Paleoenvironmental Evolution of the Coastal Plain of Marathon, Greece, during the Late Holocene: Depositional Environment, Climate, and Sea Level Changes

The Middle-Late Holocene infill of the coastal plain of Marathon, Greece, consists of lagoonal deposits related to the decrease of the sea level rise rate. Between a little earlier than 5800 and 3500 Cal BP, mesohaline-oligohaline lagoonal carbonate muds were uninterruptedly accumulating in the cent...

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Bibliographic Details
Published in:Journal of coastal research 2006-03, Vol.22 (2), p.424-438
Main Authors: Pavlopoulos, Kosmas, Karkanas, Panagiotis, Triantaphyllou, Maria, Karymbalis, Efthimios, Tsourou, Theodora, Palyvos, Nikolaos
Format: Article
Language:English
Subjects:
Carbonates
Coastal plains
Earth sciences
Earth, ocean, space
Exact sciences and technology
Fluvial sediments
Fresh water
Geochronology
Geological time
Holocene
Invertebrate paleontology
Isotope geochemistry. Geochronology
Lagoonal sedimentation
Lagoons
Marine
Marine and continental quaternary
Mud
paleoclimate
Paleoclimatology
Paleoecology
Paleontology
Peat
Pyrite
Research Papers
Sea level
Sea level changes
Sea level rise
Sedimentation & deposition
Sediments
Surficial geology
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Summary:The Middle-Late Holocene infill of the coastal plain of Marathon, Greece, consists of lagoonal deposits related to the decrease of the sea level rise rate. Between a little earlier than 5800 and 3500 Cal BP, mesohaline-oligohaline lagoonal carbonate muds were uninterruptedly accumulating in the central and more seaward areas of the embayment. At the same time in the nearshore environment, oligohaline pelloidal charophytic muds were deposited during periods of a relatively increased rate of sea level rise, whereas during periods with lower rates of sea level rise, extensive marshes were forming in supratidal settings. The formation of framboidal pyrite and evaporitic minerals point to a periodic anoxic, sulfidic, and schizohaline environment. In addition, a warm, strongly seasonal climate under the influence of resurgent continental groundwater is suggested. After 3500 Cal BP, the lagoon witnessed a relatively abrupt change to palustrine mud deposition. The embayment was frequently exposed, and communication with the sea was not perennial. This period, terminated at about 2400 Cal BP, is most likely associated with a wetter and probably more temperate climate. The uppermost depositional unit is dominated mostly by fluvial sediments deposited in a wetland with no recorded communication with the sea. The sea level rise, indicated by several peat formations, is estimated to be lower than that predicted by the glacio-hydroisostatic model and the data from other Greek areas that are considered relatively stable. Hence, a tectonic uplift of the area is suggested at a rate of about 0.4–0.5 mm/y, which almost counterbalances the predicted rate of relative sea level rise of about 0.6–0.7 mm/y for the last 2000 years. This is a plausible explanation for the relative geomorphological stability, since at least Classical times, suggested by the historical documents.
ISSN:0749-0208
1551-5036
DOI:10.2112/03-0145.1