Changes in the benthic fauna composition in the Upper Vistula over the last 50 years : the consequences of the water pollution reduction and alien species invasion

• Autorzy: Dumnicka E. , Konopacka A. , Żurek R.

Identyfikatory

DOI

10.1515/ohs-2018-0029

• Języki publikacji: EN

Abstrakty

EN

The organic pollution of the Upper Vistula waters has been significantly reduced since the mid-20th century. Also salinity has gradually decreased, following an increase observed until the 1990s. Furthermore, the number of alien species has systematically increased. The above-mentioned changes have affected the richness and composition of the benthic fauna. They are particularly remarkable in the river stretch between the town of Oświęcim and the city of Kraków. The improvement of water quality has resulted in the increased number of taxa, mainly those characteristic of moderately polluted water, and the disappearance of taxa typical of strongly polluted or deoxygenated water. Despite the increased salinity level persisting for many years, only three benthic species of brackish waters (Gammarus tigrinus, Paranais frici and P. litoralis) were found in the Upper Vistula. Taxa considered to be euryhaline or halophilous were more numerous. In the 1960s, only one alien species (Physa acuta) was found, but the increased number of non-indigenous species in the last decades is visible, particularly among gammarid crustaceans (Amphipoda, Gammaroidea). The presence of alien species has not caused any visible changes in the species abundance of oligochaetes and mollusks.

Słowa kluczowe

EN

Vistula River; water pollution; salinity; benthos; Chaetogaster setosus

• Wydawca: Institute of Oceanography University of Gdańsk
• Czasopismo: Oceanological and Hydrobiological Studies
• Rocznik: 2018
• Tom: Vol. 47, No. 3
• Strony: 303--312
• Opis fizyczny: Bibliogr. 37 poz.

Twórcy

autor

Dumnicka E.

• Institute of Nature Conservation, Polish Academy of Sciences, Al. Adama Mickiewicza 33, 31-120 Kraków, Poland

autor

Konopacka A.

• Department of Invertebrate Zoology and Hydrobiology, University of Łódz, ul. Banacha 12/16, 90-237 Łódz, Poland

autor

Żurek R.

• Institute of Nature Conservation, Polish Academy of Sciences, Al. Adama Mickiewicza 33, 31-120 Kraków, Poland

Bibliografia

• [1]. Absalon, D. & Matysik, M. (2007). Changes in water quality and runoff in the Upper Oder River Basin. Geomorphology 92(34): 106–118.
• [2]. Alexandrowicz, S.W. (1986). Physa acuta Draparnaud, 1805, (Mollusca, Gastropoda) from the recent Vistula sediments at Tyniec near Cracow. Acta. zool. cracov. 29(15): 355–372.
• [3]. APHA (1992). American Public Health Association. Standard Methods for the Examination of Water and Wastewater, 18th ed. Washington, DC.
• [4]. Bącela, K., Grabowski, M. & Konopacka A. (2008). Dikerogammarus villosus (Sowinsky, 1894) (Crustacea, Amphipoda) enters Vistula – the biggest river in the Baltic basin. Aquat. Inv. 3(1): 95–98.
• [5]. Bombówna, M. & Wróbel, S. (1966). Chemical investigations on the river Vistula between the mouth of the Przemsza and Cracow. Acta Hydrobiol. 8(Suppl. 1): 321–343. (In Polish with English summary).
• [6]. Dumnicka, E. (2002). Upper Vistula River: Response of aquatic communities to pollution and impoundment. X. Oligochaete taxocens. Pol. J. Ecol. 50(2): 237–247.
• [7]. Dumnicka, E. (2009). New for Poland tubificid (Oligochaeta) species from karstic springs. Pol. J. Ecol. 57(2): 395–401.
• [8]. Dumnicka, E. (2016). Alien Naididae species (Annelida: Clitellata) and their role in aquatic habitats in Poland. Biologia 71(1): 16–23.
• [9]. Dumnicka, E. & Kownacki, A. (1988). A regulated river ecosystem in a polluted section of the Upper Vistula. 8. Macroinvertebrates. Acta Hydrobiol. 30(1/2): 81–97.
• [10]. Dziennik Ustaw (2016). Rozporządzenie Ministra Środowiska z dnia 21 lipca 2016 r. w sprawie sposobu klasyfikacji stanu jednolitych części wód powierzchniowych oraz środowiskowych norm jakości dla substancji priorytetowych. Dz.U. 2016, poz. 85. http://www.infor.pl/dziennik-ustaw/r2016/nr11
• [11]. Fauna Europaea. Retrieved November, 15, 2017 from https://fauna-eu.org
• [12]. Fruget, J.-F., Jézéquel, C., Archambaud, G., Dessaix J. & Roger, M.-C. (2015). Long-term effects of global and local changes on benthic macroinvertebrate communities in multi-stressed large rivers: the example of the Rhône River during the last 30 years. Knowl. Manag. Aquat. Ecosyst. 416(29): 1–19.
• [13]. Gajowiec, B. & Różkowski, J. (1988). Salinity of river waters within the Upper Vistula drainage basin. Kwart. Geol. 32(3–4): 715–728. (In Polish with English summary).
• [14]. Grabowski, M., Jażdżewski, K. & Konopacka, A. (2007). Alien Crustacea in Polish waters – Amphipoda. Aquat. Inv. 2(1): 25–38.
• [15]. Grabowski, M., Bacela, K., Konopacka, A. & Jazdzewski, K. (2009). Salinity-related distribution of alien amphipods in rivers provides refugia for native species. Biol. Invasions 11: 2107–2117.
• [16]. Jabłońska, A., Szlauer-Łukaszewska A. & Bańkowska, A. (2015). Aulodrilus pigueti Kowalewski 1914 (Annelida: Clitellata) – new record for the Polish fauna from the Oder River and remarks on other oligochaetes rarely noticed in Poland. Oceanol. Hydrobiol. St. 44(4): 456–465.
• [17]. Jazdzewski, K., Konopacka, A. & Grabowski, M. (2002) Four Ponto-Caspian and one American gammarid species (Crustacea, Amphipoda) recently invading Polish waters. Contributions to Zoology 71(4): 115–122.
• [18]. Jażdżewski, K., Konopacka, A. & Grabowski, M. (2004). Recent drastic changes in the gammarid fauna of the Vistula River deltaic system in Poland caused by alien invaders. Diversity & Distrib. 10(2): 81–88.
• [19]. Kasza, H. (1988). A regulated river ecosystem in a polluted section of the Upper Vistula. 2. Hydrochemistry. Acta Hydrobiol. 30(1/2): 15–22.
• [20]. Kasza, H. & Galas, J. (2002). Upper Vistula River: Response of aquatic communities to pollution and impoundment. II. Chemical composition of water and sediment. Pol. J. Ecol. 50(2): 123–135.
• [21]. Konopacka, A. (1998). Dikerogammarus haemobaphes (Eichwald, 1841) (Crustacea, Amphipoda), a new species in Polish fauna and two other rare amphipods in the Vistula River. Przegl.Zool. 42(3–4): 211–218. (In Polish with English summary).
• [22]. Konopacka, A. (2004). Invasive amphipods (Crustacea, Amphipoda) in Polish waters. Przegl. Zool. 48(3–4): 141–162. (In Polish with English summary).
• [23]. Kownacki, A. (1999). Checklist of macroinvertebrates in the River Vistula. Acta Hydrobiol. 41(1): 45–75.
• [24]. Kownacki, A. & Soszka, H. (2004). Guidelines for the assessment of rivers based on macroinvertebrates and sampling macroinvertebrates in lakes. Warszawa, IOŚ, 51 pp. (In Polish).
• [25]. Krokowski J., Karnas M., Opial-Gałuszka U. & Zientarska B. (1994). Measurement of water salinity in a cross section of Vistula above Kraków. In Zasolenie rzeki Wisły (pp. 90–106). Kraków. Sekcja Ochrony Jakości Wód Komitetu Gospodarki Wodnej PAN (In Polish).
• [26]. Maćkiewicz, J.J. (2013). The first record of the Asian clam Corbicula fluminea (Bivalvia: Veneroida: Corbiculidae) in the upper Vistula (south Poland). Folia Malacol. 21(2): 87–90.
• [27]. Najberek, K. & Solarz, W. (2016). Alien species. Causes of invasiveness and control methods. Kosmos 65: 81–91. (In Polish with English summary).
• [28]. Pająk, B. (2016). Report on the state of environment in Małopolskie Voivodeship in years 2013–2015. 3. Water quality. WIOŚ, p. 30–95. (In Polish).
• [29]. Piechocki, A. & Szlauer-Łukaszewska, A. (2016). Molluscs of the middle and lower Odra: the role of the river in the expansion of alien species in Poland. Folia Malacol. 21(2): 73–86.
• [30]. Piechocki, A. & Wawrzyniak-Wydrowska, B. (2016). Guide to freshwater and marine Mollusca of Poland. Poznań: Bogucki Wydawnictwo Naukowe.
• [31]. Piscart, C., Usseglio-Polatera, P., Moreteau, J.C. & Beisel, J.N. (2006). The role of salinity in the selection of biological traits of freshwater invertebrates. Arch. Hydrobiol. 166(2): 185–198.
• [32]. Schöll, F. (2003). Macrozoobenthos of Oder in 1998–2001. Wyd. Międzynarodowa Komisja ochrony Odry przed zanieczyszczeniem. Wrocław, pp. 49. (In Polish).
• [33]. Spyra, A., Kubicka, J. & Strzelec, M. (2015). The Influence of the Disturbed Continuity of the River and the Invasive Species – Potamopyrgus antipodarum (Gray, 1843), Gammarus tigrinus (Sexton, 1939) on Benthos Fauna: A Case Study on Urban Area in the River Ruda (Poland). Environmental Management 56: 233–244.
• [34]. Starmach, K., Wróbel, S. & Pasternak, K. (1976). Hydrobiologia Limnologia. Warszawa: PWN.
• [35]. Timm, T. (2009). A guide to the freshwater Oligochaeta and Polychaeta of Northern and Central Europe. Lauterbornia 66: 1–235.
• [36]. Wolf, B., Kiel, E., Hagge, A., Krieg, H.-J., Christian, K. et al. (2009). Using the salinity preferences of benthic macroinvertebrates to classify running waters in brackish marshes in Germany. Ecol. Indic. 9: 837–847.
• [37]. Zięba, J. & Zaćwilichowska, K. (1966). Bottom fauna in the Vistula between Oświęcim and Kraków. Acta Hydrobiol. 8(Suppl. 1): 389–410. (In Polish with English summary).

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).