The Variability of the Planktonic Algae Biomass and Their Species Structure in the Ponds of the Park and Palace Complex in Żywiec

Jachniak, Ewa; Młyniuk, Agata

doi:10.12911/22998993/109868

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Tytuł artykułu

The Variability of the Planktonic Algae Biomass and Their Species Structure in the Ponds of the Park and Palace Complex in Żywiec

Autorzy

Jachniak Ewa , Młyniuk Agata

Treść / Zawartość

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8_Jachniak_The_Variability_JEE_2019_7.pdf

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DOI

10.12911/22998993/109868

Warianty tytułu

Języki publikacji

Abstrakty

The aim of this research was the analysis of the species composition and planktonic algae biomass in the ponds of Habsburg Park in Żywiec. So far, the urban park ponds have been rarely studied (especially in Poland) in this respect. The analyses of the park ponds water in Żywiec were conducted during the vegetation season in 2016, in monthly intervals. The phytoplankton biomass was calculated by comparing the shape of algae to geometrical figures and based on the chlorophyll a concentrations. The chlorophyll a concentrations and values of the planktonic algae biomass remained at a low level. The species composition showed the dominance of diatoms (i.a. Achnanthes lanceolate (Brébisson ex Kützing) Grun. in Cl. & Grun., Encyonema sp. (Kützing) Krammer). The highest values of the planktonic algae biomass were observed in the summer season. The ponds in the Habsburgs Park in Żywiec have great aesthetic and recreational values and therefore more frequent monitoring is necessary.

Słowa kluczowe

planktonic algae biomass urban park ponds

Wydawca

Polskie Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology

Czasopismo

Journal of Ecological Engineering

Rocznik

2019

Tom

Vol. 20, nr 7

Strony

53--60

Opis fizyczny

Bibliogr. 60 poz., rys., tab.

Twórcy

autor

Jachniak Ewa

ejachniak@ath.bielsko.pl

Institute of Environmental Protection and Engineering, University of Bielsko-Biala, Poland

autor

Młyniuk Agata

Institute of Environmental Protection and Engineering, University of Bielsko-Biala, Poland

Bibliografia

1. Bora A., Gogoi H.K., Veer V. 2016. Algal Wealth of Northeast India. In: Purkayastha J. (Ed.). Bioprospecting of Indigenous Bioresources of North-East India. Springer Science+Business Media Singapore, 215–228.
2. Bubak I., Bogaczewicz-Adamczak B. 2005. Fossil diatoms and chrysophyceae cysts as indicators of palaeocological changes in Lake Ostrowite (Tuchola Pinewoods). Oceanol. Hydrob iol. St., 34(3), 269–286.
3. Bubíková K., Hrivnák R. 2018. Comparative Macrophyte Diversity of Waterbodies in the Central European landscape. Wetlands, 38, 451–459.
4. Burchardt L., Pawlik-Skowrońska B. 2005. Blooms of cyanobacteria – interspecies competition and environmental threat. Botanical news, 49(1/2), 39–49. (in Polish).
5. Burchardt L., Messyasz B., Mądrecka B. 2006. Green algae population changes in fish ponds. Teka Kom. Ochr. Kszt. Środ. Przyr., 3, 30–34.
6. Bucka H., Wilk-Woźniak E. 2007. Proand eukaryotic algae of phytoplankton communities in reservoirs water in southern Poland. Institute of Freshwater Biology – PAN, Krakow. (in Polish).
7. Chomutowska H., Krzyściak-Kosińska R. 2015. Plankton of selected ponds in the Bialowieza Forest. Ecological Engineering, 42, 1–9. (in Polish).
8. Cox E.J. 1999. Identification of Freshwater Diatoms from Live Material. Chapman and Hall, London.
9. Danielsen R. 2010. Dissimilarities in the recent histories of two lakes in Portugal explained by local-scale environmental processes. J. Paleolimnol., 43, 513–534.
10. Dimitrov. D., Stoyneva M., Ivanov D. 2011. Sofia. In: Kelcey J.G., Müller N. (Eds.). Plants and Habitats of European Cities. Springer Science+Business Media, LLC, 453–475.
11. Dojlido J.R. 1995. Chemistry of surface water. Publishing Company Economics and the Environment, Bialystok. (in Polish).
12. Ejsmont-Karabin J., Kuczyńska-Kippen N. 2001. Urban rotifers: structure and densities of rotifer communities in water bodies of the Poznan agglomeration area (western Poland). Hydrobiologia, 446/447, 165–171.
13. Falasco E., Ector L. Ciaccio E., Hoffmann L., Bona F. 2012. Alpine freshwater ecosystems in a protected area: a source of diatom diversity. Hydrobiologia, 695, 233–251.
14. Fernández C., Estrada V., Parodi E.R. 2015. Factors Triggering Cyanobacteria Dominance and Succession During Blooms in a Hypereutrophic Drinking Water Supply Reservoir. Water Air Soil Poll., 226(73), 1–13.
15. Forsström L., Sorvari S., Korhola A., Rautio M. 2005. Seasonality of phytoplankton in subarctic Lake Saanajärvi in NW Finnish Lapland. Polar Biol., 28, 846–861.
16. Gąbka M., Dolata P.T. 2010. Rare and endangered communities of the hydrophyte in fish ponds in southern Wielkopolska. Physiographic Research, ser. B – Bot., 01(B59), 075–096. (in Polish).
17. Goswami S.N., Trivedi R.K., Saha S., Mandal A., Jana S. 2017. A study on plankton diversity of three urban ponds in Kolkata of West Bengal State, India. Int. J. Adv. Biol. Research., 7(4), 687–691.
18. Heinonen P. 1980. Quantity and composition of phytoplankton in Finnish inland waters. Nat. Board of Waters., 37, 1–91.
19. Hindák F. 1996. Key to the unbranched filamentous green algae (Ulotrichineae, Ulotrichales, Chlorophyceae). Bul Slov Bot Spol Pri Sav. Suppl., 1, 1–77.
20. Jachniak E., Holubčík M., Ćmiel M., Gazda K. 2015. Evaluation of the water trophic state of Wapienica dam reservoir. Ecological Engineering, 41, 181–187. (in Polish).
21. Jaguś A. 2011. Assessment of trophic state of water in Sola cascade dam reservoirs. Proc. of ECOpole., 5(1), 233–238. (in Polish).
22. Jaguś A. 2017. Soła River dam cascade as a source of tap-water. Acta Geogr. Silesiana, 11/3(27), 25– 30. (in Polish).
23. Jarvinen M., Drakare S., Free G., Lyche-Solheim A., Phillips G., Skjelbred B., Mischke U., Ott I., Poikane S., Søndergaard M., Pasztaleniec A., Wichelen J.V., Portielje R. 2013. Phytoplankton indicator taxa for reference conditions in Northern and Central European lowland lakes. Hydrobiologia, 704, 97–113.
24. Kawecka B., Eloranta P.V. 1994. Outline of the ecology of the freshwater and terrestrial environments algae. PWN, Warszawa. (in Polish).
25. Keatley B.E., Douglas M.S.V., Blais J.M., Mallory M.L., Smol J.P. 2009. Impacts of seabird-derived nutrients on water quality and diatom assemblages from Cape Vera, Devon Island, Canadian High Arctic. Hydrobiologia, 621, 191–205.
26. Kozak A., Gołdyn R., Dondajewska R., Kowalczewska-Madura K., Holona T. 2017. Changes in phytoplankton and water quality during sustainable restoration of an urban lake used for recreation and water supply. Water, 9(713), 1–16.
27. Ligęza S., Wilk-Woźniak E. 2011. The occurrence of a Euglena pascheri and Lepocinclis ovum bloom in an oxbow lake in southern Poland under extreme environmental conditions. Ecol. Indic., 11, 929–939.
28. Lund J.W.G., Kipling C., Le Gren E.D. 1958. The inverted microscope method of estimating algal numbers and the statistical basis of estimation by counting. Hydrobiologia, 1, 144–170.
29. Messyasz B., Jurgońska M. 2003. Species structure of the phytoplankton in the annual cycle in large and small ponds (Park Sołacki, Poznań). Annals of the Agricultural Academy in Poznan – CCCLIV Bot., 6, 131–145. (in Polish).
30. Miodoński M. 2012. Three days in Żywiec: a guide for a walking tourist. Żywia, Żywiec. (in Polish).
31. Mukhutdinov V.F., Butakova E.A. 2012. Production characteristics of phytoplank ton in early years of the existence of Yuma guzin Reservoir. Inland Water Biol., 5(4), 317–321.
32. Nishino H., Hodoki Y., Thottathil S.D., Ohbayashi K., Takao Y., Nakano S. 2015. Identification of species and genotypic compositions of Cryptomonas (Cryptophyceae) populations in the eutrophic Lake Hira, Japan, using single-cell PCR. Aquat. Ecol., 49, 263–272.
33. OECD. 1982. Eutrophication of waters. Monitoring, assessment and control. OECD, Paris.
34. Peretyatko A., Teissier S., Symoens J-J., Triest L. 2007. Phytoplankton biomass and environmental factors over a gradient of clear to turbid peri-urban ponds. Aquat. Conserve. marine and freshwater ecosystems, 17, 584–601.
35. Picińska-Fałtynowicz J., Błachuta J. 2012. The key to identify phytoplankton organisms from rivers and lakes for monitoring purposes of surface water bodies in Poland. Library of Environmental Monitoring, Warszawa. (in Polish).
36. Polish standardization, measurement and quality committee. Polish Standard: Determination of the chlorophyll a concentration by spectrophotometric method. PN–86/C– 5560.02, Warsaw (in Polish).
37. Poviat Eldership in Żywiec. 2013. Strategy for sustainable socio-economic development of the Żywiecki poviat for the years 2006–2020, Update. Poviat Eldership in Żywiec, Żywiec. (in Polish).
38. Ptacnik R., Solimini A., Brettum P. 2009. Performance of a new phytoplankton composition metric along a eutrophication gradient in Nordic lakes. Hydrobiologia, 633, 75–82.
39. Rakowska B., Sitkowska M., Szczepocka E., Szulc B. 2005. Cyanobacteria water blooms associated with various eukaryotic algae in the Sulejow reservoir. Oceanol. Hydrobiol. St., 34(1), 31–38.
40. Reynolds C.S. 2000. Phytoplankton designer – or how to predict compositional responses to trophic – state change. Hydrobiologia, 424, 123–132.
41. Reynolds C.S., Jaworski G.H.M., Roscoe J.V., Hewitt D.P., George D.G. 1998. Responses of the phytoplankton to a deliberate attempt to raise the trophic status of an acidic, oligotrophic mountain lake. Hydrobiologia, 369/370, 127–131.
42. Rodrigues Amaral da Costa M., Attayde J.L., Becker V. 2015. Effects of water level reduction on the dynamics of phytoplankton functional groups in tropical semi-arid shallow lakes. Hydrobiologia, 778(1), 75–89.
43. Rott E. 1981. Some results from phytoplankton counting intercalibrations. Schweiz. Z. Hydrol. Birkhäuser Verlag Basel., 43(1), 34–62.
44. Saha S., Saha T., Basu1 P. 2017. Seasonal changes in zooplankton and macro-fauna populations of the East Calcutta Wetland Fish Ponds. Proc. Zool. Soc., 70(2), 156–164.
45. Salmaso N., Boscaini A., Capelli C., Cerasino L. 2017. Ongoing ecological shifts in a large lake are driven by climate change and eutrophication: evidences from a three-decade study in Lake Garda. Hydrobiologia, 824(1), 177–195.
46. Siemińska J. 1964. The freshwater flora of Poland. Bacillariophyceae. PWN, Warszawa. (in Polish).
47. Starmach K. 1989. The phytoplankton of freshwater. The methods of research and keys to identification of species occurring in water of Central Europe. PWN, Warsaw-Krakow. (in Polish).
48. Starmach J., Mazurkiewicz-Boroń G. 2000. Dobczycki reservoir. Ecology – Eutrophication – Protection. Institute of Freshwater Biology – PAN, Krakow. (in Polish).
49. Słomka T., Słomka E. 2007. Geotouristic and tourist attractions of Żywiec. Geotourism, 4(11), 13–22. (in Polish).
50. Szczurowska A. 2003. Flora of peat bogs of the “Międzyrzeki” reserve in the Roztoczański National Park. Acta Agrophysica, 1(3), 569–574. (in Polish).
51. Wang Q., Yang X., Kattel G.R. 2018. Within-lake spatio-temporal dynamics of cladoceran and diatom communities in a deep subtropical mountain lake (Lugu Lake) in southwest China. Hydrobiologia, 820, 91–113.
52. Wilk-Woźniak E. 2003. Phytoplankton – formation reflecting variation of trophy in dam reservoirs. Proc. of the XX th International Phycological Symposium, 24–27 September 2001 (Ecohydrol. and Hydrobiol., 3(2)), 213–219.
53. Wilk-Woźniak E., Ligęza S. 2003. Phytoplankton – nutrient relationships during the early spring and the late autumn in a shallow and polluted reservoir. Oceanol. Hydrobiol. St., 32(1), 75–87.
54. Wilk-Woźniak E., Pociecha A., Ciszewski D., AleksanderKwaterczak U., Walusiak, E. 2011. Phytoand zooplankton in fishponds contaminated with heavy metal runoff from a lead-zinc mine. Oceanol. Hydrobiol. St., 40(4), 77–85.
55. Wojciechowska W., Lenard T. 2014. Effect of extremely severe winters on under-ice phytoplankton development in a mesotrophic lake (Eastern Poland). Oceanol. Hydrobiol. St., 43(2), 147–153.
56. Wołowski K. 2011. Preliminary studies on euglenes and other algae of the Wołosate peatbog in the Bieszczady National Park. Fragmenta Floristica Geobotanica Polonica, 18(1), 131–146. (in Polish).
57. Wołowski K., Kowalska J. 2009. Euglenines and other algae in the flora of the autumn pond in the Botanical Garden of the Jagiellonian University. Fragmenta Floristica et Geobotanica Polonica, 16(1), 145–154. (in Polish).
58. ZhengJian Y., DeFu L., DaoBin J., ShangB in X., YuLing H., Jun M. 2013. An eco-environ mental friendly operation: An effective method to mitigate the harmful blooms in the tributary bays of Three Gorges Reservoir. Science China. Techn olog Sciences, 56(6), 1458–1470.
59. Żywotko H. 2000. Guide: the trees of the historic Habsburg Park in Żywiec. Publishing House Henryk Żywotko, Żywiec. (in Polish).
60. google.maps. Retrieved 5. 11. 2018, from www. google.maps.

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