Quantification of foraminifer and coccolith carbonate in South Atlantic surface sediments by means of carbonate grain-size distributions
Quantification of foraminifer and coccolith carbonate in South Atlantic surface sediments by means of carbonate grain-size distributions
This study presents a differentiated carbonate budget for marine surface sediments from the Mid-Atlantic Ridge of the South Atlantic, with results based on carbonate grain-size composition. Upon separation into sand, silt, and clay sub-fractions, the silt grain-size distribution was measured using a SediGraph 5100. We found regionally characteristic grain-size distributions with an overall minimum at 8 µm equivalent spherical diameter (ESD). SEM observations reveal that the coarse particles (> 8 µm ESD) are attributed to planktic foraminifers and their fragments, and the fine particles (< 8 µm ESD) to coccoliths. On the basis of this division, the regional variation of the contribution of foraminifers and coccoliths to the carbonate budget of the sediments are calculated. Foraminifer carbonate dominates the sediments in mesotropic regions whereas coccoliths contribute most carbonate in oligotrophic regions. The grain size of the coccolith share is constant over water depth, indicating a lower susceptibility for carbonate dissolution compared to foraminifers. Finally, the characteristic grain-size distribution in fine silt (< 8 µm ESD) is set into context with the coccolith assemblage counted and biometrically measured using a SEM. The coccoliths present in the silt fraction are predominantly large species (length > 4 µm). Smaller species (length < 4 µm) belong to the clay fraction (< 2 µm ESD). The average length of most frequent coccolith species is connected to prominent peaks in grain-size distributions (ESD) with a shape factor. The area below Gaussian distributions fitted to these peaks is suggested as a way to quantitatively estimate the carbonate contribution of single coccolith species more precisely compared to conventional volume estimates. The quantitative division of carbonate into the fraction produced by coccoliths and that secreted by foraminifers enables a more precise estimate for source/sink relations of consumed and released CO2 in the carbon cycle. The allocation of coccolith length and grain size (ESD) suggests size windows for the separation or accumulation of distinct coccolith species in investigations that depend on non to slightly-mixed signals (e.g., isotopic studies).
464-475
Frenz, M.
ef65689d-a1b9-497a-8d20-c05d7a3a6b4d
Baumann, K.H.
b039688b-9f99-41af-bf41-b3b3fdef1d7f
Boeckel, B.
91ffd52c-65f5-4c73-a385-dde5bda6b8b0
Hoppner, R.
8bf4140c-f877-477c-8544-62050fe46d56
Henrich, R.
29923141-924c-40b2-91a8-be7575985681
2005
Frenz, M.
ef65689d-a1b9-497a-8d20-c05d7a3a6b4d
Baumann, K.H.
b039688b-9f99-41af-bf41-b3b3fdef1d7f
Boeckel, B.
91ffd52c-65f5-4c73-a385-dde5bda6b8b0
Hoppner, R.
8bf4140c-f877-477c-8544-62050fe46d56
Henrich, R.
29923141-924c-40b2-91a8-be7575985681
Frenz, M., Baumann, K.H., Boeckel, B., Hoppner, R. and Henrich, R.
(2005)
Quantification of foraminifer and coccolith carbonate in South Atlantic surface sediments by means of carbonate grain-size distributions.
Journal of Sedimentary Research, 75 (3), .
Abstract
This study presents a differentiated carbonate budget for marine surface sediments from the Mid-Atlantic Ridge of the South Atlantic, with results based on carbonate grain-size composition. Upon separation into sand, silt, and clay sub-fractions, the silt grain-size distribution was measured using a SediGraph 5100. We found regionally characteristic grain-size distributions with an overall minimum at 8 µm equivalent spherical diameter (ESD). SEM observations reveal that the coarse particles (> 8 µm ESD) are attributed to planktic foraminifers and their fragments, and the fine particles (< 8 µm ESD) to coccoliths. On the basis of this division, the regional variation of the contribution of foraminifers and coccoliths to the carbonate budget of the sediments are calculated. Foraminifer carbonate dominates the sediments in mesotropic regions whereas coccoliths contribute most carbonate in oligotrophic regions. The grain size of the coccolith share is constant over water depth, indicating a lower susceptibility for carbonate dissolution compared to foraminifers. Finally, the characteristic grain-size distribution in fine silt (< 8 µm ESD) is set into context with the coccolith assemblage counted and biometrically measured using a SEM. The coccoliths present in the silt fraction are predominantly large species (length > 4 µm). Smaller species (length < 4 µm) belong to the clay fraction (< 2 µm ESD). The average length of most frequent coccolith species is connected to prominent peaks in grain-size distributions (ESD) with a shape factor. The area below Gaussian distributions fitted to these peaks is suggested as a way to quantitatively estimate the carbonate contribution of single coccolith species more precisely compared to conventional volume estimates. The quantitative division of carbonate into the fraction produced by coccoliths and that secreted by foraminifers enables a more precise estimate for source/sink relations of consumed and released CO2 in the carbon cycle. The allocation of coccolith length and grain size (ESD) suggests size windows for the separation or accumulation of distinct coccolith species in investigations that depend on non to slightly-mixed signals (e.g., isotopic studies).
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Published date: 2005
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Local EPrints ID: 23986
URI: http://eprints.soton.ac.uk/id/eprint/23986
ISSN: 1527-1404
PURE UUID: 465c56ef-a1d8-4126-afa3-1c54dc7b8269
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Date deposited: 16 Mar 2006
Last modified: 22 Jul 2022 20:28
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Author:
M. Frenz
Author:
K.H. Baumann
Author:
B. Boeckel
Author:
R. Hoppner
Author:
R. Henrich
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