Reconstructing past upwelling intensity and the seasonal dynamics of primary productivity along the Peruvian coastline from mollusk shell stable isotopes
Reconstructing past upwelling intensity and the seasonal dynamics of primary productivity along the Peruvian coastline from mollusk shell stable isotopes
We present here a potential new method to evaluate past variations of the mean intensity of Peruvian coastal upwelling and of the seasonal timing of phytoplankton blooms. This method uses a combination of the monthly carbon and oxygen isotopic signals preserved in fossil mollusk shells, and a series of corrections to extract the variations of the dissolved inorganic carbon (DIC) ?13C. Based on the analysis of five shell samples (85 shells in total) from the southern Peruvian coast, we suggest that the mean coastal upwelling intensity can be determined from a linear relationship between average values of corrected shell ?13C and ?18O. This new potential proxy would bring additional independent information valuable to interpret paleoproductivity changes reconstructed from marine sediment of the nearby continental shelf. Results obtained on fossil samples from the middle Holocene show an increase in upwelling intensity during this period associated to a spatial reorganization of upwelling centers along the South Peruvian coast. At the seasonal scale, corrected shell ?13C enrichment indicates a phytoplankton bloom. Seasonal timing of phytoplankton blooms can be estimated by the lag with the annual temperature cycle reproduced by shell ?18O monthly variations. The results obtained with two modern shell samples indicate phytoplankton blooms occurring during summer and fall, consistently with in situ productivity observations. Our method relies on revisited assumptions about the influence of temperature and metabolism in mollusk shell ?13C. We further discussed the validity of these assumptions and the potential implications for the interpretation of similar data sets.
Q01015
Sadler, James
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Carré, Matthieu
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Azzoug, Moufok
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Schauer, Andrew J.
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Ledesma, Jesus
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Cardenas, Fredy
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Chase, Brian M.
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Bentaleb, Ilhem
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Muller, Serge D.
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Mandeng, Magloire
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Rohling, Eelco J.
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Sachs, Julian P.
22b7dd0e-f300-491e-94df-8f226c14980c
2012
Sadler, James
953efb69-cfff-41a5-ac8c-879c0244b8cb
Carré, Matthieu
ffe8f01e-7ce6-48ce-ba2a-3876482ecf13
Azzoug, Moufok
402378b6-2c17-434f-a3ef-2565ecd276d3
Schauer, Andrew J.
f367aba0-226b-4fe4-93b1-34717665fca5
Ledesma, Jesus
e2fb7912-29b7-4052-96ac-748fe0f5d2d6
Cardenas, Fredy
56381d7c-55fc-4d68-9b1f-e8ba07b98b85
Chase, Brian M.
482451a3-8fbc-46b2-867f-615b43b178f3
Bentaleb, Ilhem
648b8ffc-f603-4b42-b6c0-125c145b016f
Muller, Serge D.
abdb8a69-6f3d-485f-a0b9-33a4f17f33ae
Mandeng, Magloire
9344ca60-b40f-4071-89c1-be397d561909
Rohling, Eelco J.
a2a27ef2-fcce-4c71-907b-e692b5ecc685
Sachs, Julian P.
22b7dd0e-f300-491e-94df-8f226c14980c
Sadler, James, Carré, Matthieu, Azzoug, Moufok, Schauer, Andrew J., Ledesma, Jesus, Cardenas, Fredy, Chase, Brian M., Bentaleb, Ilhem, Muller, Serge D., Mandeng, Magloire, Rohling, Eelco J. and Sachs, Julian P.
(2012)
Reconstructing past upwelling intensity and the seasonal dynamics of primary productivity along the Peruvian coastline from mollusk shell stable isotopes.
Geochemistry, Geophysics, Geosystems, 13, .
(doi:10.1029/2011GC003595).
Abstract
We present here a potential new method to evaluate past variations of the mean intensity of Peruvian coastal upwelling and of the seasonal timing of phytoplankton blooms. This method uses a combination of the monthly carbon and oxygen isotopic signals preserved in fossil mollusk shells, and a series of corrections to extract the variations of the dissolved inorganic carbon (DIC) ?13C. Based on the analysis of five shell samples (85 shells in total) from the southern Peruvian coast, we suggest that the mean coastal upwelling intensity can be determined from a linear relationship between average values of corrected shell ?13C and ?18O. This new potential proxy would bring additional independent information valuable to interpret paleoproductivity changes reconstructed from marine sediment of the nearby continental shelf. Results obtained on fossil samples from the middle Holocene show an increase in upwelling intensity during this period associated to a spatial reorganization of upwelling centers along the South Peruvian coast. At the seasonal scale, corrected shell ?13C enrichment indicates a phytoplankton bloom. Seasonal timing of phytoplankton blooms can be estimated by the lag with the annual temperature cycle reproduced by shell ?18O monthly variations. The results obtained with two modern shell samples indicate phytoplankton blooms occurring during summer and fall, consistently with in situ productivity observations. Our method relies on revisited assumptions about the influence of temperature and metabolism in mollusk shell ?13C. We further discussed the validity of these assumptions and the potential implications for the interpretation of similar data sets.
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Published date: 2012
Organisations:
Paleooceanography & Palaeoclimate
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Local EPrints ID: 300746
URI: http://eprints.soton.ac.uk/id/eprint/300746
ISSN: 1525-2027
PURE UUID: 4d321a17-81c1-47d6-9809-be765194116e
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Date deposited: 24 Feb 2012 11:18
Last modified: 15 Mar 2024 02:47
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Contributors
Author:
James Sadler
Author:
Matthieu Carré
Author:
Moufok Azzoug
Author:
Andrew J. Schauer
Author:
Jesus Ledesma
Author:
Fredy Cardenas
Author:
Brian M. Chase
Author:
Ilhem Bentaleb
Author:
Serge D. Muller
Author:
Magloire Mandeng
Author:
Julian P. Sachs
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