TY - JOUR TI - Seasonal living coccolithophore distribution in the enclosed coastal environments of the Thessaloniki Bay (Thermaikos Gulf, NW Aegean Sea) AU - Dimiza, M.D. AU - Koukousioura, O. AU - Michailidis, I. AU - Dimou, V.-G. AU - Navrozidou, V. AU - Aligizaki, K. AU - Seferlis, M. JO - REVUE DE MICROPALEONTOLOGIE PY - 2020 VL - 69 TODO - null SP - null PB - Elsevier Masson SAS SN - 0035 - 1598 TODO - 10.1016/j.revmic.2020.100449 TODO - anthropogenic source; autumn; coccolith; fossil assemblage; fossil record; geographical distribution; micropaleontology; seasonal variation, Aegean Islands; Aegean Sea; Gulf of Thessaloniki; Mediterranean Sea; Thermaikos Gulf, Emiliania huxleyi; Gephyrocapsa oceanica; Haptophyceae; Helicosphaera carteri TODO - Living coccolithophores collected from a yearly time interval, January to December 2016, at the SP1 station of the Thessaloniki Bay, an enclosed coastal environment located in the inner part of the Thermaikos Gulf (Northwestern Aegean Sea) were analyzed to determine their seasonal variation and evaluate the effects of environmental factors on their density, species composition and distribution. Our results showed that coccolithophores constituted a significant component of the phytoplankton community and were characterized by the dominance of few opportunistic species, as an impact of eutrophic environmental conditions. Temperature seasonal cycle and the variations in nutrient inputs from riverine and/or anthropogenic sources seem to control the seasonal pattern of coccolithophores. Emiliania huxleyi with densities as high as ∼4.0 × 105 cells l−1 predominated during the late spring–early summer, whereas a strong dominance of Gephyrocapsa oceanica with densities ∼2.0 × 105 cells l−1 was observed during the late summer and the autumn. Emiliania huxleyi appeared to dominate the coccolithophore assemblages once more during the winter; while Helicosphaera carteri was continuously present during the wintertime (exceeding ∼2.7 × 103 cells l−1). Emiliania huxleyi was entirely represented by morphotype type A in the studied samples. Morphometric analysis of E. huxleyi coccoliths indicated that the population is dominated by lightly calcified forms, although an increase of more heavily calcified coccoliths was observed during late autumn-early spring in line with the well-documented seasonal succession pattern of E. huxleyi type A forms in the Aegean Sea. © 2020 Elsevier Masson SAS ER -