connections following the last deglaciation
Benthic foraminifera were studied from four gravity cores that penetrated Holocene marine sediments in the Marmara Sea. Morphogroup and assemblage analyses reveal that the Holocene sea-level rise did not result in a catastrophic flooding event as proposed by W.B.F. Ryan and others, whereby well-oxyg...
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Format: | Text |
Language: | English |
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2001
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Online Access: | http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.534.4704 http://www.geo.edu.ro/sgr/mod/downloads/PDF/Kaminski-MarGeo-2002-190-165.pdf |
Summary: | Benthic foraminifera were studied from four gravity cores that penetrated Holocene marine sediments in the Marmara Sea. Morphogroup and assemblage analyses reveal that the Holocene sea-level rise did not result in a catastrophic flooding event as proposed by W.B.F. Ryan and others, whereby well-oxygenated, saline Mediterranean waters rapidly inundated a low-lying low salinity ‘Black Sea Lake ’ at V7.15 ka (popularly known as the ‘Noah’s Flood Hypothesis’). Rather, the benthic foraminiferal data confirm the hypothesis that the Dardanelles sill was breached by the Mediterranean atV12 ka, allowing saline waters to penetrate the Marmara Sea. These saline waters reached the level of the Bosphorus sill at V9.5 ka, but were unable to penetrate into the Black Sea until afterV9.1 ka because of the persistent strong outflow of brackish to fresh water from the Black Sea. The initial colonisation of the Marmara Sea by benthic foraminifera is essentially synchronous with the re-establishment of marine connections through the Dardanelles Strait atV12 ka. ByV10 ka, Ammonia-dominated faunas developed on the strait-exit delta (v1) at the southern end of the Bosphorus, and at V9.1 ka the appearance of fully marine species documents the establishment of a more stratified water column over v1. Finally, the increase in abundance of planktonic foraminifera at the southern exit of the Bosphorus afterV6.1 ka reflects a decreased volume of outflow water from the Black Sea. Quantitative analysis of benthic foraminiferal morphogroups reveals that the oxygen content of sub- |
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