Title:

Lakes in sulphur open pits

Creator:

Żurek, Roman

Publisher:

Institute of Nature Conservation of the Polish Academy of Sciences

Place of publishing:

Kraków

Date issued/created:

2009

Description:

50 s. ; ilustracje ; bibliografia na stronach 44-48 ; 23 cm ; ISBN 978-83-61191-20-9

Type of object:

Book/Chapter

References:

Baran I., Moroz O., Gudz S., Gnatush S. 2003. The organic compounds metabolism in the green phototrophic sulfur bacteria and hydrogen sulfide removal by them. Visnyk of L'viv Univ. Biology Series 33: 132-140.
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Boehrer B., Schulze M. 2006. On the relevance of meromixis in mine pit lakes.
Bucka H., Wilk-Wozniak E. 2005. Ecological aspects of selected principal phytoplankton taxa in lake Piaseczno. Oceanol. Hydrobiol. Studies 34: 79-94.
Carlson R. E. 1977. A trophic state index for lakes. Limnology and Oceanography 22: 361-369.
Danen-Louwerse H. J., Lijklema L., Coenraats M. 1995. Coprecipitation of phosphate with calcium carbonate in lake Veluwe. Water Research 29: 1781-1785.
Dobrowolski K. A. (ed) 1995. Environmental-Economic Evaluation of Fish Ponds in Poland. Fundation IUCN Poland, Warszawa, 114 pp. (in Polish with English summary)
Dumnicka E., Galas J. 2006. Distribution of benthic fauna in relation to environmental conditions in an inundated opencast sulphur mine (Piaseczno reservoir, Southern Poland). Aquatic Ecology 40: 203-210.
Eriksson M. O. G. 1985. Prey detecteability for fish-eating birds in relation to fish density and water transparency. Ornis Scandinavica 16: 1-7.
Frankiewicz A., Pucek T. R. 2006. Hydrogeological and Hydrochemical Characteristics of the Partially Flooded Piaseczno Opencast Sulphur Mine in Southeastern Poland. Mine Water and the Environment 25: 153-162.
Gaydin A. M., Zozulja I. 2007. Yavoriv lake. DGHP “Sirka”, Lviv- Novoyavorivsk, 68 pp.
Gaydin A. M., Zozulja I. 2004. New lakes of Lviv region [ In Ukrainian] Lviv. Issued by Mine and Chemical Industry 44 pp.
Gaydin A. M. 2000. Documentation of stream water discharge and alternative variants of opencast liquidation.[In Ukrainian]. Girchimprom Lviv, 108 pp.
Gąsiewicz A. 2000. Comparative study of major element geochemistry of gypsum-ghost limestones and selenite lithofacies from the Miocene of northern Carpathian Foredeep: implication to the model of massive replacement of solid sulphates by calcium carbonates. Chem. Geol. 164: 83-218.
Gąsiewicz A. 2000. Sedymentologia i diageneza wapieni poselenitowych a model genetyczny polskich złóż siarki rodzimej. Pr. Państw. Inst. Geol. 172: 143.
Gąsiewicz A. 1994. Gypsum-ghost limestones and selenitic gypsum relation of the Osiek - Baranów Sandomierski sulphur deposit. Kwart. Geol. 38: 449-471.
Godlewska M., Jelonek M. 2006. Acoustical estimates of fish and zooplankton distribution in the Piaseczno reservoir, Southern Poland Aquatic Ecology 40: 211-219.
Gudz S., Gnatush S., Kostruba M., Baran I., Podoprygora O., Kit L., Klim I., Borsukevych B. 2002. Prevalence of sulfur reductive bacteria in water biotops of Yavoriv sulfur deposit. Visnyk of L’viv Univ. Biol. Ser. 29: 144-148.
Gwiazda R. 2000. Water birds and other vertebrates. In: Starmach J., Mazurkiewicz-Boroń G. (Eds). Dobczyce dam reservoir. Ecology - Euthrophication - Protection. ZBW PAN, Kraków (in Polish).
Gwiazda R. 1996. Awifauna lęgowa Zbiornika Dobczyckiego w pierwszych latach jego istnienia. Chrońmy Przyrodę Ojczystą 52, 3: 64-73.
Hageneijer W. J. M., Blair M. J. 1997. The EBCC Atlas of European Breeding Birds - their distribution and abundance. T & AD Poyser, London pp. 900.
Hakala A. 2004. Meromixis as a part of lake evolution - observation and a revised classification of true meromictic lakes in Finlanad. Boreal Envir. Res. 9: 37-53.
Hořická Z., Stuchlik E., Hudek I., Černý M., Fott J. 2006. Acidification of crustacean zooplankton in mountain lakes: The Tatra Mountains (Slovakia, Poland). Biologia, Bratislava, 61/Suppl 18: 121-134.
Kirejczyk J., Haladus A., Kulma R., Pantula Z., Żurek R., Burchard T. 2007. Likwidacja wyrobiska po byłej Kopalni Siarki "Piaseczno" - ekspertyza dotycząca możliwych sposobów ograniczenia dopływu wód neogeńskich do zbiornika w likwidowanym wyrobisku Kopalni Siarki "Piaseczno". [Liquidation of opencast mine Piaseczno - expertise concerning possible methods of neogen water inflow reduction into opencast], P.U.P "SIGMA BP" Sp. z o.o. Tarnobrzeg, pp. 60.
Kit L., Moroz O., Fedorovich A., Gnatush S., Gudz S. 2004. The hydrogen sulfide and carbon compounds metabolism in the phototrophic purple sulfur bacteria. Visnyk of L’viv Univ. Biol. Ser. 35: 199-204.
Klimchouk A. B. 1997. The role of karst in the genesis of sulfur deposits, PreCarpathian region. Ukraine Environmental Geology 31: 1-20.
Kubica B. 1907. Relation of sulphur-forming processes to lithofacies and structural features of Badenian chemical sediments in the Carpathian Foredeep (Poland). Slovak Geol. Mag. 3: 121-130.
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Stawarczyk T., Karnaś A. 1992. Succession of breeding waterfowl in 1977-1991 on Turawski Reservoir. Birds of Silesia 9: 1-14. (in Polish with English summary)
Steinberg C. E. W., Schäfer H., Beisker W. 1998. Do Acid-tolerant Cyanobacteria Exist? Acta hydrochim. hydrobiol. 26: 13-19.
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Wilk-Woźniak E., Żurek R. 2006. Phytoplankton and its relationships with chemical parameters and zooplankton in the meromictic Piaseczno reservoir, Southern Poland. Aquatic Ecology 40:.165-176.
Żurek R. 2007. The basic paths of energy flow and matter transformations in a lowland dam reservoir ecosystem. Oceanol. Hydrobiol. Studies 36(2) 147 pp.
Żurek R. 2006. Chemical properties of water in a flooded opencast sulphur mine. Aquatic Ecology 40: 135-153.
Żurek R. 2006. Zooplankton of a flooded opencast sulphur mine. Aquatic Ecology 40: 177-202.
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Start page:

1

End page:

50

Resource type:

Text

Detailed Resource Type:

Book

Source:

Bibl. IOP PAN, sygn. F 40

Language:

eng

Rights:

Creative Commons Attribution BY 3.0 PL license

Terms of use:

Copyright-protected material. [CC BY 3.0 PL] May be used within the scope specified in Creative Commons Attribution BY 3.0 PL license, full text available at: ; -

Digitizing institution:

Institute of Nature Conservation of the Polish Academy of Science

Original in:

Institute of Nature Conservation of the Polish Academy of Science

Projects co-financed by:

Operational Program Digital Poland, 2014-2020, Measure 2.3: Digital accessibility and usefulness of public sector information; funds from the European Regional Development Fund and national co-financing from the state budget.

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