Planktic foraminiferal dissolution in the twilight zone
Planktic foraminiferal dissolution in the twilight zone
Calcite dissolution of planktic foraminifers that settle from the surface ocean to depths has been assessed using the
weight/size relationship of tests and correlated to carbonate ion concentration ð½CO2 3 Þ of ambient sea water. Globigerina
bulloides and Globigerinita glutinata were sampled from the North Atlantic and the Arabian Sea during different seasons
(spring and fall and the monsoons, respectively). Test weight has been determined for single tests from narrow size classes
(250 8 mm and 300 7 mm minimum test diameter). Initial test weight of both species in surface waters differs between
regions and seasons. Weight loss of settling tests in the twilight zone between 100 and 1000m water depths averaged 19%.
Below the twilight zone (1000–2500 m) no weight loss occurs on average, and tests may even gain weight. Remineralization
of settling planktic foraminiferal tests is most pronounced at maximum DCO2 3 . Accordingly, strong dissolution occurs in
the twilight zone, at the depth of maximum decrease in DCO2 3 . It is assumed that dissolution of planktic foraminiferal
calcite is caused by CO2 3 (under-) saturation inside the test, buffered by diffusive exchange of CO2 3 ions with the ambient
sea water through the pores and aperture. Consequently, reconstruction of small-scale differences in seawater ½CO2 3 from test weight alone is not feasible and systematic correlation between test weight and DCO2 3 of the ambient sea water is statistically not significant. At constant ½CO2 3 , remineralization cannot be deduced from test weight, neither at high nor low CO2 3 saturation. In total, our data suggest that the global vertical planktic foraminiferal CaCO3 flux is about 19%
lower than calculated by Schiebel [2002].
Calcite dissolution, Chemical oceanography, Sedimentation, Paleoceanography, North Atlantic, Arabian Sea
676-686
Schiebel, R.
e3ee9c3f-ae96-4523-8ec2-2ed7acdfb83a
Barker, S.
1639a15b-e369-4173-9f46-fc371f32cc3b
Lendt, R.
ce057d67-11b6-4c01-a99f-ada7fc2754c1
Thomas, H.
6482f172-19a3-4f91-a2e4-f6b1cd55ccdd
Bollmann, J.
412078c1-7dac-43cc-88a8-5c327a339d76
June 2007
Schiebel, R.
e3ee9c3f-ae96-4523-8ec2-2ed7acdfb83a
Barker, S.
1639a15b-e369-4173-9f46-fc371f32cc3b
Lendt, R.
ce057d67-11b6-4c01-a99f-ada7fc2754c1
Thomas, H.
6482f172-19a3-4f91-a2e4-f6b1cd55ccdd
Bollmann, J.
412078c1-7dac-43cc-88a8-5c327a339d76
Schiebel, R., Barker, S., Lendt, R., Thomas, H. and Bollmann, J.
(2007)
Planktic foraminiferal dissolution in the twilight zone.
Deep Sea Research Part II: Topical Studies in Oceanography, 54 (5-7), .
(doi:10.1016/j.dsr2.2007.01.009).
Abstract
Calcite dissolution of planktic foraminifers that settle from the surface ocean to depths has been assessed using the
weight/size relationship of tests and correlated to carbonate ion concentration ð½CO2 3 Þ of ambient sea water. Globigerina
bulloides and Globigerinita glutinata were sampled from the North Atlantic and the Arabian Sea during different seasons
(spring and fall and the monsoons, respectively). Test weight has been determined for single tests from narrow size classes
(250 8 mm and 300 7 mm minimum test diameter). Initial test weight of both species in surface waters differs between
regions and seasons. Weight loss of settling tests in the twilight zone between 100 and 1000m water depths averaged 19%.
Below the twilight zone (1000–2500 m) no weight loss occurs on average, and tests may even gain weight. Remineralization
of settling planktic foraminiferal tests is most pronounced at maximum DCO2 3 . Accordingly, strong dissolution occurs in
the twilight zone, at the depth of maximum decrease in DCO2 3 . It is assumed that dissolution of planktic foraminiferal
calcite is caused by CO2 3 (under-) saturation inside the test, buffered by diffusive exchange of CO2 3 ions with the ambient
sea water through the pores and aperture. Consequently, reconstruction of small-scale differences in seawater ½CO2 3 from test weight alone is not feasible and systematic correlation between test weight and DCO2 3 of the ambient sea water is statistically not significant. At constant ½CO2 3 , remineralization cannot be deduced from test weight, neither at high nor low CO2 3 saturation. In total, our data suggest that the global vertical planktic foraminiferal CaCO3 flux is about 19%
lower than calculated by Schiebel [2002].
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More information
Published date: June 2007
Keywords:
Calcite dissolution, Chemical oceanography, Sedimentation, Paleoceanography, North Atlantic, Arabian Sea
Identifiers
Local EPrints ID: 46720
URI: http://eprints.soton.ac.uk/id/eprint/46720
ISSN: 0967-0645
PURE UUID: e3c272b0-a722-4e6a-9880-672da00a62df
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Date deposited: 16 Jul 2007
Last modified: 15 Mar 2024 09:26
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Contributors
Author:
R. Schiebel
Author:
S. Barker
Author:
R. Lendt
Author:
H. Thomas
Author:
J. Bollmann
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