Abstract
The lowland stretches of rivers are usually the ones where a macroinvertebrate species collection is more difficult to obtain because of the depth and turbidity of the water. Since the choice of the index and of the specific sampling technique is critical for the final result, there is a strong interest into setting up reliable methods for assessing the biological water quality. The aim of this paper is to elucidate the performances of four biotic indices and the influence of four sampling methods on the water quality assessment of a deep and turbid stretch of a river. We collected macroinvertebrates seasonally at 10 sampling sites along the final stretch of the Tiber River using four sampling methods (including hand net, wood and plastic artificial substrates). At the same time, chemical, physical, and bacteriological variables were recorded monthly along the same river stretch. Considering those variables, sampling sites were grouped into three clusters with different water quality, using the chronological clustering method. The same result was obtained from macroinvertebrate data using the same method. We then examined the ability of four biotic indices widely used in Italy to discriminate between the three clusters. The indices are: BMWP' (British Monitoring Working Party, modified for Spain), ASPT' (Average Score Per Taxon, modified for Spain), EBI (Extended Biotic Index) and IBE (Indice Biotico Esteso). BMWP' and ASPT' showed the best results. BMWP' and ASPT' scores – but not those of EBI and IBE – were sensitive to the different sampling methods utilised. We concluded that in this type of river stretch, BMWP' and ASPT' could be more useful than EBI and IBE although the relative efficiency of the chosen sampling method should be taken into account.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alba-Tercedor, J. & A. Sanchez-Ortega, 1988. Un metodo rapido y simple para evaluar la calidad biologica de las aguas corrientes basado en el de Hellawell (1978). Limnetica 4: 51–56.
Armitage, P. D., D. Moss, J. F. Wright & M. T. Furse, 1983. The performance of a new biological water quality score system based on macroinvertebrates over a wide range of unpolluted running-water sites. Wat. Res. 17: 333–347.
Battegazzore, M., A. Guzzini, R. Pagnotta & R. Marchetti, 1995. The importance of investigatory and analytical techniques in biological water-quality investigations. In Harper, D. M. & A. J. D. Ferguson (eds), The Ecological Basis for River Management. John Wiley & Sons, New York, USA: 193–209.
De Pauw, N., D. Roels & A. P. Fontoura, 1986. Use of artificial substrates for standardized sampling of macroinvertebrates in the assessment of water quality by the Belgian biotic Index. Hydrobiologia 133: 237–258
De Pauw, N., P. F. Ghetti, P. Manzini & R. Spaggiari, 1992. Biological assessment methods for running water. In Newman, P. J., M. A. Piavaux & R. A. Sweeting (eds), River Water Quality Ecological Assessment and Control. Commission of the European Communities, Bruxelles, Belgium: 217–249.
Fontoura, A. P. & N. De Pauw, 1991. Macroinvertebrate community structure and impact assessment of dams and impounding reservoir in the Cavado river basin (Northern Portugal). Verh. int. Verein. Limnol. 24: 1353–1359.
Ghetti, P. F., 1986. I macroinvertebrati nell'analisi dei corsi d'acqua. Indice Biotico: E.B.I. modificato. Manuale di applicazione. Provincia Autonoma di Trento, Trento, Italy, 111 pp.
Ghetti, P. F., 1997. I macroinvertebrati nel controllo della qualità di ambienti di acque correnti. Indice Biotico Esteso (I.B.E.). Manuale di applicazione. Provincia Autonoma di Trento, Trento, Italy, 222 pp.
Hellawell, J. M., 1978. Biological Surveillance of Rivers. Water Research Center, Stevenage, UK, 322 pp.
Hellawell, J. M., 1986. Biological Indicators of Freshwater Pollution and Environmental Management. Elsevier Applied Science, London, UK, 546 pp.
Illies, J. & L. Botosaneanu, 1963. Problémes et méthodes de la classification et de la zonation écologique des aux courantes, considerée surtout du point de vue faunistique. Mitt. Int. Verein. Theor. Angew. Limnol. 12, 57 pp.
IRSA (Instituto di Ricerca sulle Acque del C.N.R.), 1976. Metodi analitici per le acque. Quad. Ist. Ric. Acque 11, C.N.R., Roma, 130 pp.
Legendre, P. & A. Vaudor, 1991. The R Package: Multidimensional analysis, spatial analysis. Département de Sciences Biologiques, Université de Montréal, 142 pp.
Legendre, P., S. Dallot & L. Legendre, 1985. Succession of species within a community: chronological clustering, with application to marine and freshwater zooplankton. Am. Nat. 125: 257–288.
Meier, P. J., D. L. Penrose & L. Polak, 1979. The rate of colonization bymacro-invertebrates on artificial substrate samplers. Freshwat. Biol. 9: 381–392.
Modde, T. & H. G. Drewes, 1990. Comparison of biotic index values for invertebrate collections from natural and artificial substrates. Freshwat. Biol. 23: 171–180.
Murphy, P. N., 1978. The temporal variability in biotic indices. Envir. Pollut. 17: 227–236.
Neter, J., M. H. Kutner, C. J. Nachtsheim & W. Wasserman, 1996. Applied Linear Statistical Models. Irwin, Chicago, 1408 pp.
Norris, R. H., 1995. Biological monitoring: the dilemma of data analysis. J. N. am. Benthol. Soc. 14: 440–450.
Norris, R. H. & A. Georges, 1993. Analysis and interpretation of benthic macroinvertebrate surveys. In Rosenberg, D. M. & V. H. Resh (eds), Freshwater Biomonitoring and Benthic Macroinvertebrates. Chapman & Hall, New York: 234–286.
Pagnotta, R., C. M. Blundo, T. La Noce, M. Pettine & A. Puddu, 1989. Nutrient remobilization processes at the Tiber River mouth (Italy). Hydrobiologia 176/177: 297–306.
Rico, E., A. Rallo, M. A. Sevillano & M. L. Arretxe, 1992. Comparisons of several biological indices based on river macroinvertebrate benthic community for assessment of running water quality. Ann. Limnol. 25: 147–156.
Rosenberg D. M. & Resh V. H., 1993. Introduction to freshwater biomonitoring and benthic macroinvertebrates. In Rosenberg, D. M. & V. H. Resh (eds.), Freshwater Biomonitoring and Benthic Macroinvertebrates. Chapman & Hall, New York: 1–9.
Sokal, R. R. & C. D. Michener, 1958. A statistical method for evaluating systematic relationships. Univ. Kansas Sci. Bull. 1: 2–18.
Solimini, A. G., G. A. Tarallo & G. Carchini, 1997. Life history and species composition of the damselfly assemblage along the urban tract of a river in central Italy. Hydrobiologia 356: 21–32.
Valdecasas, A. G. & A. Baltanas, 1990. Jacknife and bootstrap estimation of biological index of water quality. Wat. Res. 24: 1279–1283.
Woodiwiss, F. S., 1964. The biological system of stream classification used by the Trent River board. Chem. Ind. 83: 443–447.
Woodiwiss, F. S., 1978. Comparative study of biological-ecological water quality assessment methods. Second practical demonstration. Summary report. Commission of the European Communities.
Zamora-Munoz, C., C. Sainz-Cantero, A. Sanchez-Ortega & J. Alba-Tercedor, 1995. Are biological indices BMWP' and ASPT' and their significance regarding water quality seasonally dependent? Factors explaining their variation. Wat. Res. 29: 285–290.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Solimini, A.G., Gulia, P., Monfrinotti, M. et al. Performance of different biotic indices and sampling methods in assessing water quality in the lowland stretch of the Tiber River. Hydrobiologia 422, 197–208 (2000). https://doi.org/10.1023/A:1017090804460
Issue Date:
DOI: https://doi.org/10.1023/A:1017090804460