PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Predictional model of biocenotic changes in offshore baltic plankton due to temperature increase

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Over the last 20 years, more and more reliable data concerning global climate change, mainly climate warming, have become available in the literature. Change such as this has also been documented in the Gulf of Gdańsk. Climate change has an influence on aquatic ecosystems and especially their biocoenoses, and plankton is one of its most sensitive ecological fractions. Positive and negative statistical correlation in the exclusive relationship between the quantity of plankton groups and water temperature has been observed. When time was applied as a factor, only the annual increments of the blue-green algae correlation were statistically significant, and the regression equation calculated in this paper was applied to predict a rise in the population number of this algae in response to increasing temperature. It was not possible to perform this calculation with the other plankton components.
Słowa kluczowe
Rocznik
Strony
29--41
Opis fizyczny
Bibliogr. 35 poz., wykr.
Twórcy
autor
  • University of Gdańsk, Institute of Oceanography Department of Marine Biology and Ecology, Al. Marszałka Piłsudskiego 46, 81-378 Gdynia, Poland
  • University of Gdańsk, Institute of Oceanography Department of Marine Biology and Ecology, Al. Marszałka Piłsudskiego 46, 81-378 Gdynia, Poland
autor
  • University of Gdańsk, Institute of Oceanography Department of Marine Biology and Ecology, Al. Marszałka Piłsudskiego 46, 81-378 Gdynia, Poland
autor
  • University of Gdańsk, Institute of Oceanography Department of Marine Biology and Ecology, Al. Marszałka Piłsudskiego 46, 81-378 Gdynia, Poland
autor
  • University of Gdańsk, Institute of Oceanography Department of Marine Biology and Ecology, Al. Marszałka Piłsudskiego 46, 81-378 Gdynia, Poland
Bibliografia
  • [1]. Alam M.G.M., Jahan N., Thalib L., Wei B., Maekawa T., 2001. Effects of environmental factors on the seasonally change of phytoplankton populations in a closed freshwater pond. Environ. Int., 27(5):363-371.
  • [2]. Antonovsky A.Y., Buchstaber V.M., 1991. An exploratory analysis of long-term trends in atmospheric CO2 concentration, Tellus, 43B:171-187.
  • [3]. Bennets D.A., 1992. Experiment 1, A numerical experiment in which atmospheric concentrations of carbon dioxide were increased at 1% per annum (compound) for 75 years. The Headly Centre for Climate Protection and Research, pp.l-20.
  • [4]. Cyberski J., 1995. Współczesne I prognozowane zmiany bilansu wodnego i jego rola w kształtowaniu zasolenia wód Bałtyku. Wyd. Uniw. Gdańsk., pp.210.
  • [5]. Daget J., 1976. Les mockles mathćmathiques en etologie. Masson, Paris, pp.172.
  • [6]. Dippner J.W., Kornilovs G., Sidrevics L., 2000. Long-term variability of mesozooplankton in the Central Baltic Sea. J. Marine Systems, 25:23-31.
  • [7]. Dzierzbicka-Głowacka L., 2000. Matematyczne modelowanie procesów biologicznych w górnej warstwie morza. Rozprawy i monografie, IO PAN Sopot, 13. pp.124.
  • [8]. Engstriim-Ost J.M., Viitasalo M., Reinikainen M., Repka S., Sivonen K., 2000. Feeding interaction of the copepods Eurytemora affinis and Acartia bifilosa with cyanobacteria Nodularia sp.. J. Plankton Res., 22:1403-1409.
  • [9]. Hasselmann K., 1991. Ocean circulation and climate change. Tellus, 43AB:82-103.
  • [10]. Heerkloss R., Schnese W., 1999. A long-term senes of zooplankton monitoring of a shallow coastal water of the southern Baltic. Limnologica, 29:317-321
  • [11]. Hessle Ch., Vallin S., 1934. Untersokninger over plankton och dess baxlinger i Osłersjon under aren 1925-1927. Svenska Hydrografisk-Biologiska Kommissioness Skrifter, Ny Serie Biologi, Band 1, No 5 Stockholm.
  • [12]. Kawasaki T., 1991. Effects of global change on marine ecosystem and fisheries. (In:) Climate changes science, impact and policy (Jager J., Fergusson H.L., eds), UNESCO-WMO,pp.291-299.
  • [13]. Kawecka B., Eloranta P.V., 1994. Zarys ekologii glonów wód słodkich i środowisk lądowych. PWN Warszawa. pp. 252.
  • [14]. Kostrichkina E.M., Line R.J., Bierzinsh W., Modre B.A., Mazmach M.B., 1992. O prognozowanii czislenosti zooplanktona Riżskogo Zaliwa na widowom urownie. Gidrobiol. Jurnal, 28(3):25-31.
  • [15]. Koszteyn J., 1982. Seasonal changes in the vertical distribution and composition of mesozooplankton in the Gulfof Gdańsk. ICES C.M./L:57.
  • [16]. Lee J.H., 1999. Dynamics of phytoplankton community in Lake Daechung. Korean J. Limnol., 32(4):358-366.
  • [17]. Łysiak-Pastuszak E., 2000. Okresowe zmiany parametrów fizycznych i składników chemicznych wód południowego Bałtyku. Wydz. Biol. Geogr. Oceanol. Uniw. Gdańsk , (maszynopis).
  • [18]. Matthaus W., 1995. Natural variability and human impacts reflected in long-term changes in the Baltic deep water conditions - a brief review. German J. Hydrography, 47(1).
  • [19]. Mollmann Ch., Kornilovs G., Sidrevics L., 2000. Long-term dynamics of main mesozooplankton species in the central Baltic Sea. J. Plankton Research, 22(11):2015-2038.
  • [20]. Munawar M., Wilson J.B., 1978. Phytoplankton-zooplankton associations in Lake Superior: A statistical approach. J. Great Lakes Res.4(3-4):497-504.
  • [21]. Pliński M., 1979a. Kierunki zmian strukturalnych w fitoplanktonie estuariów Bałtyku Południowego. Zesz.Nauk.UG, Rozprawy i monografie, 15.
  • [22]. Pliński M., 1979b. Mathematical model of Cyanophyta 's invasion in Baltic estuaries. ICES C.M./L:21,pp.11.
  • [23]. Pliński M., 1995. Phytoplankton of the Gulf of Gdańsk in 1992 and 1993. Oceanologia, 37(1):123-137.
  • [24]. Pliński M., Sobolewska B., Mielczarek M., 1982. The composition and abundance of phytoplankton in the western part of the Gulf of Gdańsk. Stud. i Mater. Oceanol., 39:35-75.
  • [25]. Pliński M., Florczyk I., Picińska J., 1985. The composition and abundance of phytoplankton in the Gulf of Gdańsk Proper. Stud. i Mater. Oceanol., 46:23-65.
  • [26]. Sidrevics L.L., 1980. Investigation of the ecological characteristics of the main zooplankton species in the central Baltic. (In:) Fisheries investigations in the basin of the Baltic Sea. Riga Avotss. 15:65-70 (in Russian).
  • [27]. Siudziński K., 1977. Zooplankton of the Gulf of Gdańsk. Studia i Materiały MIR Gdynia. 18(A):1-111.
  • [28]. Sommer U. (Ed.), 1989. Plankton ecology: succession in plankton communities. Springer-Verlag, pp.369.
  • [29]. Teegarden G.J., Cambell R.G., Durbin E.G., 2001. Zooplankton feeding behavior and particie selection in natural plankton assemblages containing toxic Alexandrium spp. Mar. Ecol. Progr. Ser., 218:213-226.
  • [30]. Valiela I., 1995. Marine Ecological Processes. Springer-Verlag New York, pp.686.
  • [31]. Waldmann J., 1959. Quantitative Planktonuntersuchungen in der mittleren Ostsee 1954/55. Deutsche Akademie der Landwirtschafts-wissenschaften zu Berlin Band VIII, Heft 4-6, N.F.
  • [32]. Wiktor K., Cylkowska U., Ostrowska K., 1982. Zooplankton of the shallow water of the Gulf of Gdańsk. Stud. i Mater. Oceanol., 39:77-136.
  • [33]. Wiktor K., Żmijewska M.I., 1985. Zooplankton composition and distribution in the Gulf of Gdańsk. Stud. i Mater. Oceanol., 46:65-114.
  • [34]. Zhao W., Dong Sh., Zhang Z., 2002. Seasonal succession and diversity of zooplankton in saline-alkaline ponds. J. Lake Sci., 14(2):165-171.
  • [35]. Żmijewska M.I., Niemkiewicz E., Bielecka L., 2000. Abundance and species composition of plankton in the Gulf of Gdańsk near the planned underwater outfall of the Gdańsk-Wschód (Gdańsk-East) sewage treatment plant. Oceanologia, 43(3):335-357.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS8-0013-0046
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.