Water parameters and species composition of macrophytes in reclamation lakes in the area of a former sulphur borehole mine (SE Poland)

Rafał Krawczyk, Łukasz Lis, Jacek Urbaniak

Abstract


Macrophytes and selected physical-chemical water properties were studied in 17 post-mining lakes of Jeziórko Sulphur Mine – one of the largest borehole sulphur mines in the world. Artificial lakes were constructed in subsidence depressions during the reclamation process of mining fields. They were characterized by high mineralization – conductivity ranged from 723 to 2295 μS/cm. The reaction was near neutral, or more frequently, slightly alkaline. Concentrations of phosphorus and organic matter were low. In the group of hydrophytes, Ceratophyllum demersum, Myriophyllum spicatum, Najas marina, Utricularia vulgaris, Eleocharis acicularis, Potamogeton pectinatus, Potamogeton natans and Potamogeton pusillus were frequently dominant. In several lakes, large macroscopic algae dominated – charophytes forming large, dense Chara meadows. In marsh communities, Phragmites australis was the most expansive. Reclamation process had a positive effect on diversity, some of the species found in the study area are regionally rare, including one species which is threatened in Poland (Najas minor). No alien species were recorded.

Keywords


post-mining lakes, sulphur mining, reclamation, aquatic vegetation, spontaneous succession, Jeziórko, SE Poland

Full Text:

PDF

References


Amoros C., Bornette G., Henry Ch.P. 2000. A vegetation-based method for ecological diagnosis of riverine wetlands. Environ. Manage. 25 (2): 211–227.

Beulker C., Lessmann D., Nixdorf B. 2003. Aspects of phytoplankton succession and spatial distribution in an acidic mining lake (Plessa 117, Germany). Acta Oecol. 24: 25–31.

Chmura D., Molenda T. 2007. The anthropogenic mire communities of the Silesian Upland (S Poland): a case of selected exploitation hollows. Nat. Conserv. 64: 57–63.

Chun Y.-M., Choi Y. D. 2009. Expansion of Phragmites australis (Cav.) Trin. ex Steud. (Common Reed) into Typha spp. (Cattail) wetlands in northwestern Indiana, USA. J. Plant Biol. 52: 220–228.

Dubiel E., Nobis A., Nobis M. 2011. Flora roślin naczyniowych i zbiorowiska roślinne Zakrzówka (Kraków). Fragm. Flor. Geobot. Polonica 18 (1): 47–81.

Dumnicka E., Galas J. 2006. Distribution of benthic fauna in relation to environmental conditions in an inundated opencast sulphur mine (Piaseczno, reservoir, Southern Poland). Aquat. Ecol. 40: 203–210.

Galas J. 2003. Limnological study on a lake formed in a limestone quarry (Kraków, Poland). I. Water chemistry. Pol. J. Environ. Stud. 12 (3): 297–300.

Godlewska M., Jelonek M. 2006. Acoustical estimates of fish and zooplankton distribution in the Piaseczno reservoir, Southern Poland. Aquat. Ecol. 40: 211–219.

Gołda T., Haładus A., Kulma R. 2005. Geosozologiczne skutki likwidacji kopalń siarki w rejonie Tarnobrzega. Inż. Środ. 10(1): 59–73.

Gołda T. 2007 Wykorzystanie szlamów poflotacyjnych rudy siarkowej do rekultywacji terenów poeksploatacyjnych w górnictwie otworowym siarki. Inż. Ekol. 19: 79–88.

Kašovská K., Pierzchała Ł., Sierka E., Stalmachová B. 2014. Impact of the salinity gradient on the mollusc fauna in flooded mine subsidences (Karvina, Czech Republic). Arch. Environ. Prot. 40 (1): 87–99.

Kaźmierczakowa R., Zarzycki K., Mirek Z. (red). 2014. Polska czerwona księga roślin. Paprotniki i rośliny kwiatowe. Instytut Ochrony Przyrody PAN, Kraków.

Krahulec F., Lepš J. 1994. Establishment success of plant immigrants in a new water reservoir. Folia Geobot. Phytotax. 29: 3–14.

Krawczyk R. 2010. Species richness and vegetation structure in different morphogenetic types of river lakes in the San River valley. Annales Univ. M. Curie-Skłodowska, sec. C, 65 (1): 29–45.

Kubiak A.P., Krawczyk R. 2014. Diversity of macrophytes in riverine aquatic habitats: comparing river channel and its cut-offs. Annales Univ. M. Curie-Skłodowska, sec. C, 69 (1): 49–57.

Lacoul P., Freedman B. 2006. Environmental influences on aquatic plants in freshwater ecosystems. Environ. Rev. 14: 89–136.

Lewin I., Smolinski A. 2006. Rare and vulnerable species in the mollusc communities in the mining subsidence reservoirs of an industrial area (The Katowicka Upland, Upper Silesia, Southern Poland). Limnologica 36: 181–191.

Lewin I., Spyra A., Krodkiewska M., Strzelec M. 2015. The importance of the mining subsidence reservoirs located along the trans-regional highway in the conservation of the biodiversity of freshwater molluscs in industrial areas (Upper Silesia, Poland). Water Air Soil Pollut. 226: 189.

Lis Ł., Buczyński P. 2012. Leucorrhinia pectoralis (Charpentier, 1825) (Odonata: Libellulidae) w siedliskach wtórnych na terenie byłej kopalni siarki “Jeziórko” koło Tarnobrzega (Kotlina Sandomierska). Odonatrix 8 (1): 19–22.

Lis Ł. 2012. Leucorrhinia albifrons (Burmeister, 1839) (Odonata: Libellulidae) w siedlisku antropogenicznym na obszarze byłej kopalni siarki ”Jeziórko” (Kotlina Sandomierska). Odonatrix 8 (2): 55–58.

Malinowski J., Perek M. 1994. Qualitative and quantitative variation of the groundwaters from the vicinity of Tarnobrzeg resulting from sulphur mining. Geol. Quarterly 38 (3): 593–602.

Martyn W., Jońca M. 2006. Wybrane właściwości chemiczne wód powierzchniowych w byłej kopalni siarki „Jeziórko” jako wskaźnik stanu środowiska po zakończeniu rekultywacji terenów górniczych. Acta Agrophys. 8 (2): 449–458.

Michno W., Dziedzic W., Czajkowski R. 2009. Przywracanie wartości użytkowych terenom górniczym na przykładzie KiZPS “SIARKOPOL”. Materiały pokonferencyjne XIII Warsztatów Górniczych z cyklu „Zagrożenia naturalne w górnictwie”, Bogatynia-Świeradów Zdrój, 17–19 czerwca 2009, pp. 197–211.

Nowak A., Nowak S., Czerniawska-Kusza I. 2007. Rare and threatened pondweed communities in anthropogenic water bodies of Opole Silesia (SW Poland). Acta Soc. Bot. Pol. 76 (2): 151–163.

Nowak A., Maślak M., Nobis M., Nowak S., Kojs P., Smieja A. 2015. Is the riparian habitat creation an effective measure of plant conservation within the urbanized area? Ecol. Eng. 83: 125–134.

Puchalski W. 1985. Post-exploitation water bodies – introduction to an ecological characteristics. Wiad. Ekol. 31 (1): 3–24.

Rey-Boissezon A., Auderset Joye D. 2012. A temporary gravel pit as a biodiversity hotspot for aquatic plants in the Alps. Arch. Sci. 65: 177–190.

Rooney R., Bayley S.E. 2011. Setting reclamation targets and evaluating progress: submersed aquatic vegetation in natural and post-oil sands mining wetlands in Alberta, Canada. Ecol. Eng. 37: 569–579.

Podbielkowski Z. 1960. Zarastanie dołów potorfowych. Monogr. Bot. 10: 1–144.

Podbielkowski Z. 1969. Roślinność glinianek woj. warszawskiego. Monogr. Bot. 30: 119–155.

Półtorak T. 1982. Zooplankton of post-gravel pit ponds and the zooplankton of Rzeszów dam reservoir covering their area now. Part I. Post-gravel pit ponds. Acta Univ. Nicolai Copernici, Nauki mat.-przyr. 52: 65–94.

Szarek-Gwiazda E., Galas J., Wróbel A., Ollik M. 2006. Surface sediment composition in an inundated opencast sulphur mine (Piaseczno reservoir, Southern Poland). Aquat. Ecol. 40: 155–164.

Szarek-Gwiazda E., Żurek R. 2006. Distribution of trace elements in meromictic pit lake. Water Air Soil Pollut. 174: 181–196.

Ślusarczyk A. 2003. Limnological study on a lake formed in a limestone quarry (Kraków, Poland). II. Zooplankton community. Pol. J. Environ. Stud. 12: 489–493.

Urbaniak J., Gąbka M. 2014. Polish Charophytes. An Illustrated Guide to Identification. Wydawnictwo Uniwersytetu Przyrodniczego we Wrocławiu, Wrocław.

Wilk-Woźniak E., Żurek R. 2006. Phytoplankton and its relationships with chemical parameters and zooplankton in the meromictic Piaseczno reservoir, Southern Poland. Aquat. Ecol. 40: 165–176.

Woch M.W., Trzcińska-Tacik H. 2015. High occurrence of rare inland halophytes on postmining sites in western Ukraine. Nord. J. Bot. 33: 101–108.

Zarzycki K., Trzcińska-Tacik H., Różański W., Szeląg Z., Wołek J., Korzeniak U. 2002. Ecological indicator values of vascular plants of Poland. W. Szafer Institute of Botany, Polish Academy of Sciences, Kraków.

Żurek R. 2006. Chemical properties of water in a flooded opencast sulphur mine. Aquat. Ecol. 40: 135–153.

Żurek R. 2006. Zooplankton of a flooded opencast sulphur mine. Aquat. Ecol. 40: 177–202.




DOI: http://dx.doi.org/10.17951/c.2016.71.1.27
Date of publication: 2017-04-03 09:05:30
Date of submission: 2017-03-31 12:11:22


Statistics


Total abstract view - 846
Downloads (from 2020-06-17) - PDF - 0

Indicators



Refbacks

  • There are currently no refbacks.


Copyright (c) 2017 Rafał Krawczyk, Łukasz Lis, Jacek Urbaniak

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.