(Table A1) CaCO3 contents and Sr/Ca ratios in ODP Leg 130, 138 and 154

Strontium/calcium (Sr/Ca) ratios in bulk and foraminiferal calcite have been used to constrain the history of Sr/Ca in the oceans and to evaluate calcite diagenetic alteration. However bulk Sr/Ca records also may be influenced by differences in Sr uptake and/or in the diagenetic susceptibility of di...

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Bibliographic Details
Main Authors: Andreasen, Gretchen Hampt, Delaney, Margaret Lois
Format: Dataset
Language:English
Published: PANGAEA 2000
Subjects:
130-803C
130-803D
130-804A
130-804B
130-804C
130-806B
130-806C
130-807A
130-807C
138-844
138-846A
138-846B
154-925A
154-925B
154-925E
154-929A
154-929B
154-929E
AGE
Calcium carbonate
Calculated
COMPCORE
Composite Core
Coulometry
DEPTH
sediment/rock
DRILL
Drilling/drill rig
DSDP/ODP/IODP sample designation
Event label
ICP-MS
Thermo Finnigan Mat
Element
Joides Resolution
Leg130
Leg138
Leg154
Mass
North Atlantic Ocean
North Pacific Ocean
Ocean Drilling Program
ODP
Sample code/label
Size fraction < 0.045 mm
Size fraction > 0.063 mm
sand
Size fraction > 0.425 mm
Size fraction 0.063-0.045 mm
Size fraction 0.125-0.063 mm
Size fraction 0.250-0.125 mm
North Atlantic
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.745110
https://doi.org/10.1594/PANGAEA.745110
Description
Summary:Strontium/calcium (Sr/Ca) ratios in bulk and foraminiferal calcite have been used to constrain the history of Sr/Ca in the oceans and to evaluate calcite diagenetic alteration. However bulk Sr/Ca records also may be influenced by differences in Sr uptake and/or in the diagenetic susceptibility of different calcium carbonate sedimentary components. We present data on the sediment size fraction and calcium carbonate distribution in bulk samples, Sr/Ca in a range of sedimentary size components, and Sr/Ca in bulk sediments. Ocean Drilling Program samples from sites on Ontong Java Plateau and Ceara Rise (in the western equatorial Pacific and Atlantic, respectively) and from sites in the eastern equatorial Pacific were selected to represent progressive stages in the diagenetic pathway from the sea floor through a range of burial depths equivalent to sediment ages of ~5.6, ~9.4, and ~37.1 Ma. Samples were subdivided by size to produce a unique data set of size-specific Sr/Ca ratios. Fine fraction (<45 ?m) Sr/Ca ratios are higher than those of all corresponding coarse fractions, indicating that fine nannofossil-dominated calcite has a Sr partition coefficient 1.3–1.5 times greater than that of coarse foraminifera-dominated calcite. Thus, absolute values of bulk Sr/Ca in contemporaneous samples reflect, in part, the ratio of fine to coarse calcite sedimentary components. Sr/Ca values in fine and coarse components also behave differently in their response to pre-burial dissolution and to recrystallization at depth. Coarse size components are sensitive to bottom water carbonate ion undersaturation, and they lose original Sr/Ca differences among contemporary samples over not, vert, similar10 my. In contrast, fine components recrystallize faster in more deeply buried samples. Interpretation of the historical Sr/Ca record is complicated by post-depositional diagenetic artifacts, and thus our data do not provide clear evidence of specific temporal changes in oceanic Sr/Ca ratios over the past 10 million years. This paper ...

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