Diatom indices in the biological assessment of the water quality based on the example of a small lowland river

[1] Bathurst, R.R., Zori D. & Byock J. (2010). Diatom as bioindicators of site use: locating turf structures from the Viking Age. J. of Archaeol. Sci. 37: 2920–2928. http://dx.doi.org/10.1016/j.jas.2010.07.00210.1016/j.jas.2010.07.002 Search in Google Scholar

[2] Blanco, S., Cejudo-ueiras, C., Tudesque, L., Bécares, E., Hoffmann L. & Ector L. (2012). Are diatom diversity indices reliable monitoring metries? Hydrobiol. 695: 199–206. http://dx.doi.org/10.1007/s10750-012-1113-110.1007/s10750-012-1113-1 Search in Google Scholar

[3] Bogaczewicz-Adamczak, B. & Dziengo M. (2003). Using benthic diatom communities and diatom indices to assess water pollution in the Pucka Bay (Southern Baltic Sea) littoral zone. Oceanol. St., 32(4): 131–157. Search in Google Scholar

[4] Bogaczewicz-Adamczak, B. & Koźlarska I. (1999). The evaluation of water quality in the Swelina Stream on the basis of diatom analysis. Oceanol. St. 28(1–2): 59–71. Search in Google Scholar

[5] Bogaczewicz-Adamczak, B., Kłosińska, D. & Zgrundo A. (2001). Diatoms as indicators of water pollution in the coastal zone of the Gulf of Gdańsk (southern Baltic Sea). Oceanol. St. 30(3–4): 59–75. Search in Google Scholar

[6] Burchard, J., Hereźniak-Ciotowa U. & Kaca W. (1990). Metody badańi ocena jakości wód powierzchniowych i podziemnych [The methodology and the assessment of the quality of surface and underground waters]. Łódź: University of Lodz Publisher. [in Polish]. Search in Google Scholar

[7] CEMAGREF. (1982). Etude des méthodes biologiques d’appréciation quantitative de la qualité des eaux. [A study on the biological methods of qualitative assessment of water quality. A report of the Water Quality Division Lyon-Outflow Rhône River section catchment] Rapport Division Qualite des Eaux Lyon-A.F. Bassin Rhône-Méditerranée-Corse, Pierre-Bénite, 218 pp. [in French] Search in Google Scholar

[8] Cholnoky, B.J. (1968). Die Ökologie der Diatomeen in Binnengewässer [Ecology of Diatoms in Inland Waters]. J. Cramer Verl., 699 pp. [in German] Search in Google Scholar

[9] Coste, M. & Ayphassorho H. (1991). Etude de la qualité des eaux du bassin Artois Picardie à l’aide des communautés de diatomées benthiques (Application des indices diatomiques), Rapport Cemagref Bordeaux — Agence de l’Eau Artois Picardie, 227 pp. [in French] Search in Google Scholar

[10] Dell’Uomo, A. (2004). L’indice Diatomico di Eutrofizzazione/Polluzione (EPI-D) nel Monitoraggio Delle Acque Correnti. Linee guida. A. P. A. T., A. R. P. A. T., 101 pp. [in French] Search in Google Scholar

[11] Descy, J. P. & Ector L. (1996). Use of diatoms for monitoring rivers in Belgium and Luxemburg. In J. Prygiel, B. A. Whitton & J. Bukowska (Eds.), Use of algae for monitoring rivers III. Agence de l` Eau Artois-Picardie: 128–137. Search in Google Scholar

[12] Dumnicka, E., Jelonek, M., Kwandrans, J., Wojtal, A. & Żurek R. (2006). Ichtiofauna i status ekologiczny wód Wisły, Raby, Dunajca i Wisłoki. [Ichthyofauna and ecological status of the waters of the Vistula, Raba, Dunajec and Wisłoka]. Kraków: Institute of Nature Conservation, Polish Academy of Sciences, 220 pp. [in Polish] Search in Google Scholar

[13] Ector, L. & Rimet F. (2005). Using bioindicators to assess rivers in Europe: an overview. In S. Lek, M. Scardi, P.F.M. Verdonschot, J.P. Descy & Y.S. Park (Eds.), Modelling Community Structure in Freshwater Ecosystems. Springer: Berlin: 7–19. Search in Google Scholar

[14] Eloranta, P. & Soininen J. (2002). Ecological status of some Finnish rivers evaluated using benthic diatoms communities. J. Appl. Phycol. 14: 1–7. http://dx.doi.org/10.1023/A:101527572348910.1023/A:1015275723489 Search in Google Scholar

[15] European Union (2000). Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for community action in the field of water policy. Official Journal of the European Communities L327: 1–73. Search in Google Scholar

[16] Gomez, N. & Licursi M. (2001). The Pampean Diatom Index (IDP) for assessment of rivers and stream in Argentina. Aquat. Ecol. 35: 173–181. http://dx.doi.org/10.1023/A:101141520944510.1023/A:1011415209445 Search in Google Scholar

[17] Harding, W. R., Archibald, C. G. M. & Taylor J. C. (2005). The relevance of diatoms for water quality assessment in South Africa: A position paper. Water S.A. 31: 41–46. 10.4314/wsa.v31i1.5119 Search in Google Scholar

[18] Hofmann, G. (1994). Aufwuchs — Diatomeen in Seen und ihre Eignung als Indikatoren der Trophie. Bibl. Diatomol., 30: 241 pp. Search in Google Scholar

[19] Kawecka, B. & Eloranta P. V. (1994). Zarys ekologii glonów wód słodkich i środowisk lądowych [An outline of the ecology of freshwater algae and terrestrial environments]. PWN. Warszawa: 251 pp. [in Polish] Search in Google Scholar

[20] Kelly, M. G. & Whitton B. A. (1995). The trophic Diatom Index: a new index for monitoring eutrophication in rivers. J. Appl. Phycol. 7: 433–444. http://dx.doi.org/10.1007/BF0000380210.1007/BF00003802 Search in Google Scholar

[21] Kelly, M. G. (2003). Short term dynamics of diatoms in an upland stream and implications for monitoring eutrophication. Environ. Pollut.. 125: 117–122. http://dx.doi.org/10.1016/S0269-7491(03)00075-710.1016/S0269-7491(03)00075-7 Search in Google Scholar

[22] Kelly, M. G., Juggins, S., Guthrie, R., Pritchard, S., Jamieson, J., Rippey, B., Hirst, H. & Yallop M. (2008). Assessment of ecological status in U. K. rivers using diatoms. Freshwater Biology. 53: 403–422. Search in Google Scholar

[23] Kruskal, W. H. & Wallis W. A. (1952). Use of ranks in one-criterion variance analysis. J. Amer. Statist. Assoc. 47: 583–621. http://dx.doi.org/10.1080/01621459.1952.1048344110.1080/01621459.1952.10483441 Search in Google Scholar

[24] Kwandrans, J., Eloranta, P., Kawecka, B. & Wojtan K. (1999). Use of benthic diatom communities to evaluate water quality in rivers of southern Poland, In J. Prygiel, B. A. Witton & J. Bukowska (Eds.), Use of algae for monitoring rivers III (pp. 154–156) Agence de l’Eau Artois-Picardie. Search in Google Scholar

[25] Lange-Bertalot, H. (1979a). Pollution tolerance of diatoms as a criterion for water quality estimation. Nowa Hedwigia 64: 285–304. Search in Google Scholar

[26] Lange-Bertalot, H. (1979b). Toleranzgrenzen und Populationsdynamik benthischer Diatomeen bei unterschiedlich starker Abwassebelastrung. Arch. Hydrobiol. Suppl. 56. Algol. Stud. 23: 184–219. Search in Google Scholar

[27] Lenoir, A. & Coste M. (1996). Development of a practical diatom index of overall water quality applicable to the French National Water Board network. In B.A. Whitton & E. Rott (Eds.). Use of Algae for Monitoring River II, (pp. 29–45) Universität Innsbruck Search in Google Scholar

[28] Nurlimann, J. & Niederhauser P. (2006). Methoden zur Untersuchung und Beurteilung der Fliessgewasser: Kieselalgen Stufe F (flachendeckend) Bundesamt fur Umwelt. BAFU, Bern. [in German] Search in Google Scholar

[29] Picińska-Fałtynowicz, J. (1998). Ocena stopnia czystości wód Kaczego Potoku w Gdyni w oparciu o zbiorowiska okrzemek epilitycznych [The assessment of the degree of water purity in the Kaczy Potkok in Gdynia based on the epilithic diatom communities]. In Streszczenie konferencyjne XVII Sympozjum Sekcji Fykologicznej PTB: Szczecin-łukęcin, 21. [in Polish]. Search in Google Scholar

[30] Picińska-Fałtynowicz, J. (2006). Epilithic diatom communities and their indicative value of streams of Sudety Mts. (SW Poland). In E. Acs, T. Kiss, J. Padisak. & E. Szabo (Eds.), 6th International Symposium: Use of Algae for Monitoring Rivers (pp. 109–113). Program, Abstract & Extended Abstracts. Hungarian Algological Society God Hungary. Search in Google Scholar

[31] PB 108 edition No. 3 of 20 September (2011). Badanie zawartości azotu Kjeldahla [The research of the Kjeldahl nitrogen content]. [in Polish]. Search in Google Scholar

[32] PN-EN 25813 (1997). Jakość wody. Oznaczanie tlenu rozpuszczonego. Metoda jodometryczna [Water quality. Determination of the dissolved oxygen. Iodimetric method]. [in Polish]. Search in Google Scholar

[33] PN-EN 1484 (1999). Analiza wody — Wytyczne oznaczania ogólnego węgla organicznego (OWO) i rozpuszczonego węgla organicznego (RWO) [Water analysis — Guidelines for the determination of total organic carbon (TOC) and dissolved organic carbon (DOC)]. [in Polish]. Search in Google Scholar

[34] PN-EN ISO 13395 (2001). Jakość wody — Oznaczanie azotu azotynowego i azotanowego oraz ich sumy metodą analizy przepływowej (CFA i FIA) z detekcją spektrometryczną [Water quality — Determination of the nitrite nitrogen and nitrate nitrogen and their sum by the flow analysis method (CFA and FIA) with the spectrometric detection]. [in Polish]. Search in Google Scholar

[35] PN-EN ISO 15681-2 (2002). Jakość wody. Oznaczanie ortofosforanów i fosforu ogólnego metodą analizy przepływowej (FIA i CFA). Część 2: Metoda przepływowej analizy ciągłej (CFA) [Water quality. Determination of the of orthophosphate and total phosphorus by flow analysis method (FIA and CFA). Part 2: Method of the continuous flow analysis (CFA). [in Polish]. Search in Google Scholar

[36] PN-EN 18991-2 (2002). Jakość wody. Oznaczanie biochemicznego zapotrzebowania tlenu po n dniach (BZTn). Część 1: Metoda rozcieńczania i szczepienia z dodatkiem allilomocznika. Część 2: Metoda do próbek nie rozcieńczonych [Water quality. Determination of the biochemical oxygen demand after n days (BOD). Part 1: Method of dilution and vaccination with the addition of allyl urea. Part 2: Method for the undiluted samples]. [in Polish]. Search in Google Scholar

[37] PN-ISO 5667-6 (2003). Jakość wody. Pobieranie próbek. Część 6: Wytyczne dotyczące pobierania próbek z rzek i strumieni [Water quality. Sampling. Part 6: Guidance on the sampling at rivers and streams]. [in Polish]. Search in Google Scholar

[38] PN-EN ISO 11885 (2009). Jakość wody — Oznaczanie wybranych pierwiastków metodą optycznej spektrometrii emisyjnej z plazmą wzbudzoną indukcyjnie (ICP-OES) [Water quality — Determination of the selected elements by the optical emission spectrometry with inductively coupled plasma (ICP-OES)]. [in Polish]. Search in Google Scholar

[39] Potapova, M., Charles, D.F., Ponader, K. C. & Winter D. M. (2004). Quantifying species indicator values for trophic diatom indices: comparison of approaches. Hydrobiol. 517: 25–41. http://dx.doi.org/10.1023/B:HYDR.0000027335.73651.ea10.1023/B:HYDR.0000027335.73651.ea Search in Google Scholar

[40] Potapova, M. & Charles D.F. (2005). Choice of substrate in algae-based water-quality assessment. J. N. Am. Benthol.. Soc. 24: 415–427. http://dx.doi.org/10.1899/03-111.110.1899/03-111.1 Search in Google Scholar

[41] Potapova, M. & Charles D.F. (2007). Diatom metrics for monitoring eutrophication in river of the United States. Ecol. Indic. 7: 48–70. http://dx.doi.org/10.1016/j.ecolind.2005.10.00110.1016/j.ecolind.2005.10.001 Search in Google Scholar

[42] Prygiel, J. & Coste M. (1999). Progress in the use of diatoms for monitoring rivers in France. In J. Prygiel, B. A. Whitton & J. Bukowska (Eds.), Use of algae for monitoring rivers III (pp. 165–179) Agence de l’Eau Artois-Picardie. Search in Google Scholar

[43] Prygiel, J. 2002. Mangement of the diatom monitoring network in France. J. Appl. Phycol. 14: 19–26. http://dx.doi.org/10.1023/A:101526822541010.1023/A:1015268225410 Search in Google Scholar

[44] Rakowska, B. (2000). Qualitative assessment of water in the Rawka River (Central Poland) using communities of benthic diatoms. Arch Hydrobiol. Suppl. Algol. Stud. 96: 105–118. 10.1127/algol_stud/96/2000/105 Search in Google Scholar

[45] Rakowska, B. (2001). Studium różnorodności okrzemek ekosystemów wodnych Polski niżowej [Study of diatom diversity in water ecosystems of Poland’s lowlands]. Wydawnictwo Uniwersytetu Łódzkiego, Łódź: 1–75. [in Polish] Search in Google Scholar

[46] Rakowska, B. & Szczepocka E. (2011). Demonstration of the Bzura River restoration using diatom indices. Biologia 66(3): 411–417. http://dx.doi.org/10.2478/s11756-011-0032-310.2478/s11756-011-0032-3 Search in Google Scholar

[47] Regulation of the Minister of the Environment a (OJ No 257, pos. 1545 from 2011). Search in Google Scholar

[48] Regulation of the Minister of the Environment b (OJ No 258, pos. 1549 from 2011). Search in Google Scholar

[49] Rey, P. A., Taylor, J. C., Laas, A., Rensburg, L. & Vosloo A. (2004). Determing the possible application value of diatoms as indicators of general water quality: A comparison with SASS 5. Water S.A. 30: 325–332. 10.4314/wsa.v30i3.5080 Search in Google Scholar

[50] Round, F.E. (2004). pH scaling and diatom distribution. Diatom 20: 9–12. Search in Google Scholar

[51] Sládecek, V. (1986). Diatoms as indicators of organic pollution Acta hydrochim. hydrobiol. 14: 555–566. 10.1002/aheh.19860140519 Search in Google Scholar

[52] Szczepocka, E. & Szulc B. (2009). The use of benthic diatoms in estimating water quality of variously polluted rivers. Oceanol. Hydrobiol. Studies. 38(1): 17–26. http://dx.doi.org/10.2478/v10009-009-0012-x10.2478/v10009-009-0012-x Search in Google Scholar

[53] Szczepocka, E., Kruk, A. & Rakowska B. (2014). Can tolerant diatom taxa be used for effective assessments of human pressure? River Res. Applic. 1–11, DOI: 10.1002/rra.2744. 10.1002/rra.2744 Search in Google Scholar

[54] Szulc, B. (2007). Benthic diatoms of the Pilica River 50 years ago and today. Oceanol. Hydrobiol. Studies 36(1): 221–226. Search in Google Scholar

[55] Taylor, J. C., Vuuren, M. S. & Pieterse A. J. H. (2007). The application and testing of diatom-based indices in the Vall and Wilge Rivers, South Africa. Water S.A. 33: 51–59. 10.4314/wsa.v33i1.47871 Search in Google Scholar

[56] Tison, J., Park, Y.S., Coste, M., Wasson, J.G., Ector, L., Rimet, F. & Delmas F. (2005). Typology of diatom communities and the influence of hydro-ecoregions: A study on the French hydrosystem scale. Water Research 39: 3177–3188. http://dx.doi.org/10.1016/j.watres.2005.05.02910.1016/j.watres.2005.05.02916002120 Search in Google Scholar

[57] Van Dam, H., Mertens, A. & Sinkeldam J. (1994). A coded checklist and ecological indicator values of freshwater diatoms from the Nertherlands. Nether. Jour. of Aquatic Ecol., 28(1): 117–133. http://dx.doi.org/10.1007/BF0233425110.1007/BF02334251 Search in Google Scholar

[58] Venkatachalapathy, R., Nadhakumar, G. & Karthikeyan P. (2013). Diatom community structure in relation to physico-chemical factors in Yercaud Lake, Salem District, Tamil Nadu, India. I J I T E E 2(4): 220–222. Search in Google Scholar

[59] Wojtal, A. W. & Sobczyk, Ł. (2012). The influence of substrata and physicochemical factors on the composition of diatom assemblages in karst springs and their applicability in water-quality assessment. Hydrobiol. 695: 97–108. http://dx.doi.org/10.1007/s10750-012-1203-010.1007/s10750-012-1203-0 Search in Google Scholar

[60] Zgrundo, A. & Bogaczewicz-Adamczyk B. (2004). Applicability of diatom indices for monitoring water qualityu in coastal streams in the gulf of Gdańsk region, Northern Poland. Oceanol. St. 33(3): 31–46. Search in Google Scholar

[61] Żelazna-Wieczorek, J. (2011). Diatom flora in springs of Lodz Hills (Central Poland). Biodiversity, taxonomy, and temporal changes of epipsammic diatom assemblages in springs affected by human impact. In A. Witkowski (ed), Diatom Monographs 13 (pp 156), Gantner Verlag: Ruggell. Search in Google Scholar

[62] Żelazowski, E., Magiera, M., Kawecka, B., Kwadrans, J. & Kotowicz J. (2004). Use of algae for monitoring rivers in Poland — in the light of a new law for environmental protection. Oceanol. St. 33(4): 27–39. Search in Google Scholar