2018
DOI: 10.1002/2017pa003227
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Circulation Changes in the Eastern Mediterranean Sea Over the Past 23,000 Years Inferred From Authigenic Nd Isotopic Ratios

Abstract: The Eastern Mediterranean Sea (EMS) is a key region to study circulation change because of its own thermohaline circulation. In this study, we focused on intermediate/deep water circulation since the Last Glacial Maximum (LGM) including the sapropel S1 period. Two cores from the Levantine Sea and the Strait of Sicily, respectively, collected at 1,780 m and 771 m water depth, were studied using 143Nd/144Nd (εNd) of foraminiferal tests and leachates as well as benthic foraminiferal stable isotopes (δ13C, δ18O). … Show more

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Cited by 26 publications
(61 citation statements)
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References 83 publications
(185 reference statements)
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“…(Bosmans et al, ; Emeis et al, , ; Grant et al, ; Marino et al, ; Rohling et al, ; Tzedakis, ). Furthermore, deglaciation may have triggered the initial stratification of the water column thus facilitating the onset of sapropel formation (Cornuault et al, ; Grimm et al, ; Rohling et al, ). It seems likely that stagnation and thus conditions facilitating preservation initiated at greater depths, whereas biological activity in the surface waters must have been uniform in the study area.…”
Section: Resultsmentioning
confidence: 99%
“…(Bosmans et al, ; Emeis et al, , ; Grant et al, ; Marino et al, ; Rohling et al, ; Tzedakis, ). Furthermore, deglaciation may have triggered the initial stratification of the water column thus facilitating the onset of sapropel formation (Cornuault et al, ; Grimm et al, ; Rohling et al, ). It seems likely that stagnation and thus conditions facilitating preservation initiated at greater depths, whereas biological activity in the surface waters must have been uniform in the study area.…”
Section: Resultsmentioning
confidence: 99%
“…Although these authors do not give an explanation for the first benthic δ 13 C increase, we here hypothesize an active production of intermediate water masses (glacial analog of LIW) enriching benthic environments in 13 C. For the following decreasing trend in benthic δ 13 C from late H1, these authors suggested a progressively sluggish ventilation of the deep sea. The study of Cornuault et al () use neodymium isotopes in core MD04‐2722 further to hypothesize that enhanced EM stratification is associated to a higher contribution of the Modified Atlantic Water. That said, the overall negative Δ 13 Cp‐b (benthic δ 13 C > planktic δ 13 C) during the second part of H1 (~16.5–15 ka) is complex and may be the result of both the benthic signature and relatively low values of planktic δ 13 C due to either low productivity or inflow of Nile water with low riverine δ 13 C‐DIC values characterizing this period (Figure ).…”
Section: Discussionmentioning
confidence: 99%
“…At a water depth of 552 m, our studied core is, today, mainly located at the transition between LIW and the Eastern Mediterranean Deep Water (Mojtahid et al, 2019). However, it may have been bathed by different water masses during the LGM that is characterized by a lower sea level or during the S1 period characterized by a reduced LIW formation (Cornuault et al, 2018;Freydier et al, 2001;Scrivner et al, 2004;Tachikawa et al, 2015;Wu et al, 2019).…”
Section: Oceanographic Settingmentioning
confidence: 99%
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