The Gulf of Elefsina is a geomorphological embayment located in the northernmost part of the Saronic Gulf in central Greece. In order to assess the paleoenvironmental evolution of the area, an analysis was carried out using mollusk species retrieved from a locally drilled core sample named S2P. The methods used in this study included qualitative - quantitative - statistical analysis of the faunal specimens, macroscopic lithology description of the core sample, radiocarbon dating of core material and sand/mud percentages calculation. The collected specimens amounted to a total of 10500, from which 6661 individuals were observed, belonging to 44 mollusk genera. Four faunal assemblages were distinguished: the oldest Assemblage D (“fossil”) consists of rounded and possibly calcified specimens; Assemblage C (freshwater - oligohaline environment) includes freshwater-brackish living species such as Theodoxus sp. and Hydrobia sp. and low values of faunal indices (Taxa (S), Shannon-Wiener H’, Density); Assemblage B (open lagoon) consists of the brackish living species Cerastoderma glaucum, Mytilaster marioni, Hydrobia sp. and intermediate values of faunal indices; Assemblage A (marine) comprises marine living species (mainly Bornia sebetia, Corbula gibba, Myrtea spinifera, Nucula nitidosa, Timoclea ovata, Bittium reticulatum and Turritella communis) and high values of faunal indices. The data showed that due to early Holocene sea level rise, Elefsina Gulf started to be affected by the sea (saline intrusions) and in a period of ~3000 years it turns from a freshwater environment to a closed lagoon, and in the end it connects with the sea to form an open lagoon. Βefore ~10,5 ka BP the environment became marine, with periodic anoxic episodes reflecting restricted communication with the open sea.

Ο κόλπος της Ελευσίνας αποτελεί μια γεωμορφολογική εμβάθυνση, η οποία βρίσκεται στο βορειότερο τμήμα του Σαρωνικού κόλπου, στην κεντρική Ελλάδα. Για να επιτευχθεί η αναπαράσταση της παλαιοπεριβαλλοντικής εξέλιξης της περιοχής, πραγματοποιήθηκε ανάλυση της μακροπανίδας μαλακίων που συλλέχθηκαν από πυρήνα γεώτρησης στον κόλπο της Ελευσίνας με ονομασία S2P. Οι μέθοδοι που χρησιμοποιήθηκαν σε αυτήν τη μελέτη περιλαμβάνουν ποιοτική - ποσοτική - στατιστική ανάλυση των πανιδικών δειγμάτων, μακροσκοπική περιγραφή της λιθολογίας, ραδιοχρονολόγηση υλικού του πυρήνα και υπολογισμό των ποσοστών άμμου/αργίλου-ιλύος. Από ένα σύνολο 10500 πανιδικών δειγμάτων, προσδιορίστηκαν 6661 μοναδικά άτομα, τα οποία ανήκουν σε 44 γένη μαλακίων. Διακρίθηκαν τέσσερις πανιδικές συναθροίσεις: η παλαιότερη συνάθροιση D («απολιθωμένη») αποτελείται από αποστρογγυλεμένα και περιασβεστωμένα δείγματα, η συνάθροιση C (γλυκών - υφάλμυρων υδάτων) περιλαμβάνει είδη γλυκών/υφάλμυρων υδάτων όπως τα Theodoxus sp. και Hydrobia sp. και χαμηλές τιμές πανιδικών δεικτών (Taxa (S), Shannon-Wiener H’, Πυκνότητα) η συνάθροιση B (ανοιχτής λιμνοθάλασσας) αποτελείται από τα θαλάσσιας-υφάλμυρης διαβίωσης είδη Cerastoderma glaucum, Mytilaster marioni, Hydrobia sp. και ενδιάμεσες τιμές πανιδικών δεικτών, και τέλος η συνάθροιση Α (θαλάσσια) συμπεριλαμβάνει θαλάσσια είδη (κυρίως Bornia sebetia, Corbula gibba, Myrtea spinifera, Nucula nitidosa, Timoclea ovata, Bittium reticulatum και Turritella communis) και υψηλές τιμές πανιδικών δεικτών. O κόλπος της Ελευσίνας, επηρεάζεται από τη θάλασσα (θαλάσσιες υπερχειλίσεις), λόγω της Ολοκαινικής ανόδου της στάθμης της θάλασσας και μέσα σε ~3.000 χρόνια μετατρέπεται από γλυκού νερού περιβάλλον σε κλειστή λιμνοθάλασσα γλυκού – υφάλμυρου νερού ενώ τελικά συνδέεται με την θάλασσα και μετατρέπεται σε ανοικτή λιμνοθάλασσα. Περίπου στα 10,5 χιλιάδες χρόνια πριν από σήμερα το περιβάλλον έγινε θαλάσσιο, με περιοδικά ανοξικά επεισόδια που αντιστοιχούν σε περιορισμένη επικοινωνία με την ανοιχτή θάλασσα.

Affenzeller, S., Haar, N. and Steiner, G., 2017. Revision of the genus complex Gibbula: an integrative approach to delineating the Eastern Mediterranean genera Gibbula Risso, 1826, Steromphala Gray, 1847, and Phorcus Risso, 1826 using DNA-barcoding and geometric morphometrics (Vetigastropoda, Trochoidea). Organisms Diversity and Evolution 17, 789-812.

Aitken, A.E., 1990. Fossilization potential of Arctic fjord and continental shelf benthic macrofaunas. In: Dowdeswell J.A., Scourse J.D. (eds), Glacimarine environments: processes and sediments. Geol. Soc. Lond. Special. Publ. 53, 155-176.

Antczak, M., 2014. Palaeoecological significance of Late Glacial and Holocene molluscs. NR 844 Acta Biologica NR 21.

Antoniadou, C, Krestenitis, Y. and Chintiroglou, C., 2004. Structure of the “Amphioxus sand” community in Thermaikos Bay (Eastern Mediterranean). Fresenius Environmental Bulletin 13, 1122-1128.

Backeljaou, T., 1986. Ijst van de recente mariene mollusken van België [List of the recent marine molluscs of Belgium]. Koninklijk Belgisch Instituut voor Natuurwetenschappen, Brussels, Belgium, 106 pp.

Balian, E.V., Lévêque, C., Segers, H. and Martens, K., 2008. Freshwater Animal Diversity Assessment. Springer Science & Business Media, p. 146.

Barbieri, M., Urgu, L., Maltagliati, F., Di Giuseppe, G., Lardicci, C. and Castelli, A., 2011. Genetic divergence between marine and brackishwater individuals of Mytilaster minimus (Mollusca, Bivalvia). Biologia Mare Mediterraneo 18(1), 234-235.

Barnes, R.S.K., 2008. The Brackish-Water Fauna of Northwestern Europe. Cambridge University Press.

Bieler, R., Mikkelsen, P.M., Collins, T.M., Glover, E.A., González, V.L., Graf, D.L., Harper, E.M., Healy, J., Kawauchi, G.,Y., Sharma, P.P., Staubach, S., Strong, E.E., Taylor, J.D., Tëmkin, I., Zardus, J.D., Clark, S., Guzmán, A., McIntyre, E., Sharp, P. and Giribet, G., 2014. Investigating the Bivalve Tree of Life – an exemplar-based approach combining molecular and novel morphological characters. Invertebrate Systematics 28(1), 32-115.

Bi̇tli̇s, B., Öztürk, B. and Doğan, A., 2017. Contribution to the knowledge of the molluscan fauna of Kuşadası Bay (Aegean Sea). Turkish Journal of Zoology 41, 980-990.

Boardman, R.S., Cheetham, A.H. and Rowell, A.J. 1987. Fossil Invertebrates. Blackwell Scientific Publications, 713 pp.

Bouchet, P. and Rocroi, J.-P., 2005. Classification and nomenclator of gastropod families. Malacologia 47, 1-2

Boyden, C.R., 1973. Observations on the shell morphology of two species of cockle Cerastoderrna edule and C. glaucum. Zoological Journal of the Linnean Society 52, 269-292.

Brett, C.E., 2008. Paleoecology. AccessScience. McGraw-Hill Companies.

Breithaupt, B.H., 1992. The use of fossils in interpreting past environments. Pages 147–158, in Tested studies for laboratory teaching, Volume 13 (C. A. Goldman, Editor). Proceedings of the 13th Workshop/Conference of the Association for Biology Laboratory Education (ABLE), p. 191.

Brunetti, M.M. and Forli, M., 2013. The genus Aporrhais Da Costa, 1778 (Gastropoda Aporrhaidae) in the italian Plio-Pleistocene. Biodiversity Journal 4(1), 183-208.

Brusca, R.C. and Brusca, G.J., 1990. Invertebrates. Sinauer Associates: Sunderland, MA (USA). ISBN 0-87893-098-1. 922 pp.

Brusca, R.C. and Brusca, G.J., 2003. Invertebrates. Sunderland, Massachusetts: Sinauer Associates, 2nd Edition.

Buchsbaum, R., Buchsbaum, M., Pearse, J. and Pearse, V., 1987. Animals Without Backbones. University of Chicago Press, Chicago.

Büyükmeriç, Y., 2016. Postglacial floodings of the Marmara Sea: molluscs and sediments tell the story. Geo-Marine Letters 36(4), 307–321.

Büyükmeriç, Y., Wesslingh, F.P. and Alçiçek, M.C., 2016. Middle-late Pleistocene marine molluscs from Izmit Bay area (eastern Marmara Sea, Turkey) and the nature of Marmara - Black Sea corridors. Quaternary International 401, 153-161.

Carboni, G.M., Succi, M.C., Bergamin, L., Di Bella, L., Frezza, V. and Landina, B., 2009. Benthic foraminifera from two coastal lakes of southern Latium (Italy). Preliminary evaluation of environmental quality. Marine Pollution Bulletin 59, 268-280.

Carriker, M.R., 1981. Shell penetration and feeding by naticacean and muricacean predatory gastropods: a synthesis. Malacologia 20, 403-422.

Cox, L.R., 1960. Thoughts on the classification of the Bivalvia. Proc. Malacol. Soc. London 34, 60-88.

Cox, L.R., 1969. Treatise on Invertebrate Paleontology, In: Moore, R.C. (ed.), Pt. N., Mollusca 6, Bivalvia, Vols. 1-2, 1-489, 491-952.

Davis, J.C., 2002. Statistics and Data Analysis in Geology. Third Edition. John Wiley & Sons, Inc., 487-526.

Della Bella, G. and Tabanelli, C., 2006. Il genere Bornia Philippi, 1836 (Bivalvia, Kelliidae) nel Pliocene italiano. Bollettino della Società Paleontologica Italiana 45(2-3), 213-216.

Dimiza, M., Koukousioura, O., Triantaphyllou, M. and Dermitzakis, M., 2016. Live and dead benthic foraminiferal assemblages from coastal environments of the Aegean Sea (Greece): Distribution and diversity. Revue de Micropaléontologie 59(1), 19-32.

Di Rita, F., Simone, O., Caldara, M., Gehrels, W.R. and Magri, D., 2011. Holocene environmental changes in the coastal Tavoliere Plain (Apulia, southern Italy): A multiproxy approach. Palaeogeography, Palaeoclimatology, Palaeoecology 310, 139-151.

Dodge, H., 1957. A historical review of the mollusks of Linnaeus - Part 5. The genus Murex of the Class Gastropoda. Bulletin of the American Museum of Natural History vol. 113, 156 pp.

Easton, W.H., 1960. Invertebrate Paleontology. Harper and Row, Publishers, 701 pp.

Facorellis, Y. and Vardala-Theodorou, E., 2015. Sea Surface Radiocarbon Reservoir Age Changes in the Aegean Sea from about 11,200 BP to Present. Radiocarbon 57, 491-503.

Gastaldo, R.A., Savrda, C.E. and Lewis, R.D., 1996. Deciphering Earth History: A Laboratory Manual with Internet Exercises. Contemporary Publishing Company of Raleigh, Inc. ISBN 0-89892-139-2.

Giribet, G., 2008. Bivalvia. In: Ponder, W.F. and Lindberg, D.L., (eds), Molluscan Phylogeny. Berkeley, University of California Press, pp. 105-141, 469 pp.

Gofas, S. and Salas, C., 1996. Small Nuculidae (Bivalvia) with functional primary hinge in the adults. Journal of Conchology 35, 427-435.

Goiran, J.-P., Pavlopoulos, K.P., Fouache, E., Triantaphyllou, M. and Etienne, R., 2011. Piraeus, the ancient island of Athens: Evidence from Holocene sediments and historical archives. Geology 39, 531-534.

Gordillo, S., Bayer, M.-S., Boretto, G. and Charó, M., 2014. Mollusk Shells as bio-geo-archives. Evaluating Environmental Changes During the Quaternary. SpringerBriefs in Earth System Sciences. South America and the Southern Hemisphere, 80 pp.

Gosling, E., 2003. Bivalve Molluscs – Biology, Ecology and Culture. Fishing News Books. An imprint of Blackwell Science.

Hammer, O., Harper, D.A.T. and Ryan, P.D., 2001. Past paleontological statistics software. Package for education and data analysis. Paleontologia Electronica.

Hayward, P.J., Isaac, M.J., Makings, P., Moyse, J., Naylor, E. and Smaldon, G., 1995. "Crustaceans". In: Hayward, P.J.; Ryland, John Stanley. Handbook of the Marine Fauna of North-West Europe. Oxford University Press, 290-461.

Hatzianestis, I., Rori, N., Sklivagou E. and Rigas, F., 2004. PAH profiles in dated sediment cores from Elefsis bay, Greece. Fres. Environ. Bull. 13, 1253-1257.

Hyman, L.H., 1955. The Invertebrates. Volume IV: Echinodermata. McGraw-Hill, New York.

Ivanova, E.V., Marret, F., Zenina, M.A., Murdmaa, I.O., Chepalyga, A.L., Bradley, L.R., Schornikov, E.I., Levchenko, O.V. and Zyryanova, M.I., 2015. The Holocene Black Sea reconnection to the Mediterranean Sea: New insights from the northeastern Caucasian shelf. Palaeogeography, Palaeoclimatology, Palaeoecology 427, 41-61.

Karadimou, G., Vouvalidis, K., Syrides, G., Koukousioura, O. and Aidona, E., 2016. Geomorphological and paleoenvironmental changes of Ismarida lake during Holocene (N. Greece). Bulletin of the Geological Society of Greece L, 424-433.

Karageorgis, A., Kaberi, H., Zervoudaki, S. and Krasakopoulou, E., 2016. Natural and anthropogenic heavy metals in the sediments of Saronikos Gulf, Greece: reviewing 15 years of observations. Conference Paper. Conference: Goldschmidt, Yokohama, Japan.

Kebapçı, U. and Van Damme, D., 2012. Theodoxus fluviatilis. (Errata version published in 2017) The IUCN Red List of Threatened Species.

Kolaiti, E. and Mourtzas, N.D., 2016. Upper Holocene sea level changes in the West Saronic Gulf, Greece. Quaternary International 401, 71-90.

Koskeridou, E. and Ioakim, C., 2009. An early Pleistocene Mollusc fauna with Ponto-Caspian elements, in intra Hellenic basin of Atalanti, Arkitsa region (Central Greece). 9th Symposium on Oceanography & Fisheries, Proceedings, Volume Ι.

Koukousioura, O., Triantaphyllou, M.V., Dimiza, M.D., Pavlopoulos, K., Syrides, G. and Vouvalidis, K., 2012. Benthic foraminiferal evidence and paleoenvironmental evolution of Holocene coastal plains in the Aegean Sea (Greece), Quaternary International 261, 105-117.

Kroh, A. and Smith, A.B., 2010. The phylogeny and classification of post-Palaeozoic echinoids. Journal of Systematic Palaeontology 8/2, 147-212.

Kyrikou, S., 2016. Holocene plant landscapes of West Attica (Greece): From a climate controlled vegetation to the modern cultural landscape. Master thesis, NKUA, 66 pp.

Kyrikou, S., Kouli, K., Triantaphyllou, M.V., Dimiza, M.D., Gogou, A., Karageorgis, A.P. and Anagnostou, C., 2016. Holocene plant landscapes of West Attica (Greece): From a climate controlled vegetation to the modern cultural landscape. Medclivar Conference.

Lambeck, K. and Purcell, A., 2005. Sea-level change in the Mediterranean Sea since the LGM: model predictions for tectonically stable areas. Quaternary Science Reviews 24, 1969–1988.

La Perna, R. and D’Abramo, M., 2013. Systematics of Acanthocardia pausicostata group in the Mediterranean Plio-Pleistocene, with description of a new species (Bivalvia, Cardiidae). Journal of Conchology 41, 481-492.

Lekkas, E., 2001. The Athens earthquake (7 September 1999): intensity distribution and controlling factors. Engineering Geology 59, 297-311.

Magurran, A.E., 1988. Ecological Diversity and Its Measurement. Princeton University Press, Princeton, N J.

Margulis, L. and Schwartz, K.V., 1998. Five Kingdoms: an illustrated guide to the Phyla of life on earth. 3rd edition. Freeman: New York, NY (USA), 520 pp.

Mariottini, P., Di Giulio, A., Smriglio, C. and Oliverio, M., 2015. Additional notes on the systematics and new records of East Atlantic species of the genus Sorgenfreispira Moroni, 1979 (Gastropoda Mangeliidae). Biodiversity Journal 6, 431–440.

Morton, J.E., 1967. Molluscs. Hutchinson University Library, London.

Newell, N.D., 1965. Classification of the Bivalvia. American Museum Novitates 2206, 1-25.

Nordsieck, F., 1977. Una nuova specie di Bittium nel Mediterraneo. La Conchiglia 101, 14-15.

Öztürk, B., Poutiers, J.-M., Sari, H.M. and Özbek, M., 2002. On the occurrence of Mytilaster marioni (Locard, 1889) (Mollusca; Bivalvia; Mytilidae) in Bafa Lake (Turkey), with a redescription of the species. Hydrobiologia 485, 123-131.

Öztürk, B. and Bakır, B.B, 2013. Heterostropha Species of the Turkish Coasts: Anisocycla, Eulimella, Puposyrnola, Syrnola and Turbonilla (Gastropoda, Heterobranchia). Turkish Journal of Fisheries and Aquatic Sciences 13, 423-440.

Palmer, C.P., 1979. Scaphopoda. 738-744 pp. In: Fairbridge, R.W and Jablonski, D. (eds.). The Encyclopedia of Paleontology. Dowden, Hutchinson & Ross, Inc., Stroudsburg, PA.

Paraskevopoulou, V., 2009. Trace metals distribution and chemical behaviour in a coastal marine area affected by industrial pollution CNW Saronicos Gulf. Doctorate thesis (in Greek). National and Kapodistrian University of Athens, Athens.

Pavlidou, A., Kontoyiannis, H., Anagnostou, Ch., Siokou-Fragkou, I., Pagou, K., Krasakopoulou, E., Assimakopoulou, G., Zervoudaki, S., Zeri, Ch., Chatzianestis, I. and Psyllidou-Giouranovits, R., 2010. Biochemical characteristics in the Elefsis bay (Aegean sea, Eastern Mediterranean) in relation to anoxia and climate changes. The Handbook of Environmental Chemistry 22, Springer, Berlin, Heidelberg, 161-201.

Pavlopoulos, K., Triantaphyllou, M.V., Karkanas, P., Kouli, K., Syrides, G., Vouvalidis, K., Palyvos, N. and Tsourou, T., 2010. Paleoenvironmental evolution and prehistoric human environment, in the embayment of Palamari (Skyros Island, Greece) during Middle-Late Holocene. Quaternary International 216, 41-53.

Pechlivanidou, S., Vouvalidis, K., Løvlie, R., Nesje, A., Albanakis, K., Pennos, C., Syrides, G., Cowie, P., and Gawthorpe, R., 2014. A multi-proxie approach to reconstructing sedimentary environments from the Sperchios delta, Greece. The Holocene 24(12), 1825-1839.

Petropoulos, A., Androni, A., Ntamkarelou, Τ. and Anagnostou, Ch., 2013. Carbonate and organic carbon content in the recent sediments of Elefsis bay as indicators for the paleoenvironmental evolution of the system. Bulletin of the Geological Society of Greece XLVII, Proceedings of the 13th International Congress, Chania, 1563-1571.

Poirer, C., Sauriau, P.-G., Chaumillon, E. and Allard, J., 2009. Can molluscan assemblages give insights into Holocene environmental changes other than sea level rise? A case study from a macrotidal bay (Marennes–Oléron, France). Palaeogeography, Palaeoclimatology, Palaeoecology 280, 105-118.

Prifti, E., Kaberi. E. and Dassenakis. M., 2012. Determination of heavy metals in sediments and pore waters from Elefsis Gulf. Conference Paper. Conference: 10th Symposium of Oceanography and Fisheries, Athens, Greece.

Prifti, E. and Kaberi, H., 2014. Vertical distribution of heavy metals in marine sediments from Saronikos Gulf, Greece. Conference Paper. Conference: 2nd International Ocean Research Conference, One Planet One Ocean, IOC UNESCO, Barcelona.

Pyron, M. and Brown, K.M., 2015. Introduction to Mollusca and the Class Gastropoda. Chapter 18. DOI: 10.1016/B978-0-12-385026-3.00018-8. In: Thorp and Covich's Freshwater Invertebrates, 383-421.

Regier, J.C., Shultz, J.W., Zwick, A., Hussey, A., Ball, B., Wetzer, R., Martin, J.W. and Cunningham, C.W., 2010. Arthropod relationships revealed by phylogenomic analysis of nuclear protein-coding sequences. Nature 463(7284), 1079-1083.

Riedl, R., 1991. Fauna e Flora del Mediterraneo - Dalle alghe ai Mammiferi: Una guida sistematica alle specie che vivono nel Mar Mediterraneo. Franco Muzzio Editore.

Ruppert, E.E., Fox, R.S. and Barnes, R.D., 2004. Invertebrate Zoology. Thomson Learning, Inc, Belmont, California.

Rolán, E. and Ángel, A.L., 1994. Nassarius reticulatus (Linnaeus, 1758) and Nassarius nitidus (Jeffreys, 1867) (Gastropoda, Nassariidae), two valid species from the European seas. Iberus 12, 59-76.

Rouse, G.W. and Pleijel, F., 2001. Polychaetes. Oxford University Press, Oxford, 354 pp.

Sakellariou, E., 1957. The extant molluscs of the gulf of Thessaloniki and their contribution to stratigraphy. Doctoral thesis (in Greek), NKUA, 121 pp.

SoHelME, 2005. State of the Hellenic Marine Environment. In: Papathanassiou, E. and Zenetos, A., (eds). HCMR Publ., 360 pp.

Sklivagkou, E.B., 2003. Environmental geochemical study of Saronikos gulf. Doctorate thesis (in Greek). Department of Geology, University of Patra, Patra.

Smith, A., 1984. Echinoid Palaeobiology. Special Topics in Palaeobiology Series, Volume 1. 190 pp. London, Boston, Sydney, George Allen & Unwin.

Storer, T.I., Usinger, R.L., Stebbins, R.C. and Nybakken, J.W., 1979. General Zoology, 6th ed. McGraw-Hill Book Company, New York.

Struck, T.H., 2011. Direction of evolution within Annelida and the definition of Pleistoannelida. Journal of Zoological Systematics and Evolutionary Research 49, 340-345.

Stuiver, L. and Reimer, P.J., 1993. Extended C-14 data-base and revised Calib 3.0 C-14 age calibration program. Radiocarbon 35, 215-230.

Syrides, G., 1996. Holocene stratigraphy and paleoenvironments in the area of ancient Avdira (Thrace, Greece). Proceedings of the 2nd Symposium of Hellenic Archaeometrical Society, 357-370.

Syrides, G., 2008. Marine mollusk fauna and Holocene stratigraphy of the marsh of Agia Paraskevi, (Lamia, Fthiotida) Greece. Bulletin of the Geological Society of Greece 41/42, 1-15.

Syrides, G., Vouvalidis, K., Albanakis, K., Tsourlos, P. and Matsas, D., 2009. Palaeogeographical evolution and sea level changes during Holocene in the prehistoric settlement of Mikro Vouni (Samothrace island, Greece). Zeitschrift für Geomorphologie Supplementary Issues 53, 39-54.

Syrides, G., Albanakis, K., Vouvalidis, K., Pilali-Papasteriou, A., Papaefthimiou-Papanthimou, A., Ghilardi, M., Fouache, E., Paraschou, T. and Psomiadis, D., 2009. Holocene palaeogeography of the northern margins of Giannitsa plain in relation to the prehistoric site of Archontiko (Macedonia-Greece). Zeitschrift für Geomorphologie Supplementary Issues 53, 71-82.

Taylor, J.D., Glover, E.A. and Williams, S.T., 2008. Ancient chemosynthetic bivalves: systematics of Solemyidae from eastern and southern Australia (Mollusca: Bivalvia). In: Davie, P.J.F. and Phillips, J.A. (eds), Proceedings of the Thirteenth International Marine Biological Workshop. The Marine Fauna and Flora of Moreton Bay, Queensland. Memoirs of the Queensland Museum, Brisbane. Nature 54, 75-104.

Triantaphyllou, M.V., Kouli, K., Tsourou, T., Koukousioura, O., Pavlopoulos, K. and Dermitzakis, M.D., 2010. Paleoenvironmental changes since 3000 BC in the coastal marsh of Vravron (Attica, SE Greece). Quaternary International 216, 14-22.

Triantaphyllou, M.V., Dimiza, M.D., 2012. Micropaleontology and Environment. ION Publishing Group, 167 pp., (in Greek).

Triantaphyllou, M.V., Pavlopoulos, K.P., Kouli, K., Koukousioura, O., Dimiza, M.D., Aidona E., Syrides, G., Gogou, A., Karageorgis, A.P., Kyrikou, S., Pallikarakis, A., Archontikis, O., Goiran, J.-P., Anagnostou, C. and Fouache, E., 2016. Paleoenvironmental evolution and sea level change in Saronikos Gulf (Piraeus coastal plain and Elefsis Bay, Greece) during the Holocene. Conference paper. Medclivar 2016 Conference, University of Athens, Athens, Greece.

Van Aartsen, J.J., 1996. Galeommatacea and Cyamiacea Part II. La Conchiglia 281, 27-53, + 61.

Willmer, P., 1990. Invertebrate Relationships: Patterns in Animal Evolution. Cambridge University Press, Cambridge.

Wilson, R.S., Hutchings Pat, A., Glasby, C.J., 2003. Polychaetes: An Interactive Identification Guide. CSIRO Publishing, Melbourne.

Web references

http://www.marinespecies.org | WoRMS – World Register of Marine Species

http://www.geo.auth.gr | Invertebrate Paleontology notes (Greek)

http://www.verderealta.it | Verderealta’ – International Teaching Malacology Project

http://www.nmr-pics.nl | National History Museum Rotterdam

http://www.iobis.org | Ocean Biogeographic Information System

http://www.geologiaelladas.blogspot.gr | Geologic maps of Greece (Greek)

https://www.biodiversitylibrary.org | Old references

http://www.ucmp.berkeley.edu | Taxa nomenclature

http://www.geo.arizona.edu | Taxa nomenclature

http://www.iucnredlist.org | Taxa nomenclature

http://www.species-identification.org | Taxa nomenclature

http://www.conchigliedelmediterraneo.it | Taxa nomenclature

http://naturalhistory.museumwales.ac.uk | Taxa nomenclature

http://www.charophytes.com | Taxa nomenclature

http://www.wikipedia.com | Scientific vocabulary source