Abstract
Concentrations of cadmium, lead, copper and zinc were measured in individuals of Arianta arbustorum from different urban sampling sites. In comparison to snails from a reference site, the animals collected in the city showed higher concentrations of cadmium, lead, and copper, indicating elevated levels of metal pollution. The most pronounced difference in tissue concentrations between control animals and contaminated snails was observed for lead. Within the city, metal levels in snails differed significantly, even between adjacent populations.
Arianta arbustorum is a suitable species for biomonitoring, because it is widespread, resident and easy to collect; it has a high capacity for metal accumulation and shows different concentrations depending on metal contamination of the sampling area. An interspecific comparison of metal concentrations in terrestrial gastropods was conducted to define background levels and classes of burden. Three pollution levels are distinguished on the basis of the snails' metal burden: no pollution (class 1: reference sites), moderate (class 2: traffic and other human activities in urban areas), and high pollution (class 3: mining and heavy industry).
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References
Arndt, U., Nobel, W. and Schweizer, B.: 1987, Bioindikatoren, Möglichkeiten, Grenzen und neue Erkenntnisse, Verlag Eugen Ulmer, Stuttgart.
Arter, H.E.: 1990, ‘Spatial Relationship and Gene Flow Paths Between Populations of the Alpine Snail Arianta arbustorum (Pulmonata: Helicidae)’, Evolution 44 (4), 966–980.
Balogh, K.V.: 1988, ‘Heavy Metal Pollution from a Source Point Demonstrated by Mussel (Unio pictorum L.) at Lake Balaton, Hungary’, Bull. Environ. Contam. Toxicol. 41, 910–914.
Balogh, K.V. and Salanki, J.: 1987, ‘Biological Monitoring of Metal Pollution in the Region of Lake Balaton (Hungary)’, Acta Biologica Hungarica 38 (1), 13–30.
Baur, A. and Baur, B.: 1990, ‘Are Roads Barriers to Dispersal in the Land Snail Arianta arbustorum?’, Can. J. Zool. 68, 613–617.
Baur, B. and Raboud, C.: 1988, ‘Life History of the Land Snail Arianta arbustorum along an Altitudinal Gradient’, J. Animal Ecol. 57, 71–87.
Beeby, A.: 1985, ‘The Role of Helix aspersa as a Major Herbivore in the Transfer of Lead through a Polluted Ecosystem’, J. Appl. Ecol. 22, 267–275.
Beeby, A. and Richmond, L.: 1987, ‘Adaptation by an Urban Population of the Snail Helix aspersa to a Diet Contaminated with Lead’, Environ. Pollut. 46, 73–82.
Berger, B.: 1990, ‘Beiträge zum Schwermetallstoffwechsel der terrestrischen Gastropoden Arianta arbustorum L. und Cepaea hortensis Müller (Fam. Helicidae): Quantitative Aspekte und Cadmium bindende Proteine’, Thesis, Universität Innsbruck, Austria, pp. 252.
Berger, B. and Dallinger, R.: 1989, ‘Accumulation of Cadmium and Copper by the Terrestrial Snail Arianta arbustorum L.: Kinetics and Budgets’, Oecologia 79, 60–65.
Berger, B., Dallinger, R.: 1989, ‘Factors Influencing the Contents of Heavy Metals in Terrestrial Snails from Contaminated Urban Sites’, 7th International Conference on Heavy Metals in the Environment, Geneva, September 1989, Conference Proceedings 1, 554–557.
Berger, B., Dallinger, R., Felder, E. and Moser, J.: 1992, ‘Budgeting the Flow of Cadmium and Zinc through the Terrestrial Gastropod Helix pomatia L.’, in R. Dallinger and P.S. Rainbow (Eds.) Ecotoxicology of Metals in Invertebrates, Lewis Publishers, Chelsea, USA, in press.
Bryan, G.W., Langston, W.J., Hummerstone, L.G., Burt, G.R. and Ho, Y.B.: 1983, ‘An Assessment of the Gastropod, Littorina littorea, as an Indicator of Heavy Metal Contamination in United Kingdom Estuaries’, J. Mar. Ass. U.K. 63, 327–345.
Burguera, J.L., Burguera, M. and Belandria, M.G.: 1989, ‘The Amounts of Lead in Roadside Soil and some Lichen Species and their Correlation with Motor Vehicles Traffic Volume’, 7th International Conference on Heavy Metals in the Environment, Geneva, September 1989, Conference Proceedings 2, 460–463.
Butler, P.A., Andren, L., Bonde, G.J., Jernelöv, A. and Reish, D.J.: 1971, ‘Monitoring Organisms’, F.A.O. Fisheries Reports No. 99 Suppl. 1.
Cossa, D.: 1988, ‘Cadmium in Mytilus spp.: Worldwide Survey and Relationships between Seawater and Mussel Content’, Mar. Environ. Res. 26, 265–284.
Cossa, D.: 1989, ‘A Review of the Use of Mytilus spp. as Quantitative Indicators of Cadmium and Mercury Contamination in Coastal Waters’, Oceanologica Acta 12 (4), 417–432.
Coughtrey, P.J. and Martin, M.H.: 1976, ‘The Distribution and Speciation of Cadmium in the Terrestrial Snail, Helix aspersa’, Bull. Environ. Contam. Toxicol. 23, 445–451.
Coughtrey, P.J. and Martin, M.H.: 1977, ‘The Uptake of Lead, Zinc, Cadmium, and Copper by the Pulmonate Mollusc, Helix aspersa Müller, and its Relevance to the Monitoring of Heavy Metal Contamination of the Environment’, Oecologia 27, 65–74.
Czarnezki, J.M.: 1987, ‘Use of the Pocketbook Mussel, Lampsilis ventricosa, for Monitoring Heavy Metal Pollution in an Ozark Stream’, Bull. Environ. Contam. Toxicol. 38, 641–646.
Dallinger, R., Berger, B. and Bauer-Hilty, A.: 1989, ‘Purification of Cadmium-Binding Proteins from Related Species of Terrestrial Helicidae (Gastropoda, Mollusca): A Comparative Study’, Molec. and Cell. Biochem. 85, 135–145.
Dallinger, R., Berger, B. and Birkel, S.: 1992, ‘Terrestrial Isopods: Useful Biological Indicators of Metal Pollution in Urban Sites’, Oecologia 89, 32–41.
Dallinger, R., Birkel, S., Bauer-Hilty, A. and Berger, B.: 1989, ‘Biokartierung der Schwermetallbelastung im Raum Innsbruck’, Veröffentlichungen der Universität Innsbruck, 171.
Dallinger, R. and Wieser, W.: 1984, ‘Patterns of Accumulation, Distribution and Liberation of Zn, Cu, Cd and Pb in Different Organs of the Land Snail Helix pomatia L.’, Comp. Biochem. Physiol. 79C, 117–124.
Doherty, F.G.: 1990, ‘The Asiatic Clam, Corbicula spp., as a Biological Monitor in Freshwater Environments’, Environ. Mon. Ass. 15, 143–181.
Frömming, E.: 1954, ‘Arianta arbustorum’, in E. Frömming (Ed.) Biologie der mitteleuropäischen Landgastropoden, Dunker und Humbold, Berlin, 289–305.
Goldberg, E.D.: 1975, ‘The Mussel Watch — A First Step in Global Marine Monitoring’, Mar. Pollut. Bull. 6, 111.
Greville, R.W. and Morgan, A.J.: 1989, ‘Concentrations of Metals (Cu, Pb, Cd, Zn, Ca) in Six Species of British Terrestrial Gastropods near a Disused Lead and Zinc Mine’, J. Moll. Stud. 55, 31–36.
Greville, R.W. and Morgan, A.J.: 1990, ‘The Influence of Size on the Accumulated Amounts of Metals (Cu, Pb, Cd, Zn and Ca) in Six Species of Slugs Sampled from a Contaminated Woodland Site’, J. Moll. Stud. 56, 355–362.
Ho, Y.B. and Tai, K.M.: 1988, ‘Elevated Levels of Lead and Other Metals in Roadside Soil and Grass and their Use to Monitor Aerial Metal Despositions in Hong Kong’, Environ. Poll. 49, 37–51.
Hopkin, S.P.: 1989, Ecophysiology of Metals in Terrestrial Invertebrates, Elsevier Applied Science, London, New York, pp. 366.
Howard, B. and Simkiss, K.: 1981, ‘Metal Binding by Helix aspersa Blood’, Comp. Biochem. Physiol. 70A, 559–561.
Kasperowski, E. and Frank, E.: 1989, ‘Boden- und Vegetationsuntersuchungen im Bereich der Scheitelstrecke der Tauernautobahn’, Monographien des Umweltbundesamtes, Wien, 15.
Kerney, M.P., Cameron, R.A.D. and Jungbluth, J.H.: 1983, Die Landschnecken Nord- und Mitteleuropas, Verlag Paul Parey, Hamburg und Berlin.
Klemm, W.: 1973, ‘Die Verbreitung der rezenten Land-Gehäuse-Schnecken in Österreich’, Denkschrift der Österr. Akad. Wiss. 117, Math. nat. Kl., 1–503.
Knutti, R., Bucher, P., Stengl, M., Stolz, M., Tremp, J., Ulrich, M. and Schlatter, C.: 1988, ‘Cadmium in the Invertebrate Fauna of an Unpolluted Forest in Switzerland’, Environ. Toxin Ser. 2, 171–191.
Kratz, W., Gruttke, H. and Weigmann, G.: 1987, ‘Cadmium Accumulation in Soil Fauna after Artificial Application of Cadmium Nitrate in a Ruderal Ecosystem’, Acta Phytopath. Entom. Hung. 22 (1–4), 391–397.
Kurihara, Y. and Suzuki, T.: 1987, ‘Removal of Heavy Metals and Sewage Sludge Using the Mud Snail, Cipangopaludina chinensis malleata Reeve, in Paddy Fields as Artificial Wetlands’, Water Sci. Techn. 19 (1), 281–286.
Leonzio, C. and Pisani, A.: 1987, ‘An Evaluative Model for Lead Distribution on Roadside Ecosystems’, Chemosphere 16 (7), 1387–1394.
Lyngby, E.J.: 1987, ‘Monitoring of Heavy Metal Contamination in the Linfjord, Denmark, Using Biological Indicators and Sediment’, Sci. Tot. Environ. 64, 239–252.
Lyngby, E.J.: 1989, ‘Biomonitoring and Ecotoxicity Studies of Heavy Metals Leached from Power Plant Cooling Water System’, 7th International Conference on Heavy Metals in the Environment, Geneva, September 1989, Conference Proceedings 1, pp. 205–208.
Martin, J.H. and Flegal, A.R.: 1975, ‘High Copper Concentrations in Squid Livers in Association with Elevated Levels of Ag, Cd, and Zn’, Mar. Biol. 30, 51–55.
Martin, M.H. and Coughtrey, P.J.: 1982, Biological Monitoring of Heavy Metal Pollution: Land and Air, Applied Science Publishers, London, New York.
Meincke, K.F. and Schaller, K.H.: 1974, ‘Über die Brauchbarkeit der Weinbergschnecke (Helix pomatia L.) im Freiland als Indikator für die Belastung der Umwelt durch die Elemente Eisen, Zink und Blei’, Oecologia 15, 393–398.
Nemeschkal, H.J. and Kothbauer, H.: 1988, ‘Arianta arbustorum alpicola (Ferussac 1819) (Pulmonata, Helicidae): Über Interpretationen und Realität eines Taxon’, Zool. Anz. 221 (5–6), 343–354.
Philips, D.J.H.: 1976, ‘The Common Mussel Mytilus edulis as an Indicator of Pollution by Zinc, Cadmium, Lead and Copper. II. Relationship of Metals in the Mussel to those Discharged by Industry’, Mar. Biol. 38, 71–80.
Philips, D.J.H.: 1980, Quantitative Aquatic Biological Indicators: Their Use to Monitor Trace Metal and Organochlorine Pollution, Applied Science Publishers, London.
Philips, D.J.H.: 1990, ‘Use of Macroalgae and Invertebrates as Monitors of Metal Levels in Estuaries and Coastal Waters’, in R.W. Furness and P.S. Rainbow (Eds.) Heavy Metals in the Marine Environment, CRC Press Inc., pp. 81–99.
Popham, J.D. and D'Auria, J.M.: 1980, ‘Arion ater (Mollusca: Pulmonata) as an Indicator of Terrestrial Environmental Pollution’, Water, Air and Soil Pollut. 14, 115–124.
Raboud, C.: 1986, ‘Age Determination of Arianta arbustorum (L.) (Pulmonata) Based on Growth Breaks and Inner Layers’, J. Moll. Stud. 52, 243–247.
Russell, L.K., Haven de, J.I. and Botts, R.P.: 1981, ‘Toxic Effects of Cadmium on the Garden Snail (Helix aspersa)’, Bull. Environ. Contam. Toxicol. 26, 634–640.
Stary, P., Kubiznakova, J. and Kindlman, P.: 1989, ‘Heavy Metal Traffic Pollutants in the Small Eggar, Eriogaster lanestris (L.) (Lepidoptera, Lasiocampidae)’, Ekologia (CSSR) 8 (2), 211–218.
Talbot, V.: 1985, ‘Relationship between Cadmium Concentrations in Seawater and Those in the Mussel Mytilus edulis’, Mar. Biol. 85, 51–54.
Talbot, V.: 1986, ‘Seasonal Variation of Copper and Zinc Concentrations in the Oyster Saccostrea cuccullata from the Dampier Archipelago, Western Australia: Implications for Pollution Monitoring’, Sci. Tot. Environ. 57, 217–230.
Viarengo, A., Zanicchi, G., Moore, M.N. and Orunesu, M.: 1981, ‘Accumulation and Detoxification of Copper by the Mussel Mytilus galloprovincialis Lam.: A Study of the Subcellular Distribution in the Digestive Gland Cells’, Aquat. Toxicol. 1, 147–157.
Ward, T.J.: 1982, ‘Laboratory Study of the Accumulation and Distribution of Cadmium in the Sydney Rock Oyster Saccostrea commercialis (I & R)’, Aus. J. Mar. Freshwater Res. 3, 33–44.
Williamson, P.: 1979, ‘Comparison of Metal Levels in Invertebrate detrivores and their Natural Diets. Concentration Factors Reassessed’, Oecologia 44, 75–79.
Williamson, P.: 1980, ‘Variables Affecting Body Burdens of Lead, Zinc, and Cadmium in a Roadside Population of the Snail Cepaea hortensis Müller’, Oecologia 44, 213–220.
Wren, C.D.: 1986, ‘Mammals as Biological Monitors of Environmental Metal Levels’, Environ. Mon. Ass. 6, 127–144.
Yassoglou, N., Kosmas, C., Asimakopoulus, J. and Kallinou, C.: 1987, ‘Heavy Metal Contamination of Raodside Soils in the Greater Athens Area’, Environ. Poll. 47, 293–304.
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Berger, B., Dallinger, R. Terrestrial snails as quantitative indicators of environmental metal pollution. Environ Monit Assess 25, 65–84 (1993). https://doi.org/10.1007/BF00549793
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DOI: https://doi.org/10.1007/BF00549793