Hydrogen isotopic compositions of long-chain alkenones record freshwater flooding of the eastern Mediterranean at the onset of sapropel deposition
Hydrogen isotopic compositions of long-chain alkenones record freshwater flooding of the eastern Mediterranean at the onset of sapropel deposition
Sapropels are organic-rich sediment layers that were intermittently deposited in the Mediterranean Sea, especially in its eastern basin, during the last 10Myr. The associated anoxic events that gave rise to sapropel formation resulted indirectly from the impact of African monsoon maxima on the basin's hydrography. Sharp shifts in oxygen isotopes (?18O) to values more depleted in the heavy isotope (18O) in carbonates from surface dwelling planktonic foraminifera, slightly preceding sapropel deposition, suggest that the Mediterranean was flooded by large amounts of freshwater leading to the development of a low salinity of the surface water and a strong density stratification of the water column. However, the degree of freshwater flooding and concomitant drop in sea surface salinity (SSS) remain elusive. Recent work has shown that the hydrogen isotope (?D) values of long-chain alkenones produced by haptophyte algae depend mainly on the ?D of the water and on salinity, and may therefore offer a new tool for salinity reconstructions. Our analysis of the ?D of alkenones from last interglacial sapropel S5 from the Aegean Sea shows a large decrease in ?D of 25‰ at the onset of sapropel formation, suggesting a drop in SSS of 6, from 39 to 33. Although the absolute SSS estimates should be interpreted with care as they are subject to relatively large uncertainties, the estimated SSS values appear quite reasonable as they, for example, yield SSS before sapropel deposition similar to that of the present day Aegean Sea. To reduce uncertainties in SSS estimates, the ?D-salinity relationship has to be better constrained with cultures and also tested in field studies. However, our results do illustrate the promise of a combined use of ?D of alkenones, U37k? of alkenones, and ?18O of surface dwelling planktonic foraminifera, for SSS reconstructions.
S5 sapropel, paleosalinity, hydrogen isotopes, alkenones
594-600
van der Meer, M.T.J.
b200c31e-9fef-4793-9b84-c9c20aa120ce
Baas, M.P.L.M.
8d26b542-3e8c-4488-a3a0-4591d92ac383
Rijpstra, W.I.C.
5a049ccb-4b39-4041-8f53-dae6662c37b8
Marino, G.
d2f4dc29-b2e7-4cf0-8abd-6fd855bfab81
Rohling, E.J.
a2a27ef2-fcce-4c71-907b-e692b5ecc685
Sinninghe-Damste, J.S.
7374aa82-c2ed-4e5e-b986-a764e1f20651
Schouten, S.
86c33c8e-38d4-432b-b669-e6ae6a7294ea
2007
van der Meer, M.T.J.
b200c31e-9fef-4793-9b84-c9c20aa120ce
Baas, M.P.L.M.
8d26b542-3e8c-4488-a3a0-4591d92ac383
Rijpstra, W.I.C.
5a049ccb-4b39-4041-8f53-dae6662c37b8
Marino, G.
d2f4dc29-b2e7-4cf0-8abd-6fd855bfab81
Rohling, E.J.
a2a27ef2-fcce-4c71-907b-e692b5ecc685
Sinninghe-Damste, J.S.
7374aa82-c2ed-4e5e-b986-a764e1f20651
Schouten, S.
86c33c8e-38d4-432b-b669-e6ae6a7294ea
van der Meer, M.T.J., Baas, M.P.L.M., Rijpstra, W.I.C., Marino, G., Rohling, E.J., Sinninghe-Damste, J.S. and Schouten, S.
(2007)
Hydrogen isotopic compositions of long-chain alkenones record freshwater flooding of the eastern Mediterranean at the onset of sapropel deposition.
Earth and Planetary Science Letters, 262 (3-4), .
(doi:10.1016/j.epsl.2007.08.014).
Abstract
Sapropels are organic-rich sediment layers that were intermittently deposited in the Mediterranean Sea, especially in its eastern basin, during the last 10Myr. The associated anoxic events that gave rise to sapropel formation resulted indirectly from the impact of African monsoon maxima on the basin's hydrography. Sharp shifts in oxygen isotopes (?18O) to values more depleted in the heavy isotope (18O) in carbonates from surface dwelling planktonic foraminifera, slightly preceding sapropel deposition, suggest that the Mediterranean was flooded by large amounts of freshwater leading to the development of a low salinity of the surface water and a strong density stratification of the water column. However, the degree of freshwater flooding and concomitant drop in sea surface salinity (SSS) remain elusive. Recent work has shown that the hydrogen isotope (?D) values of long-chain alkenones produced by haptophyte algae depend mainly on the ?D of the water and on salinity, and may therefore offer a new tool for salinity reconstructions. Our analysis of the ?D of alkenones from last interglacial sapropel S5 from the Aegean Sea shows a large decrease in ?D of 25‰ at the onset of sapropel formation, suggesting a drop in SSS of 6, from 39 to 33. Although the absolute SSS estimates should be interpreted with care as they are subject to relatively large uncertainties, the estimated SSS values appear quite reasonable as they, for example, yield SSS before sapropel deposition similar to that of the present day Aegean Sea. To reduce uncertainties in SSS estimates, the ?D-salinity relationship has to be better constrained with cultures and also tested in field studies. However, our results do illustrate the promise of a combined use of ?D of alkenones, U37k? of alkenones, and ?18O of surface dwelling planktonic foraminifera, for SSS reconstructions.
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Published date: 2007
Keywords:
S5 sapropel, paleosalinity, hydrogen isotopes, alkenones
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Local EPrints ID: 47996
URI: http://eprints.soton.ac.uk/id/eprint/47996
ISSN: 0012-821X
PURE UUID: 53407920-e5a7-407f-84af-ff062ecb32a4
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Date deposited: 20 Aug 2007
Last modified: 16 Mar 2024 02:46
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Author:
M.T.J. van der Meer
Author:
M.P.L.M. Baas
Author:
W.I.C. Rijpstra
Author:
G. Marino
Author:
J.S. Sinninghe-Damste
Author:
S. Schouten
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