Abstract
Benthic oligochaetes were sampled on three occasions (June, August and October 1992) in the upper (0–10 cm) and hyporheic (35–45 cm depths) sediments at five sites of the River Moselle, from upstream of the town of Epinal to Velle-sur-Moselle. The first site (upstream from Epinal) is considered as unpolluted and the four remaining sites are polluted by industrial effluents. The most polluted stations were generally dominated by the pollution tolerant taxon Limnodrilus. Numbers of individuals of this taxon decreased at the less polluted last site in recovery zone, and were also scarce in the first unpolluted site. It is noteworthy that these tendencies were observed in both superficial and hyporheic substrates and to the greatest degree in hyporheic ones. At the unpolluted site, the hyporheic habitat is dominated by the groundwater species Propappus volki, Pristina spp., Pristinella spp. At the less polluted site (last site), the deep sediments are dominated by groundwater species and the Tubificidae without hair setae decrease from June to October. As a result of water exchange between superficial and subterranean waters, superficial substrates of the first and the last stations tend to be colonised by a high proportion of hyporheic species that suggests that flow is primarily from subterranean to superficial waters. The contrary is the case at other polluted stations which are characterised by the invasion of hyporheic substrates by the pollution tolerant superficial taxa Limnodrilus. This suggests that water flows from the river to the deeper groundwater. These two stations are located near drinking water plants which utilise groundwater, thus increasing the vulnerability of groundwater to surface contaminants.
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References
Anonymous, 1992. Carte hydrogéologique du Bassin Rhin-Meuse et données sur les échanges Moselle-aquifèere. Document de l'Agence de l'Eau Rhin-Meuse, France, 4 pp.
Bou, C. & R. Rouch, 1967. Un nouveau champ de recherches sur la faune aquatique souterraine. C. R. Acad. Sci., Paris 265: 369–370.
Bretschko, G., 1991. Bed sediments, groundwater and stream limnology. Verh. int. Ver. Limnol. 24: 1957–1960.
Carbiener, R., M. Trémolières, J. L. Mercier & A. Ortsheit, 1990. Aquatic macrophyte communities as bioindicators of eutrophication in calcareous oligosaprobe stream waters (Upper Rhine plain, Alsace). Vegetatio 86: 71–98.
Danielopol D. L., 1989. Groundwater fauna associated with riverine aquifers. J. N. Am. Benthol. Soc. 8: 18–35.
Dole-Olivier, M. J. & P. Marmonier, 1992. Patch distribution of interstitial communities: prevailing factors. Freshwat. Biol. 27: 177–191.
Durbec, A., 1986. Sectorisation des berges des ballastières en eaux. Application à l'étude des échanges hydrodynamiques avec la nappe phréatique d'Alsace, au nord de Strasbourg. These de Doctorat, Université Louis Pasteur, Strasbourg, 202 pp.
Durbec, A. & M. Lafont, 1991. Sensibilité à la pollution des zones de captage en site alluvial. Complémentarité de l'Hydraulique et de la Biologie. Infotech. CEMAGREF 83, note 4: 1–8.
Durbec A., M. Lafont & J.C. Camus, 1992. Etude de la vulnerabilité à la pollution du champ captant de Chasse-sur-Rhône (38). Rapport BUGEAP-CEMAGREF, 16 pp.
Ferrarese U. & B. Sambugar, 1976. Ricerche sulla fauna interstiziale iporreica dell'Adige in relazione allo stato di inquinamento del Fiume. Riv. Idrobiol. 15: 47–127.
Gaschignard, O., 1984. Impact d'une crue sur les invertébrés benthiques d'un bras mort du Rhône. Verh. int. Ver. Limnol. 22: 1997–2001.
Gaschignard-Fossati, O., 1986. Répartition spatiale des macroinvertébrés benthiques d'un bras vif du Rhône; Rôle des crues et dynamique saisonnière. Thèse de Doctorat, Université Lyon I, 197 pp.
Giere, O., 1993. Meiobenthology. The Microscopic Fauna in Aquatic Sediments. Springer-Verlag Berlin, Heidelberg, 328 pp.
Griffith, M. B. & S. A. Perry, 1993. The distribution of macroinvertebrates in the hyporheic zone of two small Appalachian headwater streams. Arch. Hydrobiol. 126: 373–384.
Hynes, H. B. N., 1983. Groundwater and stream ecology. Hydrobiologia 100: 93–99.
Juget, J., 1984. Oligochaeta of the epigean and underground fauna of the alluvial plain of the French upper Rhône (biotypological try). Hydrobiologia 115: 175–182.
Juget, J., 1987. Contribution to the study of Rhyacodrilinae (Tubificidae, Oligochaeta), with the description of two new stygobiont species from the alluvial plain of the French Upper Rhône, Rhyacodrilus amphigenus, sp. n. and Rhizodriloides phreaticola, g. n., sp. n. Hydrobiologia 155: 107–118.
Juget J. & E. Dumnicka, 1986. Oligochaeta (incl. Aphanoneura) des eaux souterraines continentales. In L. Botosaneanu (ed.), Stygofauna mundi. E. J. Brill, Leiden: 234–244.
Juget, J. & M. Lafont, 1994. Theoretical habitat templets, species traits, and species richness: aquatic Oligochaetes in the Upper Rhône River and its floodplain. Freshwat. Biol. 31: 327–340.
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 Doctorat ès Sciences, Université Lyon I, 311 pp.
Lafont, M. & A. Durbec, 1990. Essai de description biologique des interactions entre eau de surface et eau souterraine: application à l'évaluation de la vulnérabilité d'un aquifère à la pollution d'un fleuve. Ann. Limnol. 26: 119–129.
Lafont, M., A. Durbec & C. Ille, 1992. Oligochaete worms as biological describers of the interactions between surface and groundwater: a first synthesis. Reg. Rivers Res. Manag. 7: 65–73.
Lafont, M. & J. C. Camus, 1993. Utilisation des oligochètes et des microcrustacés dans l'évaluation des échanges nappe-rivière et dans l'appréciation de la contamination du milieu. Application à la Moselle à l'amont de Nancy. Rapport Agence de l'Eau Rhin-Meuse, 34 pp.
McElravy E. P. & V. Resch, 1991. Distribution and seasonal occurrence of the hyporheic fauna in a northern California stream. Hydrobiologia 220: 233–246.
Malard F., J. L. Reygrobellet, J. Mathieu & M. Lafont, 1994. The use of invertebrate communities to describe groundwater flow and contaminant transport in a fractured rock aquifer. Arch. Hydrobiol. 131: 93–110.
Rofes, G. & M. Savary, 1981. Description d'un nouveau modèle de carottier pour sédiments fins. Bull. fr. Piscic. 283: 102–113.
Rouch, R. & D. L. Danielopol, 1987. L'origine de la faune aquatique souterraine, entre le paradigme du refuge et le modèle de la colonisation active. Stygologia 3: 345–372.
Rosso, A., M. Lafont & A. Exinger, 1994. Impact of heavy metals on benthic oligochaete communities in the River Ill and its tributaries. Wat. Sci. Tech. 29: 241–248.
Strayer, D. & E. Bannon O'Donnell, 1988. Aquatic Microannelids (Oligochaeta and Aphanoneura) of undergroundwaters of Southeastern New-York. Am. Midl. Nat. 119: 327–335.
Ward, J. V. & M. A. Palmer, 1994. Distribution patterns of interstitial freshwater meiofauna over a range of spatial scales, with emphasis on alluvial river-aquifer systems. Hydrobiologia 287: 147–156.
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Lafont, M., Camus, J. & Rosso, A. Superficial and hyporheic oligochaete communities as indicators of pollution and water exchange in the River Moselle, France. Hydrobiologia 334, 147–155 (1996). https://doi.org/10.1007/BF00017364
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DOI: https://doi.org/10.1007/BF00017364