Optical Properties of Polish Lakes: The Secchi Disc Transparency

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The spatial variation of water transparency of the largest Polish lakes was presented on the basis of documentary material collected by the Voivodeship Inspectorates for Environment Protection as well as university geography departments in the period of 1991-2013. Seasonal results of the Secchi disc measurements (spring, summer) for 706 lakes were gathered. This is more than 68% of the total number of Polish lakes with a surface area larger than 50 ha. The mean water transparency of these lakes was 1.87 m, while the median was 1.58 m. Distinct inter-regional differences of the Secchi disc transparency were found, and it was also possible to distinguish three relatively homogeneous groups of macroregions where lakes have different optical characteristics. They can be divided into areas with lakes with high (3.05 m), medium (1.99-2.11 m) and low (1.22-1.52 m) water transparency. The Secchi disc transparency of these lakes was also analysed in relation to concentration values of the main forms of the optically significant constituents of water (coloured dissolved organic matter, suspended matter). The mean transparency of turbid, stained and clear lakes was, respectively, 1.16, 2.02, and 2.92 m. Moreover, regional empirical models to predict Secchi disc transparency from chlorophyll a concentration were also developed. It was assumed that inter-regional differences between models could be due to the probably different time of the ice sheet recession. The influence of the lake morphometry was most fully reflected in the impact of the depth conditions.

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  • Arst H. Erm A. Herlevi A. Kutser T. Leppaeranta M. Reinart A. Virta J. 2008 Optical properties of boreal lake waters in Finland and Estonia Boreal Environ. Res. 13(2): 133-158.

  • Birge E.A. Juday C. 1912 A limnological study of the Finger Lakes of New York Bull. U.S. Bur. Fish. 27: 529-609.

  • Birge E.A. Juday C. 1933 The transparency the color and the specific conductance of the lake waters of northeastern Wisconsin Trans. Wis. Acad. Sci. Arts Lett. 28: 205- 259.

  • Bogoslovskii B.B. 1960 Schema gidrologicheskoi klassifikatsii ozer i raionirovanie ozer SSSR (Scheme of the hydrological classification of lakes and lakes zoning in the USSR) Vestnik Mosk. Univ. Ser. 5: Geografiia 2: 18-36 (in Russian).

  • Borowiak D. 2005 Visibility of Secchi disk in lakes of Eastern Pomerania: The role of chlorophyll a and turbidity Limnol. Rev. 5: 3-9.

  • Borowiak D. 2011 W.a.ciwo.ci optyczne wod jeziornych Pomorza (Optical properties of the Pomeranian lake waters) Wyd. UG Gda.sk p. 275 (in Polish English summary).

  • Brezonik P.L. 1978 Effect of organic colour and turbidity on Secchi disc transparency J. Fish. Res. Board Can. 35(11): 1410-1416.

  • Caffrey A.J. Hoyer M.V. Canfield D.E. 2007 Factors affecting the maximum depth of colonization by submersed macrophytes in Florida lakes Lake Reserv. Manege. 23: 287-297.

  • Canfield D.E. Hodgson L.M. 1983 Prediction of Secchi disc depths in Florida lakes: Impacts of algal biomas and organic color Hydrobiologia 99(1): 51-60.

  • Carlson R.E. 1977 A trophic state index for lakes Limnol. Oceanogr. 22(2): 361-369.

  • Chambers P.A. Kalff J. 1985 Depth distribution and biomass of submersed aquatic macrophyte communities in relation to Secchi depth Can. J. Fish. Aquat. Sci. 42(4):701-709.

  • Delebecque A. 1898 Les lacs francais Typographie Chamerot et Renouard Paris p. 436 (in French).

  • Dillon P.J. Rigler F.H. 1975 A simple method for predicting the capacity of a lake for development based on lake trophic status J. Fish. Res. Bd. Can. 32(9): 1519-1531.

  • Edmondson W.T. 1980 Secchi disc and chlorophyll Limnol. Oceanogr. 25(2): 378-379

  • Ekman S. 1915 Die Bodenfauna des Vattern qualitativ und quantitativ untersucht Int. Rev. Ges. Hydrobiol. Hydrogr. 7(4-5): 275-425 (in German).

  • Erlandsson C.P. Stigebrandt A. 2006 Increased utility of the Secchi disk to assess eutrophication in coastal waters with freshwater run-off J. Marine Stst. 60(1-2): 19-29.

  • Ficek D. 2013 W.a.ciwo.ci biooptyczne wod jezior Pomorza oraz ich porownanie z w.a.ciwo.ciami wod innych jezior i Morza Ba.tyckiego (Bio-optical properties of waters in Pomeranian lakes and their comparison to optical properties of other lakes waters and the Baltic Sea) Rozpr. Monogr. 23/2013 PAN IO Sopot p. 351 (in Polish English summary).

  • Forel F.-A. 1877 Etude sur les variations de la transparence des eaux du lac Leman Arch. Sci. Phys. Nat. 59: 137

  • Forel F.-A. 1895 Le Leman. Monographie limnologique. Vol. 2 F. Rouge Lausanne p. 651 (in French).

  • Garbini A. 1897 Alcune notizie fisiche sulle acque del Benaco Rivista Geogr. Ital. 4(3): 80-101 (in Italian).

  • Halbfass W. 1901 Beitrage zur Kenntnis der Pommerschen Seen Peterm. Mitteil. Erganzungsheft 136: 1-132 (in German).

  • Hassert K. 1912 Seenstudien in Nordkamerun Zeitschr. Ges. Erdk. Berlin 1912(1/2): 7-41 135-144 (in German).

  • Hakanson L. 2004 Lakes: Form and function Blackburn Press Caldwell p. 201.

  • Hillbricht-Ilkowska A. Kajak Z. 1986 Parametry i wska.niki przydatne do kontroli zmian zmian funkcjonalnych i strukturalnych w ekosystemach jeziornych ulegajcych procesowi eutrofizacji (Parameters and indices useful in controlling functional and structural changes in lakes undergoing eutrophication) [in:] Hillbricht-Ilkowska A. (ed.) Monitoring ekosystemow jeziornych (Monitoring of lake ecosystems) Ossolineum Wrocaw-Warszawa p. 23-45 (in Polish English summary).

  • Jaczak J. (ed.) 1996 Atlas jezior Polski. T. 1: Jeziora Pojezierza Wielkopolskiego i Pomorskiego w granicach dorzecza Odry (Atlas of the Polish lakes. Vol. 1: Lakes of the Greater Poland and Pomeranian Lakelands within the Oder River drainage basin) Bogucki Wyd. Nauk. Pozna. p. 268 (in Polish).

  • Jaczak J. (ed.) 1997 Atlas jezior Polski. T. 2: Jeziora zlewni rzek Przymorza i dorzecza dolnej Wis.y (Atlas of the Polish lakes. Vol. 2: Lakes of the Pomeranian river catchments and Lower Vistula River drainage basin) Bogucki Wyd. Nauk. Pozna. p. 256 (in Polish).

  • Jańczak J. (ed.) 1999 Atlas jezior Polski. T. 3: Jeziora Pojezierza Mazurskiego i Polski południowej (Atlas of the Polish lakes. Vol. 3: Lakes of the Masurian Lakeland and southern Poland) Bogucki Wyd. Nauk. Poznań p. 240 (in Polish).

  • Juday C. 1915 Limnological studies on some lakes in Central America Trans. Wis. Acad. Sci. Arts Lett. 18: 214- 259.

  • KoenigsJ.P. Edmundson J.A. 1991 Secchi disk and photometer estimates of light regimes in Alaskan lakes: Effects of yellow color and turbidity Limnol. Oceanogr. 36(1): 91-105.

  • Kondracki J. 2011 Geografia regionalna Polski (Regional geography of Poland) Wyd. PWN Warszawa p. 444 (in Polish).

  • Kubiak J. 2003 Największe dimiktyczne jeziora Pomorza Zachodniego. Poziom trofii podatność na degradację oraz warunki siedliskowe ichtiofauny (The largest dimictic lakes of the West Pomerania. Trophic state vulnerability to degradation and ichthyofauna biotopic conditions) Rozpr. AR Szczec. 214 Wyd. AR Szczecin p. 96 (in Polish English summary).

  • Kufel L. 1999 Dimictic versus polymictic masurian lakes: Similarities and differences in chlorophyll-nutrients-SD relationships Hydrobiologia 408/409: 389-394.

  • Liburnau J.R. 1898 Der Hallstätter See. Eine limnologische Studie Mittheil. Kais. Königl. Geogr. Ges. 41: 1-218 (in German).

  • Lityński A. 1926 Studja limnologiczne na Wigrach (Limnological studies in Lake Wigry) Arch. Hydrobiol. Ryb. 1(1-2): 1-78 (in Polish German summary).

  • Luhtala H. Tolvanen H. 2013 Optimizing the use of Secchi depth as a proxy for euphotic depth in coastal waters: An empirical study from the Baltic Sea ISPRS Int. J. Geo-Inf. 2: 1153-1168.

  • Marks L. 2012 Timing of the late Vistulian (Weichselian) glacial phases in Poland Quater. Sci. Rev. 44: 81-88.

  • Marszelewski W. 2001 Jeziora Pojezierza Dobrzyńskiego (Lakes of Dobrzyńskie Lakeland) Wyd. UMK Toruń p. 139 (in Polish English summary). Meek S.E. 1908 The zoology of Lakes Amatitlan and Atitlan Guatemala with special reference to ichtiology Field Columbian Museum Publ. 127 Zool. Ser. 7(6): 159-206.

  • Milius A. Starast H. 1999 Correlations between limnological variables of Estonian lakes Proc. Estonian Acad. Sci. 48(2): 117-129.

  • Nordquist O. 1910 Über des Eindringen des Lichtes in von Eis und Schnee bedeckten Seen Int. Rev. Ges. Hydrobiol. Hydrogr. 3(1-2): 79-83.

  • Padial A.A. Thomaz S.M. 2008 Prediction of the light attenuation coefficient through the Secchi disc depth: empirical modeling in two large Neotropical ecosystems Limnology 9(2): 143-151.

  • Preisendorfer R.W. 1986 Sccchi disk science: Visual optics of natural waters Limnol. Occanogr. 31(5): 909-926.

  • Sawicki L. Minkiewicz S. 1909 Sprawozdanie tymczasowe z badań jezior tatrzańskich (Interim report on the Tatra lakes studies) Okólnik Ryb. 108: 338-359 (in Polish).

  • Schindler D.W. 1971 Light temperature and oxygen regimes of selected lakes in the experimental lakes area northwestern Ontario J. Fish. Res. Bd. Can. 28: 157-169.

  • Stangenberg M. 1936 Szkic limnologiczny na tle stosunków hydrochemicznych Pojezierza Suwalskiego. Suchar i Jeziorko jako stadjum przejściowe zanikania jezior (Limnological study against the hydrochemical conditions of the Suwałki Lakeland. Lakes Suchar and Jeziorko as a transitional stage of lake disappearance) Pr. Inst. Bad. Lasów Państw. A 19: 1- 85 (in Polish German summary).

  • Szaflarski J. 1936 Przeÿroczystość i barwa wód jezior tatrzańskich (Transparency and colour of the Tatra lakes' waters) Wiad. Służby Geogr. 10(3): 387-394 (in Polish German summary).

  • Tilzer M.M. 1988 Secchi disk - chlorophyll relationships in a lake with highly variable phytoplankton biomas Hydrobiologia 162(2): 163-171.

  • Ule W. 1898 Beitrag zur physikalischen Erforschung der baltischen Seen Forschungen zur deutschen Landesund Volkskunde 11(2): 21-72 (in German).

  • Ule W. 1901 Der Würmsee (Starnbergersee) in Oberbayern. Eine limnologische studie Duncker & Humbolt Leipzig p. 211 (in German).

  • Whipple G.C. 1899 The microscopy of drinking water Wiley & Sons New York p. 300.

  • Wysota W. Lankauf K.R. Szmańda J. Chruścińska A. Oczkowski H.L. Przegiętka K.R. 2002 Chronology of the Vistulian (Weichselian) glacial events in the Lower Vistula region Middle-north Poland Geochronometria 21: 137-142.

  • Zacharias O. 1896 Quantitative Untersuchungen über das Limnoplankton Forschungsberichte aus der Biol. Station zu Plön 4: 1-64 (in German).

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