. Environ Earth S 72: 3419–3427. doi: 10.1007/s12665-014-3248-z |
[14] | Ben Salem Z, Habib A (2016) Assessment of heavy metal contamination levels and toxicity in sediments and fishes from Mediterranean Sea (southern coast of Sfax, Tunisia) Environ Sci Pollut Res 23: 13954–13963. |
[15] | Sammari C, Koutitonsky VG, Moussa M (2006) Sea level variability and tidal resonance in the Gulf of Gabès, Tunisia. Cont Shelf Res 26: 338–350. doi: 10.1016/j.csr.2005.11.006 |
[16] | Hattour MJ, Sammari C, Ben Nassrallah S (2010) Hydrodynamics of the Gulf of Gabès deducted from the observations of currents and rivers levels. Revue Paralia 3: 13–24. |
[17] | Ben Mustapha KB, Komatsu T, Sammari Ch, et al. (2002) Tunisian megabenthos from infra (posidonia meadows) and circalittoral (coralligenous) sites. Bulletin de l'Institut National des Sciences et Technologies de la Mer de Salammbô 29: 24–36. |
[18] | Boudouresque CF, Bernard G, Pergent G, et al. (2009) Regression of Mediterranean seagrasses caused by natural processes and anthropogenic disturbances and stress: a critical review. Bot Mar 52: 395–418. |
[19] | D'Ortenzio F, Ribera d'Alcalà M (2009) On the trophic regimes of the Mediterranean Sea: a satellite analysis. Biogeosciences 6: 1–10. |
[20] | Feki-Sahnoun W, Hamza A, Mahfoudi M, et al. (2014) Long-term microphytoplankton variability patterns using multivariate analyses: ecological and management implications. Environ Sci Pollut Res 21: 1–19. doi: 10.1007/s11356-013-1996-z |
[21] | Fourati R, Tedetti M, Guigue C, et al. (2018) Sources and spatial distribution of dissolved aliphatic and polycyclic aromatic hydrocarbons in surface coastal waters from the Gulf of Gabès (Tunisia, southern Mediterranean Sea) Prog Oceanogr 163: 232–247. |
[22] | Chamtouri I, Abida H, Khanfir H, et al. (2008) Impact of at-site wastewater disposal systems on the groundwater aquifer in arid regions: case of Sfax city, Southern Tunisia. Environ Geol 55: 1123–1133. doi: 10.1007/s00254-007-1060-8 |
[23] | Dahri N, Atoui A, Abida H, 2014. Environmental impact assessment of a flood control channel in Sfax city, Tunisia. Int J Sci Engin 7: 23–29. |
[24] | Callaert B, Bogaert JVD. (2010) The Taparura project: sustainable coastal remediation and development at Sfax, Tunisia. Terra et Aqua 118: 1–7. |
[25] | Houda B, Dorra G, Chafai A, et al. (2011) Impact of a mixed "industrial and domestic" wastewater effluent on the southern coastal sediments of Sfax (Tunisia) in the Mediterranean Sea. Int J Env Res 5: 691–704. |
[26] | Naifar I, Pereira F, Zmemla R, et al. (2018) Spatial distribution and contamination assessment of heavy metals in marine sediments of the southern coast of Sfax, Gabes Gulf, Tunisia. Mar Pollut Bull 131: 53–62. doi: 10.1016/j.marpolbul.2018.03.048 |
[27] | Louati A, Elleuch B, Kallel A, et al. (2001) Hydrocarbon contamination of coastal sediments from the Sfax area (Tunisia), Mediterranean Sea. Mar Pollut Bull 42: 445–452. |
[28] | Quevauviller Ph (1998) Operationally defined extraction procedures for soil and sediment analysis: standardization. TrAC Trend Anal Chem 17: 289–298. doi: 10.1016/S0165-9936(97)00119-2 |
[29] | Rauret G, Lopez-Sanchez JF, Sahuquillo A, et al. (1999) Improvement of the BCR three step sequential extraction procedure prior to the certification of new sediment and soil reference materials. J Environ Monitor 1: 57–61. doi: 10.1039/a807854h |
[30] | Field MP, Cullen JT, Sherrell RM. (1999) Direct determination of 10 trace metals in 50 µL samples of coastal seawater using desolvating micronebulization sector field ICP-MS. J Anal Atom Spectrom 14: 1425–1431. doi: 10.1039/A901693G |
[31] | Chester R, Stoner JH. (1973) Pb in particulates from the lower atmosphere of the Eastern Atlantic. Nature 245: 27–28. |
[32] | Duce RA, Hoffman GL, ZoUer WH (1975) Atmospheric trace metals at remote Northern and Southern hemisphere sites: pollution or natural. Science 187: 59–61. doi: 10.1126/science.187.4171.59 |
[33] | Alves-Martins MV, Laut L, Dumeba W, et al. (2017) Sediment quality and possible uses of dredged materials: the ria de Aveiro lagoon mouth area (Portugal) J Sediment Environ 2: 149–166. |
[34] | Müller G. (1969) Index of geoaccumulation in sediments of the Rhine river. Geol J 2: 108–118. |
[35] | Tomlinson D, Wilson J, Harris C, et al. (1980) Problem in Heavy Metals in Estuaries and the Formation of Pollution Index. Helgoländer Meeresunltersuchung 33: 566–575. |
[36] | Reimann C, de Caritat P (1998) Chemical elements in environment. Springer-Verlag, Berlin, 398p. |
[37] | Reimann C, de Caritat P (2000) Intrinsic flaws of element enrichment factors (EFs) in environmental geochemistry. Envir Sci Tech 34: 5084–5091. doi: 10.1021/es001339o |
[38] | Ergin M, Saydam C, Bastürk Ö, et al. (1991) Heavy metal concentrations in surface sediments from the two coastal inlets (Golden Horn Estuary and Izmit Bay) of the northeastern sea of Marmara. Chem Geol 91: 269–285. doi: 10.1016/0009-2541(91)90004-B |
[39] | Schiff KC, Weisberg SB (1999) Iron as a reference element for determining trace metal enrichment in Southern California coast shelf sediments. Mar Environ Res 48: 161–176. doi: 10.1016/S0141-1136(99)00033-1 |
[40] | Karageorgis AP, Katsanevakis S, Kaberi H (2009) Use of enrichment factor for the assessment of Koumoundourou lake, Greece. Water Air Soil Pollut 204: 243–258. doi: 10.1007/s11270-009-0041-9 |
[41] | Sekabira K, Oryem Origa H, Basamba T, et al. (2010) Assessment of heavy metal pollution in urban stream sediments and its tributaries. Inter J Environ Sci Tech 7: 435–446. doi: 10.1007/BF03326153 |
[42] | Shaw PJA (2003) Multivariate statistic for environmental sciences. Arnold, London, 233. |
[43] | Schaule BK, Patterson CC (1983) Perturbation of the natural lead depth profile in the Sargasso Sea by industrial lead. In: Wong C.S, Boyle E, Bruland K.W. (Eds.), Trace Metals in Sea Water Plenum Press, New York, 497–504. |
[44] | Duce RA, Liss PS, Merill JT, et al. (1991) The atmospheric input of trace species to the world ocean. Global Biogeochem Cy 5: 193–259. doi: 10.1029/91GB01778 |
[45] | D'Amore JJ, Al-Abed RS, Scheckel KG, et al. (2005) Methods for speciation of metals in soils: a review. J Environ Qual 34: 1707–1745. doi: 10.2134/jeq2004.0014 |
[46] | Bacon JR, Davidson CM (2008) Is there a future for sequential chemical extraction? The analyst 133: 25–46. doi: 10.1039/B711896A |
[47] | Tessier A, Campbell PGC, Bisson M (1979) Sequential extraction procedures for the speciation of particulate trace metals. Anall Chem 51: 844–851. doi: 10.1021/ac50043a017 |
[48] | Bryan GW, Langstone WJ (1992) Bioavailability, accumulation and effects of heavy metals in sediments with special reference to United Kingdom estuaries: a review. Environ Pollut 76: 89–131. doi: 10.1016/0269-7491(92)90099-V |
[49] | Forstner U, Ahlf W, Calmano W (1989) Studies on the transfer of heavy metals between sedimentary phases with a multi-chamber device: combined effects of salinity and redox potential. Mar Chem 28:145–58 doi: 10.1016/0304-4203(89)90192-8 |
[50] | Calmano W, Hong J, Forstner U (1993) Binding and mobilisation of heavy metals in contaminated sediments affected by pH and redox potential. Water Sci Techno 28: 8–9, 223–235 |
[51] | Zhuang Y, Allen HE, Fu G (1994) Effect of aeration of sediment on cadmium binding. Environ Toxicol Chem 13: 717–724. doi: 10.1002/etc.5620130505 |
[52] | Ramos L, Hernandez M, Gonzalez MJ (1984) Sequential fractionation of copper, lead, cadmium and zinc in soils from or near Doñana National Park. J Environ Qual 23: 50–57. |
[53] | Lopez-Sanchez JF, Rubio R, Samitier C, et al. (1996) Trace metal partitioning in marine sediments and sludges deposited off the coast of Barcelona (Spain) Water Res 30: 153–159. |
[54] | Delgado J, Barba-Brioso C, Nieto JM, et al. (2011) Speciation and ecological risk of toxic elements in estuarine sediments affected by multiple anthropogenic contributions (Guadiana saltmarshes, SW Iberian Peninsula): I. Surficial sediments. Sci Total Environ 409: 3666–3679. doi: 10.1016/j.scitotenv.2011.06.013 |
[55] | Fernandez-Leborans G, Novillo A (1994) Experimental approach to cadmium effects on a marine protozoan community. Clean Soil Air Water 22: 19–27. |
[56] | Fernandez-Leborans G, Olalla, Y. (1999) Toxicity and bioaccumulation of cadmium in marine protozoa communities. Ecotox Environ Safe 43: 292–300. doi: 10.1006/eesa.1999.1793 |
[57] | Hamzeh M, Ouddane B, Daye M, et al. (2014) Trace metal mobilization from surficial sediments of the Seine river estuary. Water air soil pollut 225: 1878–1893. doi: 10.1007/s11270-014-1878-0 |
[58] | Massolo S, Bignasca A, Sarkar SK, et al. (2012) Geochemical fractionation of trace elements in sediments of Hugli River (Ganges) and Sundarban wetland (West Bengal, India) Environ Monitor Assess 1984: 7561–7577. |
[59] | Bruemer GW, Gerth J, Tiller KG (1988) Reaction kinetics of the adsorption and desorption of nickel, zinc and cadmium by goethite. I. Adsorption and diffusion of metals. J Soil Sci 39: 37–52. |
[60] | Gerringa L (1990) Aerobic degradation of organic matter and the mobility of Cu, Cd, Ni, Pb, Zn, Fe and Mn in marine sediment slurries. Marine Chem 29: 355–374. doi: 10.1016/0304-4203(90)90023-6 |
[61] | Waeles M, Tanguy V, Lespes G, et al. (2008) Behaviour of colloidal trace metals (Cu, Pb and Cd) in estuarine waters: an approach using frontal ultrafiltrtaion (UF) and stripping chronopotentiometric methods (SCP) Estuar Coast Shelf Sci 80: 538–544. |
[62] | Grousset FE, Quetel CR, Thomas B, et al. (1995) Anthropogenic vs. lithogenic origins of trace elements (As, Cd, Pb, Rb, Sb, Sc, Sn, Zn) in water column particles: northwestern Mediterranean Sea. Mar Chem 48: 291–310. |
[63] | Dong D, Nelson YM, Lion LW, et al. (2000) Adsorption of Pb and Cd onto metal oxides and organic material in natural surface coatings as determined by selective extractions: new evidence for the importance of Mn and Fe oxides. Water Res 34: 427–36. doi: 10.1016/S0043-1354(99)00185-2 |
[64] | Shul'kin VM, Bogdanova NN (1998) Mobilization of zinc, copper, cadmium and lead in aerated seawater from a suspension of bottom sediments. Mar Chem 38: 620–627. |
[65] | Banerjee ADK (2003) Heavy metal and solid phase speciation in street dusts of Delhi, India. Environ Pollut 123: 95–105. doi: 10.1016/S0269-7491(02)00337-8 |
[66] | Crane M, Kwok KWH, Wells C, et al. (2007) Use of field data to support European Water Framework Directive Quality Standards for dissolved metals. Environ S Technol 41: 5014–5021. doi: 10.1021/es0629460 |
[67] | EC (2011) Technical report on common implementation strategy for the Water Framework Directive (2000/60/EC) Technical guidance for deriving Environmental Quality Standards, Guidance document n°27, European Community, 204. |
[68] | OSPAR (2005) Analysis of synergies in assessment and monitoring of hazardous substances, eutrophication, radioactive substances and offshore industry in the North-East Atlantic. Ass Monitor Series, vol. I, n°2005/230, 67. |
[69] | Papanicolaou F, Antaniou S, Pashalidis I (2009) Experimental and theoretical studies on physic-chemical parameters affecting the solubility of phosphogypsum. J Environ Radioactiv 100: 854–857. doi: 10.1016/j.jenvrad.2009.06.012 |
[70] | Kuryatnyk T, Angulski da Luz C, Pera JA (2008) Valorization of phosphogypsum as hydraulic binder. J Hazard Mater 160: 681–687. doi: 10.1016/j.jhazmat.2008.03.014 |
[71] | Tayibi H, Choura M, López FA, et al. (2009) Environmental impact and management of phosphogypsum. J Environ Manage 90: 2377–2386. doi: 10.1016/j.jenvman.2009.03.007 |
[72] | Hentati O, Abrantes N, Caetano AL, et al. (2015) Phosphogypsum as a soil fertilizer: ecotoxicity of amended soil and elutriates to bacteria, invertebrates, algae and plants. J Hazard Mater 294: 80–89. doi: 10.1016/j.jhazmat.2015.03.034 |
[73] | Masson M, Blanc G, Schafer J (2006) Geochemical signals and source contributions to heavy metal (Cd, Zn, Pb, Cu) fluxes into the Gironde Estuary via its major tributaries. Sci Total Environ 370: 133–146. doi: 10.1016/j.scitotenv.2006.06.011 |