Powiadomienia systemowe
- Sesja wygasła!
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The numerous dystrophic (humic) lakes are a very important feature of Wigry National Park, NE Poland. As the most recent palaeoecological data indicate, at the beginning of its development (in the Late Glacial and Early and Middle Holocene) these water bodies functioned as harmonious lakes, and their transformation into dystrophic lakes and the stabilization of the trophic state took place at the beginning of the Subboreal. Palynological analysis of sediments from two such lakes (Lake Ślepe and Lake Suchar II), with special emphasis on non-pollen palynomorphs (NPPs), was aimed at a detailed biological characterization of dystrophic lakes during their long-lasting existence. The obtained results allowed for the designation of organisms characteristic for dystrophic lakes, of which representatives appeared with the decreasing pH of the water and the formation of Sphagnum peat around lakes. These organisms were divided into four groups: algae, fungi, testate amoebas, and animals. Their representatives appear in various developmental stages of dystrophic lakes.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
31--41
Opis fizyczny
Bibliogr. 74 poz, tab., rys.
Twórcy
autor
- Department of Botany, Institute of Biology, University of Białystok, K. Ciołkowskiego 1J, 15-245 Białystok, Poland
autor
- Department of Botany, Institute of Biology, University of Białystok, K. Ciołkowskiego 1J, 15-245 Białystok, Poland
Bibliografia
- 1. Aaby, B., Digerfeldt, G., 1986. Sampling techniques for lakes and bogs. In: Berglund B.E. (ed.) Handbook of Holocene Palaeoecology and Palaeohydrology, 181–194, John Wiley and Sons, Chichester-New York-Brisbane-Toronto-Singapore.
- 2. Accessed via http://www.arcella.nl on 2014-08-25. Microworld world of amoeboid organisms.
- 3. Bartos, E., 1951. The Czechoslovak Rotatoria of the order Bdelloidea. Vìstnik Èeskoslovenské Zoologické Spoleènosti 21, 241–500.
- 4. Belokopytov, I. E., Beresnevich, V. V., 1955. Giktorf’s peat borers. Torfânaâ promyslennost’, 8, 9–10.
- 5. Berglund, B.E., Ralska-Jasiewiczowa, M., 1986. Pollen analysis. In: Berglund B.E. (ed.) Handbook of Holocene Palaeoecology and Palaeohydrology, 455–484, John Wiley and Sons, Chichester-New York-Brisbane-Toronto-Singapore.
- 6. Beug, H.-J., 2004. Leitfaden der Pollenbestimmung für Mitteleuropa und angrenzende Gebiete. Verlag Dr. Friedrich Pfeil, München.
- 7. Booth, R.K., 2001. Ecology of testate amoebae (Protozoa) in two Lake Superior coastal wetlands: implications for paleoecology and environmental monitoring. Wetlands 21, 564–576.
- 8. Bronk Ramsey, C., 2009. Bayesian analysis of radiocarbondates. Radiocarbon, 51(1), 337–360.
- 9. Chardez, D., Beyens, L. 1987. Arcella ovaliformis new species, a new testate amoeba from Edgeoya, a high-Arctic island, Svalbard, Norway. Archiv Fuer Protistenkunde134, 297–301.
- 10. Chengalath, R., W. Koste, 1983. Rotifera from northeastern Quebec, Newfoundland and Labrador, Canada. Hydrobiologia 104, 49–56.
- 11. Czeczuga, B., 1995. Hydromycoflora fungi of small forest lakes “Suchary” in the Wigry National Park. Acta Mycologica 30(2), 167–180.
- 12. Dickson, J. H., 1973. Bryophytes of the Pleistocene. Cambridge Univ. Press, Cambridge.
- 13. Drzymulska, D., Kupryjanowicz, M., 2012. Humic lakes of Wigry National Park (NE Poland) – development and expectations for the future. Peatlands International 2, 31–33.
- 14. Drzymulska, D., 2012. The Holocene history of dystrophic (humic) lakes of Wigry National Park – a development of water bodies over thousands of years in the light of multi-proxy studies (Jeziora dystroficzne (humusowe) Wigierskiego Parku Narodowego – rozwój zbiorników na przestrzeni tysięcy lat w Świetle badań interdyscyplinarnych). Studia Limnologica et Telmatologica 6(2), 111–113 (in Polish).
- 15. Drzymulska, D., Zieliński, P., 2013. Developmental changes in the historical and present-day trophic status of brown water lakes. Are humic water bodies a uniform aquatic ecosystem? Wetlands 33, 909–919.
- 16. Drzymulska, D., Kłosowski, S., Pawlikowski, P., Zieliński, P., Jabłońska, E., 2013. The historical development of vegetation of foreshore mires beside humic lakes; different successional pathways under various environmental conditions. Hydrobiologia 703(1), 15–31.
- 17. Drzymulska, D., Fiłoc, M., Kupryjanowicz, M., 2014. Reconstruction of landscape paleohydrology using the sediment archives of three dystrophic lakes in northeastern Poland. Journal of Paleolymnology 51(1), 45–62.
- 18. Drzymulska, D., Fiłoc, M., Kupryjanowicz, M., Szeroczyńska K., Zieliński P., 2015. Postglacial shifts in lake trophic status based on a multiproxy study of a humic lake. The Holocene 25(3), 495–507.
- 19. Ellis, M. B., 1971. Dematiaceous Hyphomycetes. Commonwealth Mycol. Inst., Kew.
- 20. Faegri, K., Iversen J., 1975. Textbook of pollen analysis. Blackwell Scientific Publications, Copenhagen.
- 21. Fiłoc, M., Kupryjanowicz, M., 2013a. The changes of vegetation of the Wigierski National Park during the Holocene – preliminary results of studies. In Abstract Book of Conference ”IsoG 2013Environmental geochemistry: methods, trends, questions.” Warszawa, 13-15.03.2013, 22–23, Institute of Geological Sciences, Polish Academy of Sciences, Warszawa.
- 22. Fiłoc, M., Kupryjanowicz, M., 2013b. Late Glacial and Holocene development of vegetation in the Wigry National Park on the backdrop of climatic changes. In Abstract Book of Conference “Paleoecological reconstructions – lacustrine, peat and cave sediments.” 22-24.05.2013 Białka Tatrzańska, 53, Institute of Geological Sciences, Polish Academy of Sciences, Warszawa.
- 23. Fiłoc, M., Kupryjanowicz, M., Drzymulska, D., 2014. Late Glacial and Holocene vegetation changes in the Wigry National Park, NE Poland – new pollen data from three small dystrophic lakes. Studia Quaternaria 31(1), 5–16.
- 24. Francez, A. J., 1986. Sphagnum microfauna in two peat bogs of the French Massif Central. Suo 37, 1–6.
- 25. Gąbka, M., Owsianny, P., 2006. Shallow humic lakes of the Wielkopolska region – relation between dystrophy and eutrophy in lake ecosystems. Limnological Review 6, 95–102.
- 26. Glime, J. M., 2013. Protozoa: Peatland Rhizopods, Chapt. 2-5; Rhizopods Ecology, Chapt. 2-4; Protozoa Ecology Chapt. 2-6. In: Glime J.M. (ed.) Bryophyte Ecology. Volume 2. Bryological Interaction. E-book sponsored by Michigan Technological University and the International Association of Bryologists. Available at: http://www.bryoecol.mtu.edu (accessed 20 August 2014).
- 27. Grimm, E.C., 1987. CONISS: a FORTRAN 77 program for stratigraphically constrained cluster analysis by the method of incremental sum of squares. Computers and Geosciences 13, 13–35.
- 28. Górniak, A., 1995. Organic matter in the limnic sediments of NorthEastern Poland. Polish Journal of Soil Science 38, 37–43.
- 29. Górniak, A., 1996. Humic substances and their role in the functioning of freshwater ecosystems (Substancje humusowe i ich rola w funkcjonowaniu ekosystemów słodkowodnych). Białystok: Dissertationes Universitatis Varsoviensis 448 (in Polish).
- 30. Górniak, A., Jekatierynczuk-Rudczyk, E., Dobrzyń, P., 1999. Hydrochemistry of three dystrophic lakes in Northeastern Poland. Acta hydrochimica et hydrobiologica 27(1), 12–18.
- 31. Górniak, A., Zieliński, P., 2000. Influence of catchment characteristics and hydrology on dissolved organic carbon in rivers in north-eastern Poland. Verhandlungen des Internationalen Verein Limnologie 27, 1142–1145.
- 32. Hagedorn, F. H,, Schleppi, P., Waldner, P., Flühler, H., 2000. Export of dissolved organic carbon and nitrogen from Gleysol dominated catchments—the significance of water paths. Biogeochemistry 50, 137–161.
- 33. Haigh, S. B., 1963. Notes on the study of bdelloid rotifers. Journal of the Queckett Microscopical Club 29, 133–138.
- 34. Hoogenraad, H. R., Groot, A. A. de., 1979. Comparison of rhizopod associations. Aquatic Ecology 13, 50–55.
- 35. Jankovská, V., 1991. Unbekannte objekte in pollen präparaten – Tardigrada. In: Kovar-Eder, J. (Ed.), Palaeovegetational development in Europe and regions relevant to its palaeo floristic evolution. Proceedings of the Pan-European Palaeobotanical Conference, Viena.
- 36. Jankovská, V., Komárek, J., 2000. Indicative value of Pediastrum and other coccal green algae in palaeoecology. Folia Geobotanica, 35. 59–82.
- 37. Jowsey, P. C., 1965. An improved peat sampler. New Phytologist, 65, 245–248.
- 38. Kamiński, M., Krzysztofiak, A., Krzysztofiak, L. 2001. A Educational trail “dystrophic lakes”. Guidebook (Ścieżka edukacyjna “Suchary”. Przewodnik). Wigierski Park Narodowy, Krzywe. Accessed via http://www.wigry.win.pl/suchary/ suchary.htm on 2014-08-24 (in Polish).
- 39. Kamiński, M., 2002. The mysterious dystrophic lakes (Tajemnicze suchary). Wigry 1/2002, 6–7 (in Polish).
- 40. Kankaala, P., Huotari, J., Peltomaa, E., Saloranta, T., Ojala, A., 2006. Methanotrophic activity in relation to methane efflux and total heterotrophic bacterial production in a stratified, humic, boreal lake. Limnology and Oceanography 51(2), 1195–1204.
- 41. Komárek, J., Jankovská, V., 2001. Review of the Green Algal Genus Pediastrum; Implication for Pollenanalytical Research. Bibliotheca Phycologica, Band 108, 127 pp. , Cramer J. BerlinSttutgart.
- 42. Kondracki, J., 1994. Geography of Poland. Physical-geographical mezoregions (Geografia Polski. Mezoregiony fizycznogeograficzne). PWN, Warszawa (in Polish).
- 43. Koste, W., Shiel, R.J., 1986. Rotifera from Australian inland waters, l. Bdelloidea (Rotifera: Digononta). Australian Journal of Marine and Freshwater Research 37, 765–792.
- 44. Kraska, M., Borsiak, J., Danielak, K., Domek, P., Gołdyn, R., Joniak, T., Klimaszyk, P., Kujawa-Pawlaczyk, J., Piotrowicz, R., Radziszewska, R., Romanowicz, W., Szeląg-Wasilewska, E., Szyper, H., 2001. Dystrophic and meromictic lakes in Drawieński National Park (Jeziora dystroficzne i jezioro meromiktyczne w Drawieńskim Parku Narodowym.) In: Wojterska M. (red.). Szata roślinna Wielkopolski i Pojezierza Południowo-pomorskiego. „Przewodnik Sesji Terenowych 52 Zjazdu PTB”, Poznań, 371–400 (in Polish).
- 45. Krzysztofiak, L., Olszewski, K., 1999. Climate of the Wigry National Park (Klimat Wigierskiego Parku Narodowego). X lat Wigierskiego Parku Narodowego, 59–62. Wydawnictwo Włodzimierz £apiński, Krzywe (in Polish).
- 46. Kupryjanowicz, M., 2007. Postglacial development of vegetation in the vicinity of the Lake Wigry. Geochronometria 27, 53–66.
- 47. Lamentowicz, M., Mitchell E. A. D., 2005. The ecology of testate amoebae (Protists) in Sphagnum in north–western Poland in relation to peatland ecology. Microbial Ecology 50, 48–43.
- 48. Lamentowicz, L., Gąbka, M., Lamentowicz, M., 2007a. Species composition of testate amoebae (protists) and environmental parameters in a Sphagnum peatland. Polish Journal of Ecology 55, 749–759.
- 49. Lamentowicz, L., Tobolski, K., Mitchell E. A. D., 2007b. Palaeoecological evidence for anthropogenic acidification of a kettle-hole peatland in northern Poland. Holocene, 17: 1185– 1196.
- 50. Lenarczyk, J., 2014. The algal genus Pediastrum Meyen (Chlorophyta) in Poland. W. Szafer Institute of Botany, Polish Academy of Sciences, Krakow, pp. 74–75.
- 51. Marks, L., 2002. Last Glacial maximum in Poland. Quaternary Science Review 21, 103–110.
- 52. Mayer, A.M., 2013. First record of Tardigrada from the Islands of Saint Thomas and Saint John, U.S. Virgin Islands, West Indies. Journal of the Mississippi Academy of Sciences, 58, 189–191.
- 53. Mazei, Y. A., Bubnova, O. A., 2007. Species composition and structure of testate amoebae community in a Sphagnum bog at the initial stage of its formation. Biol. Bull. 37, 619–628. [Orig.: Izvestiya Akademii Nauk, Seriya Biologicheskaya, 2007, No. 6, pp. 738–747.].
- 54. Mazei, Y. A., Tsyganov, A. N., 2007/2008. Species composition, spatial distribution and seasonal dynamics of testate amoebae community in a Sphagnum bog (Middle Volga region, Russia). Protistology 5, 156–206.
- 55. Montoya, E., Rull, V., Van Geel, B., 2010. Non-pollen palynomorphs from surface sediments along an altitudinal transect of the Venezuelan Andes Palaeoegography, Palaeoclimatology, Palaeoecology 297, 169–183.
- 56. Moore, P. D., Webb, J. A., Collinson, M. E., 1991. Pollen analysis. Blackwell Scientific Publications.
- 57. Murray, J., 1906. A new family and twelve new species of rotifers. Transactions of the Royal Society of Edinburgh 1906, 367–386.
- 58. Nalepka, D., Walanus, A., 2003. Data processing in pollen analysis. Acta Palaeobotanica 43(1), 125–134.
- 59. OxCal. Available on: https://c14.arch.ox.ac.uk/oxcal/OxCal.html.
- 60. POLPAL. Available on: http://adamwalanus.pl/Polpal.html.
- 61. Rybak, J. I., Błędzki L. A., 2005. Key to the determination of copepods. (Widłonogi, Copepoda: Cyclopoida, Klucz do oznaczania). In: Inspekcja Ochrony Środowiska, Wydawnictwo Naukowe Gabriel Borowski, 9–24 (in Polish).
- 62. Salonen, K., Kononen, K., Arvola, L., 1983. Respiration of plankton in two small, polyhumic lakes. Hydrobiologia 101, 65–70.
- 63. Schnitchen, C., Magyari, E., Tóthmérész, B, Grigorszky, I., Braun, M., 2003. Micropaleontological observations on a Sphagnum bog in East Carpathian region – testate amoebae (Rhizopoda: Testacea) and their potential use for reconstruction of microand macroclimatic changes. Hydrobiologia 506, 45–49.
- 64. Van Beverwijk, A. L., 1954. Three new fungi: Helicoon pluriseptatum n. sp., Papulaspora pulmonaria n. sp. and Tricellula inaequalis n. gen. n. sp. Antonie Van Leeuwenhoek, 20: 1–16.
- 65. Van Geel, B., 1978. A palaeoecological study of Holocene peat bog sections in Germany and The Netherlands, based on the analysis of pollen, spores and macroand microremains of fungi, algae, cormophytes and animals. Review of Palaeobotany and Palynology 25, 1–120.
- 66. Van Geel, B., Bohncke, S .J. P., Dee, H., 1981. A palaeoecological study of an upper Late Glacial and Holocene sequence from ‘De Bochert’, The Netherlands. Review of Palaeobotany and Palynology 31, 367–448.
- 67. Van Geel, B., G. R. Coope, Van der Hammen, T., 1989. Palaeoecology and stratigraphy of the Lateglacial type section at Usselo (The Netherlands). Review of Palaeobotany and Palynology 60, 25–129.
- 68. Walanus, A., Nalepka, D., 1999. POLPAL Program for counting pollen grains, diagrams plotting and numerical analysis. Acta Palaeobotanica, Suppl. 2, 659–661.
- 69. Warner, B. G., Chengalath R., 1988. Holocene fossil Habrotrocha angusticollis (Bdelloidea: Rotifera) in North America. Journal of Paleolimnology 1, 141–147.
- 70. Weckström, K., Weckström J., Yliniemi L.-M., Korola, A., 2009. The ecology of Pediastrum (Chlorophyceae) in subarctic lakes and their potential as paleobioindicators. Journal of Paleolymnology 43(1), 61–73.
- 71. Więckowski, K., 1989. A new method of coring in deep lakes with rod-operated samplers. Boreas 18(4), 357–358.
- 72. Wilk-Woźniak, E., Pociecha, A., Walusia, E., Rajberek, K., 2012. Dystrophic lakes bodies of water in Małopolska (Dystroficzne zbiorniki wodne w Małopolsce). Chrońmy Przyrodę Ojczyst¹ 68(4), 309–316 (in Polish).
- 73. Yeloff, D., Charman, D., Van Geel, B., Mauquoy D., 2007. Reconstruction of hydrology, vegetation and past climate change in bogs using fungal microfossils. Review of Palaeobotany and Palynology 146, 102-145.
- 74. Zawiska, I., Zawisza, E., Woszczyk, M., Szeroczyńska, K., Spychalski, W., Correa-Metrio, A., 2013. Cladocera and geochemical evidence from sediment cores show trophic changes in Polish dystrophic lakes. Hydrobiologia 715(1), 181–193.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-cc6714a5-754e-460b-93bb-434bfde1582d