Abstract
In a four-year-long (1985–1988) study of macro- and meiobenthos of the Szczecin Lagoon, a eutrophic and polluted coastal water body directly connected with the southern Baltic Sea, peculiar interannual dynamics of variables related to abundance was observed. The interannual component of variability was stronger than fine-scale seasonal dynamics. The interannual variations followed a trend whereby abundance of meio- and macrobenthos as well as biomass of the latter was high in 1985, dropped in 1986 and 1987, and rose again in 1988. As the trend could not be explained by local environmental data, explanation was sought by invoking wider-scale climatic and hydrological processes. Data for severity of winters preceding each year of study as well as trends in atmospheric circulation patterns, wind regimes, river runoff characteristics, and near-bottom conductance (used as a proxy for seawater intrusions into the lagoon) were compared to seasonal anomalies in meiobenthic abundance as well as in macrobenthic abundance and biomass. The seasonal mean meiobenthic log abundance anomalies produced no significant correlation with any of the variables tested. In contrast, the seasonal mean log macrobenthos abundance and biomass anomalies were significantly negatively correlated with winter severity proxies (mean winter temperature and cold sum) and flow rate determined with time lags generally longer than one month. The results provide indication of differences in responses of meio- and macrobenthic communities to climatic (winter severity) and hydrological changes, the long-term effects being visible primarily within the macrobenthos. However, establishing sound causal relationships requires longer time-series of data.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Arfi, R., D. Guiral & M. Bouvy, 1993. Wind induced resuspension in a shallow tropical lagoon. Est. Coast. Shelf Sci. 36: 587–604.
Beare, D. J. & E. McKenzie, 1999. Temporal patterns in the surface abundance of Calanus finmarchicus and C. helgolandicus in the northern North Sea (1958-1996) inferred from Continuous Plankton Recorded data. Mar. Ecol. Prog. Ser. 190: 241–251.
Beukema, J. J., 1991. The abundance of shore crabs Carcinus maenas (L.) on a tidal flat in the Wadden Sea after cold and mild winters. J. Exp. Mar. Biol. Ecol. 153: 97–113.
Beukema, J. J., Essink, K. & H. Michaelis, 1996. The geographic scale of synchronized fluctuation patterns in zoobenthos populations as a key to underlying factors: climatic or man-induced. ICES J. Mar. Sci., 53: 964–971.
Christensen H. & E. Kanneworff, 1986. Sedimentation of phytoplankton during a spring bloom in the Öresund. Ophelia 26: 109–122.
Clarke, K. R. & R. N. Gorley, 2001. PRIMER v5: User Manual/Tutorial. Primer-E, Plymouth, 91 pp.
Dickson, B., 1997. From the Labrador Sea to global change. Nature 386: 649–650.
Dippner, J. W., J. Hänninen, H. Kuosa & I. Vuorinen, 2001. The influence of climate variability on zooplankton abundance in the Northern Baltic Archipelago Sea (SW Finland). ICES J. Mar. Sci. 58: 569–578.
Fennel, R., 1999. Convection and the timing of phytoplankton spring bloom in the western Baltic Sea. Est. Coast. Shelf Sci. 49: 113–128.
Gerten, D. & R. Adrian, 2000. Climate-driven changes in spring plankton dynamics and the sensitivity of shallow polymictic lakes to the North Atlantic Oscillation. Limnol. Oceanogr. 45: 1058–1066.
Gerten, D. & R. Adrian, 2001. Differences in the persistency of the North Atlantic Oscillation signal among lakes. Limnol. Oceanogr. 46: 448–455.
Girjatowicz, J. P., 2001. Effects of atmospheric circulation on ice conditions in the southern Baltic coastal lagoons. Int. J. Climatol. 21: 1593–1605.
Graf, G., W. Bengtsson, A. Faubel, L.-A. Meyer-Reil, R. Schulz, H. Theede & H. Thiel, 1984. The importance of the spring phytoplankton bloom for the benthic system of Kiel Bight. Rapp. Proc. V. Réun. Cons. Int. Explor. Mer 183: 136–143.
Goedkoop, W. & R. Johnson, 1996. Pelagic-benthic coupling: profundal benthic community response to spring diatom deposition in mesotrophic Lake Erken. Limnol. Oceanogr. 41: 636–647.
Hagberg, J. & B. G. Tunberg, 2000. Studies on the covariation between physical factors and the long-term variation of the marine soft bottom macrofauna in western Sweden. Est. Coast. Shelf Sci. 50: 373–385.
Hänninen, J., I. Vuorinen & P. Hjelt, 2000. Climatic factors in the Atlantic control the oceanographic and ecological changes in the Baltic Sea. Limnol. Oceanogr. 45: 703–710.
Heip, C. H. R., N. K. Goosen, P.M. J. Herman, J. Kromkamp, J. J. Middelburg & K. Soetaert, 1995. Production and consumption of biological particles in temperate tidal estuaries. Oceanogr. Mar. Biol. Ann. Rev. 33: 1–149.
Honkoop, P. J. C. & J. J. Beukema, 1997. Loss of body mass in winter in three intertidal bivalve species: an experimental and observational study of the interacting effects between water temperature, feeding and feeding behaviour. J. Exp. Mar. Biol. Ecol. 212: 277–297.
Honkoop, P. J. C., Meer, J. van der, Beukema, J. J. & D. Kwast, 1998. Does temperature-influenced egg production predict the recruitment in the bivalve Macoma balthica? Mar. Ecol. Prog. Ser. 164: 229–235.
Hurrell, J.W., 1995. Decadal trends in the North Atlantic Oscillation: regional temperatures and precipitation. Science 269: 676–679.
Kanneworff, E. & H. Christensen, 1986. Benthic community respiration in relation to sedimentation of phytoplankton in the Öresund. Ophelia 26: 269–284.
Kopczyński, P., 1998. Pionowe rozmieszczenie makrofauny w osadach dennych Zalewu Szczecińskiego ze szczególnym uwzględnieniem Chironomidae [Vertical distribution of macrofauna in the Szczecin Lagoon sediments, with a particular reference to the Chironomidae]. Ph. D. thesis, Agricultural University, Szczecin, Poland, 66 pp. (in Polish).
Kröncke, I., J. W. Dippner, H. Heyen & B. Zeiss, 1998. Long-term changes in macrofaunal communities off Norderney (East Frisia, Germany) in relation to climate variability. Mar. Ecol. Prog. Ser. 167: 25–36.
Kube, J., M. Powilleit & J. Warzocha, 1996. The importance of hydrodynamic processes and food availability for the structure of macrofauna assemblages in the Pomeranian Bay (Southern Baltic Sea). Arch. Hydrobiol. 138: 213–228.
Lampe, R., 1993. Environmental state and material flux in the western part of the Oder river estuary-results and consequences. Petermanns Geogr. Mitt. 137: 275–282.
Lityński, J., 1969. Liczbowa charakterystyka typów cyrkulacji i typów pogody dla Polski [Numerical characterization of circulation types and weather types for Poland]. Prace PIHM 97: 3–15 (in Polish).
Marsz, A. A., 1999. Oscylacja Północnoatlantycka a reżim termiczny zim na obszarze północno-zachodniej Polski i na polskim wybrzeżu Bałtyku [The North Atlantic Oscillation and the thermal regime in the area of north-west Poland and the Polish coast of the Baltic Sea]. Przegl. Geogr, 71: 225–245 (in Polish).
Masłowski, J., 1992. Bottom macrofauna of the Szczecin Lagoon (north-western Poland). Acta Hydrobiol. 34: 253–274.
Masłowski, J., 1993. Long-term changes in the bottom macrofauna of the Szczecin Lagoon (north-western Poland). Acta Hydrobiol. 35: 341–355.
Millet, B. & P. Cecchi, 1992. Wind-induced hydrodynamic control of the phytoplankton biomass in a lagoon ecosystem. Limnol. Oceanogr. 37: 140–146.
Montagna, P. A. & R. D. Kalke, 1992. The effect of freshwater inflow on meiofaunal and macrofaunal populations in the Guadalupe and Nueces estuaries, Texas. Estuaries 15: 307–326.
Mutko, T., J. Stechman, M. Landsberg-Uczciwek, A. Garbacik-Wesołowska, M. Protasowicki, E. Niedźwiecki, W. Ciereszko & E. Meller, 1994. Zalew Szczeciński-Wielki Zalew-Zmiany jakościowe w wieloleciu [The Szczecin Lagoon-Wielki Zalew-Long-term qualitative changes]. Bibl. Monit. Srod., PIOS, Warszawa, 83 pp. (in Polish).
Neira, C., J. Sellanes, A. Soto, D. Gutiérrez & V. A. Gallardo, 2001. Meiofauna and sedimentary organic matter off Central Chile: response to changes caused by the 1997-1998 El Niño. Oceanol. Acta 24: 313–328.
Osadczuk, A., R. Lampe, H. Meyer & D. Sobieraj, 1996. Characteristics of recent sediments from Szczecin Bay. Rozpr. Hydrotech, 60: 119–128.
Ottersen, G., B. Planque, A. Belgrano, E. Post, P. C. Reid & N. C. Stenseth, 2001. Ecological effects of the North Atlantic Oscillation. Oecologia 128: 1–14.
Ólafsson, E. & R. Elmgren, 1997. Seasonal dynamics of sublittoral meiobenthos in relation to phytoplankton sedimentation in the Baltic Sea. Est. Coast. Shelf Sci. 45: 149–164.
Poole, R. W., 1974. An Introduction to Quantitative Ecology. McGraw-Yill, New York, 532 pp.
Post, E., M. C. Forchhammer & N. C. Stenseth, 1999. Population ecology and the North Atlantic Oscillation. Ecol. Bull. 47: 117–125.
Protasowicki, M., E. Niedźwiecki & W. Ciereszko, 1993. Heavy metals and chloroorganic substances in sediment cores from the Szczecin Lagoon. In Smoczyńska, A. (ed.), Pollutants in the Environment. Kat. Chemii ART, Olsztyn: 155–159.
Radziejewska, T. & I. Drzycimski, 1988. Meiobenthic communities of the Szczecin Lagoon. Kieler Meeresforsch., Sonderh. 6: 162–172.
Radziejewska, T. & I. Drzycimski, 1990. Dynamics of meiobenthic communities in a eutrophic and polluted estuary. Limnologica 20: 83–88.
Radziejewska, T. & J. Masłowski, 1997. Macro-and meiobenthos of the Arkona Basin (western Baltic Sea): differential recovery following hypoxic events. In Hawkins, L. E., Hutchinson, S., Jensen, A. C., Sheader, M. & J. A. Williams (eds), The Responses of Marine Organisms to Their Environments. Proc. 30th European Mar. Biol. Symp., University Southampton, Southampton: 251–262.
Robakiewicz, W., 1993. Warunki hydrodynamiczne Zalewu Szczecińskiego i cieśnin łączących Zalew z Zatoką a Pomorską [Hydrodynamic conditions of the Szczecin Lagoon and straits connecting the Lagoon with the Pomeranian Bay]. Bibl. Nauk. Hydrotechn., 16, 287 pp. (in Polish).
Rudnick, D. T. & C. A. Oviatt, 1986. Seasonal lags between organic carbon deposition and mineralization in marine sediments. J. Mar. Res. 44: 815–837.
Stępniewska-Podrażka, M., 1991. Katalog typów cyrkulacji atmosferycznej (1951-1990) [A catalogue of atmospheric circulation types (1951-1990)]. PIHM, Warszawa, 108 pp. (in Polish).
Straile, E. & R. Adrian, 2000. The North Atlantic Oscillation and plankton dynamics in two European lakes-two variations on a general theme. Global Change Biol. 6: 663–670.
Townsend, D. W. & L. M. Cammen, 1988. Potential importance of the timing of spring phytoplankton blooms to benthic-pelagic coupling and recruitment of juvenile demersal fishes. Biol. Oceanogr. 5: 215–229.
Tunberg, B. G. & W. G. Nelson, 1998. Do climatic oscillation influence cyclical patterns of soft bottom macrobenthic communities on the Swedish west coast? Mar. Ecol. Prog. Ser. 170: 85–94.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Radziejewska, T., Chabior, M. Climatic and hydrological controls over the zoobenthos in a southern Baltic coastal lagoon. Hydrobiologia 514, 171–181 (2004). https://doi.org/10.1023/B:hydr.0000018217.38809.48
Issue Date:
DOI: https://doi.org/10.1023/B:hydr.0000018217.38809.48