Abstract
The main aim of the present study was directed towards an understanding of the agents (abiotic and biotic) that shape the spatiotemporal distribution patterns of two fundamental components of the northeastern Aegean Sea (NEA) planktonic food web, namely mesozooplankton and fish larvae. The study area is of great scientific interest due to its relatively increased local productivity levels, comparatively to the highly oligotrophic eastern Mediterranean, hence its importance as a fishing ground, especially for fisheries targeting small pelagic fish. These characteristics are considered to be associated with local topographic features (extended continental shelf), riverine inflow, but mainly the high hydrological complexity (development of fronts and eddies) which is induced by the inflow and advection of low salinity Black Sea waters (BSW) at the upper part of the water column (surface 20-30 m). Mesozooplankton group composition and distribution patterns were examined both in horizontal ...
The main aim of the present study was directed towards an understanding of the agents (abiotic and biotic) that shape the spatiotemporal distribution patterns of two fundamental components of the northeastern Aegean Sea (NEA) planktonic food web, namely mesozooplankton and fish larvae. The study area is of great scientific interest due to its relatively increased local productivity levels, comparatively to the highly oligotrophic eastern Mediterranean, hence its importance as a fishing ground, especially for fisheries targeting small pelagic fish. These characteristics are considered to be associated with local topographic features (extended continental shelf), riverine inflow, but mainly the high hydrological complexity (development of fronts and eddies) which is induced by the inflow and advection of low salinity Black Sea waters (BSW) at the upper part of the water column (surface 20-30 m). Mesozooplankton group composition and distribution patterns were examined both in horizontal and vertical plane in an extended sampling grid, during three stratification periods (July 2003 – September 2003 – July 2004). Four broad scale ichthyoplankton surveys were carried out (June 2003, 2004, 2005, 2006) over a station grid similar to that of mesozooplankton sampling, in order to investigate the major distribution and abundance patterns of fish larvae in the area. According to this study, the overall mesozooplankton standing stock in the NEA was found higher than those typically reported for other Mediterranean ecosystems, including hellenic pelagic waters and various closed or semi-closed gulfs as wells as some western Mediterranean pelagic and coastal regions. During all sampling periods, filter feeding taxa i.e. cladocerans, doliolids, appendicularians consisted an important element of mesozooplankton group composition particularly at the upper water column (directly influenced by the BSW). In September 2003, when surface salinity was 2 psu higher than July 2003 (probably reflecting lower BSW inflow in the area), the abundance values of these zooplankters decreased considerably. This temporal variation seemed to be related not only to differentiation in BSW (rich in dissolved organic carbon) influence, but also to species specific biological characteristics (e.g. seasonal cycle). In July 2004, BSW circulation was mainly restricted in the eastern part of the Thracian shelf and the abundance and biomass values in the area were significantly increased (2-fold up to 3-fold increase) compared to the previous surveys. Sampling depth played an important role in the differentiation of quantitive mesozooplankton characteristics (in terms of abundance and biomass values) but also in the formation of different copepod and cladoceran species assemblages. Surface waters, under the direct influence of BSW, were more productive and their species assemblages were sensitive tracers of horizontal oceanographic variability. Changes in the supply and flow of BSW into the NEA induced mesoscale hydrographic (fronts, eddies) and biological variability which was reflected on the structure and distribution of mesozooplankton assemblages in the horizontal and vertical plane. Frontal zones (e.g. southeastern of Lemnos) were characterized by increased fluorescence values and mesozooplankton biomass. The anticyclonic eddy over the Thracian shelf, where BSW is entrapped (Samothraki gyre), seemed to serve as a distinguished biochemical habitat with increased mesozooplankton abundance values and distinctive group composition. Besides the importance of physical parameters for zooplankton distribution in the NEA, biological interactions (e.g. competition, predation) may have played a significant role in shaping the observed distribution patterns. The hydrological heterogeneity induced by the advection of the BSW seemed to influence the qualitative and quantitative characteristics of the lower trophic levels. In turn, mesozooplankton populations presented spatial heterogeneity that reflected the importance of food size spectra and species-specific ecophysiological characteristics. Contrary to mesozooplankton community, mean abundance values of fish larvae (either as a total or for each separate taxonomic category) did not show any significant interannual difference during the four year study in the area of NEA (2003-2006). Fish larvae of epipelagic species consisted the major component of community, while a dominance of anchovy larvae was also observed due to the coincidence of the sampling period with the intensive spawning of this species. Fish larvae horizontal distribution was heterogenous and seemed to be controlled by the coupling between agents acting on the spawning stock and physical and biological processes influencing the planktonic phase of their offsprings. Fish larvae distributional patterns seemed to highly depend on species specific evolutionary adaptations, like reproduction strategy and the living habitat of the adults.
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