The physicochemical background for the development of potentially harmful cyanobacterium Gloeotrichia echinulata J. S. Smith ex Richt

• Autorzy: Napiorkowska-Krzebietke A. , Hutorowicz A.
• Języki publikacji: EN

Abstrakty

EN

This study focused on site-specific preferences of potentially harmful cyanobacterium Gloeotrichia echinulata to occur in lakes with different ecological and trophic conditions. Its pelagic growth was studied in six lakes from June to September in 1986-1988, 2000-2001 and 2009. In total, 78 samples were taken from the epilimnion (stratified lakes) or the whole water column (non-stratified lakes). Analyses of phytoplankton and environmental variables were performed according to standard methods. During summer, a distinct maximum of the Gloeotrichia growth was observed in July or August (the warmest period). Bloom events of G. echinulata occurred in lakes where the light and oxygen conditions were significantly inferior while the phosphorus content remained on a slightly elevated level. The distinct domination of this cyanobacterium (above 40% of the total phytoplankton biomass) was limited to lakes with a high, moderate or even poor ecological status, and to the meso-eutrophic or eutrophic state of lakes. However, G. echinulata occurred in a broader range of ecological and trophic conditions of lakes. The historical approach to mass occurrence of G. echinulata, with its possible contribution to phosphorus translocation from sediment to the pelagic zone, suggested its importance as an indicator of progressive ecological and trophic deterioration of lakes. This indication should be very useful for establishment of main targets in water management.

Słowa kluczowe

EN

water management; alga; bloom; Cyanoprokaryota; Gloeotrichia echinulata; trophy; lake

• Wydawca: -
• Czasopismo: Journal of Elementology
• Rocznik: 2015
• Tom: 20
• Numer: 2
• Opis fizyczny: p.363-376,fig.,ref.

Twórcy

autor

Napiorkowska-Krzebietke A.

• Department of Hydrobiology, Inland Fisheries Institute, Oczapowskiego Street 10, 10-719 Olsztyn, Poland

autor

Hutorowicz A.

• Department of Hydrobiology, Inland Fisheries Institute in Olsztyn, Olsztyn, Poland

Bibliografia

• Burns N., McIntosh J., Sch oles P. 2005. Strategies for Managing the Lakes of the Rotorua District, New Zealand. Lake Reserv. Manage., 21(11): 61-72.
• Carey C.C., Ewing H.E., Cottingham K.L., Weathers K.C., Thomas R.Q., Haney J.F. 2012. Occurrence and toxicity of the cyanobacterium Gloeotrichia echinulata in low-nutrient lakes in the northeastern United States. Aquat. Ecol., 46: 395-409.
• Carey C.C., Weathers K.C., Cottingham K.L. 2008. Gloeotrichia echinulata bloom in an oligotrophic lake: helpful insights from eutrophic lakes. J. Plankton Res., 30(8): 893-904.
• Carlson R.E. 1977. A trophic state index for lakes. Limnol. Oceanogr., 22: 361-369.
• CEN 2006. EN 15204: Water quality – Guidance standard for the routine analysis of phytoplankton abundance and composition using inverted microscopy (Utermöhl technique). European Committee for Standardization, Brussels.
• Commission Decision of 20 September 2013 establishing, pursuant to Directive 2000/60/EC of the European Parliament and of the Council, the values of the Member State monitoring system classifications as a result of the intercalibration exercise and repealing Decision 2008/915/EC. Official Journal of the European Union 2013/480/EU.
• Forsell L., Pettersson K. 1995. On the seasonal migration of the cyanobacterium Gloeotrichia echinulata in Lake Erken, Sweden, and its influence on the pelagic population. Mar. Freshwat. Res., 46(1): 287-293.
• Grabowska M., Glińska-Lewczuk K., Obolewski K., Burandt P., Kobus Sz., Dunalska J., Kujawa R., Goździejewska A., Skrzypczak A. 2014. Effect of hydrological and hydrochemical factors on the qualitative and quantitative structure of phytoplankton communities in selected floodplain lakes in the Middle Basin of the Biebrza River, NE Poland. Pol. J. Environ. Stud., 23(3): 713-725.
• Hutorowicz A., Napiórk owska-Krzebietke A., Pasztaleniec A., Hutorowicz J., Lych e Solheim A., Skj elbred B. 2011. Phytoplankton. In: Ecological status assessment of the waters in the Wel river catchment. Guidelines for integrated assessment of ecological status of rivers and lakes to support river basin management plans. Soszka H. (ed.). IFI Olsztyn, 143-168. (in Polish with English summary)
• Istvanovics V., Pettersson K., Rodrigo M.A., Pierson D., Padisák J., Colom W. 1993. Gloeotrichia echinulata, a colonial cyanobacterium with a unique P uptake and life strategy. J. Plankton Res., 15: 531-552.
• Jacobsen B.A. 1994. Bloom formation of Gloeotrichia echinulata and Aphanizomenon flos- -aquae in a shallow, eutrophic, Danish lake. Hydrobiologia, 289: 193-197. DOI: 10.1007/BF00007420
• Jakubowska N., Zagajewski P., Gołdyn R. 2013. Water blooms an cyanobacterial toxins in lakes. Pol. J. Environ. Stud., 22(4): 1077-1082.
• Karlsson-Elfgren I., Hyenstrand P., Riydin E. 2005. Pelagic growth and colony division of Gloeotrichia echinulata in Lake Erken. J. Plankton Res., 27(2): 145-151. DOI: 10.1093/plankt/fbh165
• Karlsson-Elfgren I., Rengefors K., Gustafsson S. 2004. Factors regulating recruitment from the sediment to the water column in the bloom-forming cyanobacterium Gloeotrichia echinulata. Freshwater Biol., 49(3): 265-273.
• Kobos J., Błaszczyk A., Hohlfeld N., Toruńska-Sitarz A., Krakowiak A., Hebel A., Stryk K., Grabowska M., Toporowska M., Kokociński M., Messyasz B., Rybak A., Napiórkowska-Krzebietke A., Nawrocka L., Pełechata A., Budzyńska A., Zagajewski P., Mazur-Marzec H. 2013. Cyanobacteria and cyanotoxins in Polish freshwater bodies. Oceanol. Hydrobiol. St., 42(4): 358-378. DOI: 10.2478/s13545-013-0093-8
• Kratzer C.R., Brezonik P.L. 1981. A Carlson‑type trophic state index for nitrogen in Florida lakes. Water Res. Bull., 17: 713-715.
• Napiórk owska-Krzebietke A., Hutorowicz A. 2005. Long-term changes of phytoplankton in Lake Mamry Północne. Oceanol. Hydrobiol. St., 34(3): 217-228.
• Napiórk owska-Krzebietke A., Hutorowicz A. 2006. Long-term changes of phytoplankton in Lake Niegocin, in the Masurian Lake Region, Poland. Oceanol. Hydrobiol. St., 35(3): 209-226.
• Napiórk owska-Krzebietke A., Hutorowicz A. 2007. Long-term changes in the biomass and composition of phytoplankton in a shallow, flow-through lake Kirsajty (Masurian Lakeland, Poland). Pol. J. Natur. Sci., 22: 512-524.
• Napiórk owska-Krzebietke A., Pasztaleniec A., Hutorowicz A. 2009. Phytoplankton – element in ecological status assessment for lakes of the Wel river catchment area. Teka Kom. Ochr. Kszt. Środ. Przyr. – OL PAN, 6: 200-205.
• Napiórk owska-Krzebietke A., Pasztaleniec A., Hutorowicz A. 2012. Phytoplankton metrics response to the increasing phosphorus and nitrogen gradient in shallow lakes. J. Elem., 17(2): 289-303. DOI: 10.5601/jelem.2012.17.2.11
• Napiórkowska-Krzebietke A., Wierzchowska M., Błocka B., Hutorowicz J., Hutorowicz A., Zdanowski B. 2007. Changes in the trophic state of Lake Niegocin after the modernization of a local wastewater treatment plant. Limnol. Rev., 7(3): 153-159.
• Napiórk owska-Krzebietke A., Staweck i K., Pyka J.P., Hutorowicz J., Zdanowski B. 2013. Phytoplankton in relation to water quality of a mesotrophic lake. Pol. J. Environ. Stud., 22(3): 793-800.
• Nõges T., Tõnno I., Laugaste R., Loigu E., Skakalski B. 2004. The impact of changes in nutrient loading on cyanobacterial dominance in Lake Peipsi (Estonia/Russia). Arch. Hydrobiol., 160(2): 261-279. DOI: 10.1127/0003-9136/2004/0160-0261
• Phillips G., Lych e-Solheim A., Skj elbred B., Mischk e U., Drakare S., Free G., Järvinen M., de Hoyos C., Morabito G., Poikane S., Carvalho L. 2013. A phytoplankton trophic index to assess the status of lakes for the Water Framework Directive. Hydrobiologia, 704(1): 75-95.
• Phillips G., Free G., Karottki I., Laplace-Treyture C., Maileht K., Mischk e U., Ott I., Pasztaleniec A., Portielje R., Søndergaard M., Trodd W., Van Wich elen J. 2014. Phytoplankton classification systems of Member States. In: Annex A of Water Framework Directive Intercalibration Technical Report – Central Baltic Lake Phytoplankton ecological assessment methods. Poikane S. (ed.) Publications Office of the European Union, Luxembourg.DOI:10.2788/73991
• Pitois S.G., Jack son M.H., Wood B.J.B. 1997. Summer bloom of Gloeotrichia echinulata and Aphanizomenon flos-aquae and phosphorus levels in Antermony Loch, central Scotland. Int. J. Environ. Heal. R., 7(2): 31-140.
• Regulation of the Minister of the Environment of 9 November 2011 on status classification of surface water bodies and environmental quality standards for priority substances. Official Journal of the Laws of 2011, No. 257, Item 1545.
• Reynolds C.S., Huszar V., Kruk C., Naselli-Flores L., Melo S. 2002. Towards a functional classification of the freshwater phytoplankton. J. Plankton Res., 5: 417-428. Standard Methods for Examination of Water & Wastewater 1999. Am. Publ. Health ASN., New York.
• Szász E., Pettersson K. 2000. Nitrogen uptake and fixation by phytoplankton in Lake Erken (Sweden) during summer. Verh. Internat. Verein. Limnol., 27: 1995-1999.
• Tymowski R., Duthie H.C. 2000. Life strategy and phosphorus relations of the cyanobacterium Gloeotrichia echinulata in an oligotrophic Precambrian shield lake. Arch. Hydrobiol., 148(3): 321-332.
• Wołos A., Zdanowski B., Wierzchowska M. 2009. Long-term changes in commercial fish catches in Lake Mamry Północne (northeastern Poland) on the background of physical, chemical, and biological data. Arch. Pol. Fish., 17: 195-210.
• Zdanowski B., Wołos A., Wierzchowska M. 2009. Change patterns in the trophic state of Lake Mamry Północne and Lake Niegocin (Masurian Lake District, Poland). Limnol. Rev., 9(1): 39-60.
• Zębek E. 2015. Response of planktonic cyanobacteria and periphyton assemblages to physicochemical properties of storm water in a shallow urban lake. J. Elem., 20(1): 231-245. DOI: 10.5601/jelem.2014.19.2.679

Identyfikatory

DOI

10.5601/jelem.2014.19.4.756