Abstract
This study had a purpose to validate different tools based on the oligochaetes for the evaluation of the biological quality of sediments within a surveillance network. Biological data (IOBS index, percentage of Tubificidae with and without hair setae, worm densities), physical data (granulometrics) and chemical data (Cd, Cu, Cr, Hg, Ni, Pb, Zn, PCBs, PAHs) have been studied with co-inertia analysis. These analyses show an opposition between IOBS index and metals, a correlation between metals and percentage of Tubificidae without hair setae, and an association between PAHs, low index values, high densities and high percentage of Tubificidae with hair setae. For 24 sites, biological and chemical data gave similar information. In 11 cases on 36 they are conflicting. The use of metal speciations, according to the method of Teissier et al. (1979), show that the organic matter content seems to have an important role by sorbing metals leading to lower availability. Macrophyte cover could also explain some conflicting results. Granulometrics does not play a determinating role in the present case. As a conclusion, a table allowing the classification of river sediments is proposed for monitoring assessment. This table takes into account LOBS index values, the worm densities and the percentage of Tubificidae without hair setae.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Agence de l’Eau Artois-Picardie, 1996. Qualité des eaux de surface, schéma directeur. Document Agence de l’Eau Artois-Picardie, Douai.
Behrends, L. L., E. Bailey, M. J. Bulls, H. S. Coonrod, F. J. Sikora, 1994. Seasonal trends in growth and biomass accumulation of selected nutrients and metals in six species of emergent aquatic macrophytes. Proc. 4th Int. Conf. on wetlands systems for water pollution control, Guangzhu, Pop. Rep. China, 6–10th November 1994: 274–289.
Belzunce-Segarra, M. J., J. R. Bacon, R. Prego, M. J. Wilson, 1997. Chemical forms of heavy metals in the surface sediments of the San Simon inlet, Ria de Vigo, Galicia. J. Envir. Sci. Health A32: 1271–1292.
Bervoets, L., R. Blust, M. de Wit, R. Verheyen, 1997. Relationships between river sediment characteristics and trace metal concentrations in Tubificid worms and Chironomid larvae. Envir. Pollut. 95: 345–356.
Brouwer, H., T. Murphy, L. McArdle, 1990. A sediment contact bioassay Photohacterium phosphoreum. Envir. Chem. Toxicol. 9: 1353–1358.
Calmano, W., J. Hong, U. Förstner, 1993. Binding and mobilization of heavy metals in contaminated sediments affected by pH and redox potential. Wat. Sci. Technol. 28: 223–235.
Campbell, P. G. C., 1995. Interactions between trace metals and aquatic organisms: a critique of the free-ion. Activity model. In A. Tessier, D. R. Turner (eds), Metal Speciation and Bioavailability in Aquatic Systems. J. Wiley, Sons Ltd Publishers: 45–102.
Campbell, P. G. C., M. Stokes, 1985. Acidification and toxicity of metals to aquatic biota. Can. J. Fish. aquat. Sci. 42: 2034–2049.
Chapman. P. M., 1986. Sediment quality criteria from the sediment quality triad: an example. Envir. Toxicol. Chem. 5: 957–964. Chapman, P. M.. 1989. Current approaches to developing sediment quality criteria. Envir. Toxicol. Chem. 8: 589–599.
Chapman, P. M., 1990. The sediment quality triad approach to determining pollution-induced degradation. The Science of the Total Environment, 97 /98: 815–825.
Chessel, D., S. Dolédec, 1993. Programmathèque ADE. Analyses multivariées et expression graphique des données environnementales. Version 3.6, Fascicules 1 à 8.
Chessel, D., P. Mercier. 1993. Couplage de triplets statistiques et liaisons espèces-environnement. In J. D. Lebreton, B. Asselain (eds), Biométrie et Environnement. Masson: 350 pp.
Coquery, M., P. M. Welhourn, 1995. The relationship between metal concentration and organic matter in the sediments and metal concentration in the aquatic macrophyte Eriocaulon.reptangulare. Wat. Rcs. 29: 2094–2102.
Dickman, M., G. Rygiel, 1996. Chironomids larval deformity frequencies, mortality and diversity in heavy metal contaminated sediments of a Canadian riverine wetland Envir. Int. 22: 693–703.
Dolédec, S., D. Chessel, 1994. Co-inertia analysis: an alternative method for studying species environment relationships. Freshwat. Biol. 31: 277–294.
Duzzin, B., B. Pavoni, R. Donazzolo, 1988. Macroinvertebrate communities and sediments as pollution indicators for heavy metals in the river Adige (Italy). Wat. Res. 22: 1353–1363.
E. C., 1997. European Council directive proposition establishing a framework for EEC action in the field of water quality. EC document: 73 pp.
Fernandes, H. M., 1997. Heavy metals distribution in sediments and ecological risks assessment: the role of diagenetic processes in reducing metal toxicity in bottom sediments. Envir. Pollut. 97: 317–325.
Gouws, K., P. P. Coetzee, 1997. Determination and partitioning of heavy metals in sediments of the Vaal Dam System by sequential extraction. Water SA 23: 217–226.
Gunn, A. M., D. T. E. Hunt, D. A. Winnard, 1989. The effect of heavy metal speciation in sediment on bioavailability to tubificid worms. Hydrobiologia 188 /189: 487–496.
Hammer, D. A., R. K. Bastian, 1989. Wetland ecosystems: natural purifiers ? In D. A. Hammer (ed.), Constructed Wetland for Waste Water Treatment. Lewis publishers, Chelsea (U.S.A.): 5–19.
Honeycutt, M. E., B. L. Roberts, D. S. Roane, 1995. Cadmium disposition in the earthworm Eisenia fetida. Ecotox Envir. Safety 30: 143–150.
Hopkin, S. P., 1989. Ecophysiology of metals in terrestrial invertebrates. Elsevier Applied Sciences, New-York.
Huebert, D. B., J. M. Shay, 1992. Zinc toxicity and its interne-non with cadmium in the submerged aquatic macrophyte Lenuia trisulca L. Envir. Toxicol. Chem. 11: 715–720.
Johansson, K., A. Andersson, T. Andersson, 1995. Regional accumulation pattern of heavy metals in lake sediments and forest soils in Sweden. The Science of the Total environment 160 /161: 373–380.
Klerks, P. L., J. S. Levinton, 1989. Rapid evolution in metal resistance in a benthic oligochaete inhabiting a metal contaminated site. Biol. Bull. 176: 135–141.
Klerks, P. L., P. R. Bartholomew, 1991. Cadmium accumulation and detoxification in a Cd-resistant population of the oligochaete Litnnodrilus hoffineisteri. Aquat. Toxicol. 19: 97–112.
Lafont, M., 1989. Contribution à la gestion des eaux continentales: utilisation des oligochètes comme descripteurs de l’état biologique et du degré de pollution des eaux et des sédiments. Thèse de Doctoratès Sciences, Université Lyon I: 311 pp.
Lafont, M., J. C. Camus, A. Rosso, 1996a. Superficial and hyporheic oligochaete communities as indicators of pollution and water exchange in river Moselle, France. Hydrobiologia 334: 147–155.
Lafont, M., J. Mouthon, A. Rosso-Darmet, 19966. Etude des mollusques et des oligochètes dans les sédiments de cours d’eau du bassin du Rhône. Rapport Cemagref Lyon/Agence de l’Eau RMC: 26 pp.
Le Du, A., D. Dive, A. Philippo, 1990. Intercation between components of electroplating industry wastes. Influence of the receiving water on the toxicity of the affluent. Envir. Pollut. 65: 251–267.
Lim, P-E., M-Y Kiu, 1995. Determination and speciation of heavy metals in sediments of the Juru River, Penang, Malaysia. Envir. Monit. Assess. 35: 85–95.
Literathy, P., F. Laszlo, B. Csanyi, 1994. Approaches for sediment associated pollutant monitoring in the river Danube. Wat. Sci. Technol. 30: 157–165.
Lucan-Bouché, M. L., S. Biagianti-Risbourg, F. Arsac, G. Vernet, 1998. Sur un mécanisme original de décontamination développé par l’oligochète Tubifex tubifex. 101° journées annuelles de la Société Zoologique de France, 29–30 juin et I° juillet 1998, Université des Sciences et Technologies de Lille.
Morgan, J. E., A. J. Morgan, 1989. The effect of lead incorporation on the elemental composition of earthworm ( Annelida, Oligocheta) chloragosome granules. Histochemistry 55: 237241.
Petersen R. C., L. B. M. Petersen, 1988. Compensatory mortality in aquatic populations: its importance for interpretation of toxicant effects. Ambio 17: 381–386.
Prygiel, J., 1996. Utilisation de bioindicateurs pour l’estimation de la qualité des milieux aquatiques marins et continentaux du bassin Artois-Picardie. Mémoire HDR, Université de Lille: vol. 1: 117 pp. + annexes; vol. 2: publications.
Prygiel, J., M. Coste, 1993. The assessment of water quality in the Artois-Picardie water basin (France) by the use of diatom indices. Hydrobiologia 269 /270: 343–349.
Reynoldson, T. B., S. P. Thompson, J. L. Bamsey, 1991. A sediment bioassay using the tubificid oligochaete worm Tubifex. Envir. Toxicol. Chem. 10: 1061–1072.
Rofes, G., M. Savary, 1981. Description d’un nouveau modèle de carottier pour sédiments fins. Bull. fr. Piscic. 283: 102–113.
Rosso, A., 1995. Description de l’impact des micropolluants sur les peuplements d’oligochètes des sédiments de cours d’eau du bassin-versant de l’Ill (Alsace). Elaboration d’une méthode biologique de diagnostic de l’incidence des micropolluants. Thèse de Doctorat, Université Lyon I: 232 pp.
Rosso, A., M. Lafont, E. Exinger, 1994. Impact of heavy metals on benthic oligochaete communities in the River Ill and its tributaries. Wat. Sci. Technol. 29: 241–248.
Rosso-Darmet, A., M. Lafont., 1996. Ambiance écotoxicologique des sédiments: exemples concrets dans le bassin de l’Ill (Alsace); essai de conceptualisation. In Altérations Physico-Chimiques et Biologiques des Écosystèmes Aquatiques. Cemagref, Département Gestion des Milieux Aquatiques, Paris, 26–27 novembre 1996: 167–175.
Rosso-Darmet, A., M. Lafont, A. Durbec, 1997a. Synthèse bibliographique sur l’intérêt des oligochètes comme indicateurs de la qualité du milieu et de la contamination métallique et micro-organique. Acquisition des données biologiques et résultats des inventaires d’oligochètes. Rapport BURGEAP/Cemagref Lyon/AE Artois-Picardie: 14 pp.
Rosso-Darmet A., M. Lafont, J. Mouthon, 1997b. Utilisation des peuplements d’oligochètes et de mollusques comme descripteurs du degré de pollution des sédiments. Rapport Cemagref Lyon/AE Adour-Garonne: 34 p + annexe.
Santiago, S., R. L. Thomas, G. Larbaigt, C. Corvi, D. Rossel, J. Tarradellas, D. J. Gregor, L. Mccarthy, J. P. Vernet, 1994. Nutrient, heavy metals and organic pollutant composition of suspended and bed sediment in the Rhône River. Aquat. Sci. 56: 220–242.
Seaward, M. R. D., 1995. Use and abuse of heavy metal bioassays in environmental monitoring. The Science of Total Environment 176: 129–134.
Seymore, T., H. H. Du Preez, J. H. J. van Vuren„ A. Deacon,, G. Strydom, 1994. Variations in selected water quality variables and metal concentrations in the sediment of the lower Olifants and Selati rivers, South Africa. Koedoe 37: 1–18.
Slooff, W., 1983. Benthic macroinvertebrates and water quality assessment: some toxicological considerations. Aquat. Toxicol. 4: 73–82.
Teixeira, E. C., J. D. Sanchez, L. D. Fernandez, M. L. L. Formoso, G. Pegorini,, M. H. D. Pestana, 1997. A preliminary study of metals in sediments from areas influenced by coal processing and steel industry activities - Baixo Jacui region, RS-Brazil. Envir. Technol. 18: 581–592.
Tessier, A., P. G. C. Campbell, M. Bisson, 1979. Sequential extraction procedure for the speciation of particulate trace metals. Anal. Chem. 51: 844–851.
Tessier, A., P. G. C. Campbell, 1987. Partitioning of trace metals in sediments: relationships with bioavailability. Hydrobiologia 149: 43–52.
Traunspurger, W., C. Drews, 1996. Toxicity analysis of freshwater and marine sediments with meio-and macrobenthic organisms: a review. Hydrobiologia 328: 215–261.
Wang, W., 1987. Factors affecting metal toxicity to (and accumulation by) aquatic organisms - overview. Envir. Int. 13: 437–457.
Warren, L. A., A. P. Zimmerman, 1994. Suspended particulate oxides and organic matter interactions in trace metal sorption reactions in a small urban river. Biochemistry 23: 21–34.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1999 Springer Science+Business Media Dordrecht
About this chapter
Cite this chapter
Prygiel, J., Rosso-Darmet, A., Lafont, M., Lesniak, C., Durbec, A., Ouddane, B. (1999). Use of oligochaete communities for assessment of ecotoxicological risk in fine sediment of rivers and canals of the Artois-Picardie water basin (France). In: Garnier, J., Mouchel, JM. (eds) Man and River Systems. Developments in Hydrobiology, vol 146. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-2163-9_4
Download citation
DOI: https://doi.org/10.1007/978-94-017-2163-9_4
Publisher Name: Springer, Dordrecht
Print ISBN: 978-90-481-5393-0
Online ISBN: 978-94-017-2163-9
eBook Packages: Springer Book Archive