d11B and metal/Ca ratios versus size fractions in the Surface and deep dwelling species, ODP Holes 130-806B and 108-664C

We have assessed the reliability of several foraminifer-hosted proxies of the ocean carbonate system (d11B, B/Ca, and U/Ca) using Holocene samples from the Atlantic and Pacific oceans. We examined chemical variability over a range of test sizes for two surface-dwelling foraminifers (Globigerinoides...

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Bibliographic Details
Main Authors: Ni, Yunyan, Foster, Gavin L, Bailey, Trevor R, Elliott, Tim, Schmidt, Daniela N, Pearson, Paul N, Haley, Brian A, Coath, Chris
Format: Dataset
Language:English
Published: PANGAEA 2007
Subjects:
108-664C
130-806B
Aluminium/Calcium ratio
Barium/Calcium ratio
Boron/Calcium ratio
Cadmium/Calcium ratio
DEPTH
sediment/rock
DRILL
Drilling/drill rig
DSDP/ODP/IODP sample designation
Event label
Joides Resolution
Leg108
Leg130
Lithium/Calcium ratio
Magnesium/Calcium ratio
Manganese/Calcium ratio
Negative-thermal ionization mass spectrometry (N-TIMS)
Neodymium/Calcium ratio
North Atlantic Ocean
North Pacific Ocean
Ocean Drilling Program
ODP
PC
Piston corer
RC14
RC14-37
Replicates
Robert Conrad
Sample code/label
Size fraction
Sodium/Calcium ratio
Species
Strontium/Calcium ratio
Uranium/Calcium ratio
δ11B
standard deviation
Pacific
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.832875
https://doi.org/10.1594/PANGAEA.832875
Description
Summary:We have assessed the reliability of several foraminifer-hosted proxies of the ocean carbonate system (d11B, B/Ca, and U/Ca) using Holocene samples from the Atlantic and Pacific oceans. We examined chemical variability over a range of test sizes for two surface-dwelling foraminifers (Globigerinoides sacculifer and Globigerinoides ruber). Measurements of d11B in G. ruber show no significant relationship with test size in either Atlantic or Pacific sites and appear to provide a robust proxy of surface seawater pH. Likewise there is no significant variability in the d11B of our Atlantic core top G. sacculifer, but we find that d11B increases with increasing test size for G. sacculifer in the Pacific. These systematic differences in d11B are inferred to be a consequence of isotopically light gametogenic calcite in G. sacculifer and its preferential preservation during postdepositional dissolution. The trace element ratio proxies of ocean carbonate equilibria, U/Ca and B/Ca, show systematic increases in both G. ruber and G. sacculifer with increasing test size, possibly as a result of changing growth rates. This behavior complicates their use in paleoceanographic reconstructions. In keeping with several previous studies we find that Mg/Ca ratios increase with increasing size fraction in our well-preserved Atlantic G. sacculifer but not in G. ruber. In contrast to previous interpretations we suggest that these observations reflect a proportionally larger influence of compositionally distinct gametogenic calcite in small individuals compared to larger ones. As with d11B this influences G. sacculifer but not G. ruber, which has negligible gametogenic calcite.

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