(Appendix A) Radiolarian abundances in ODP Hole 175-1084A

The changing composition of radiolarian faunas from late Neogene deep-sea sediments has been used in recent years as a proxy for changes in marine paleoproductivity. We examine radiolarian faunas, organic carbon content (TOC), opal and coarse-fraction components over the last 270,000 years in sedime...

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Bibliographic Details
Main Authors: Lazarus, David B, Bittniok, Beatrice, Diester-Haass, Lieselotte, Billups, Katharina, Ogawa, Yujiro, Takahashi, Kozo, Meyers, Philip A
Format: Dataset
Language:English
Published: PANGAEA 2008
Subjects:
175-1084A
Acanthosphaera corlocae
Accumulation rate
benthic foraminifera by number
mass
Acrosphaera murrayana
Actinomma antarcticum
Actinomma boreale
Actinomma leptodermum
Actinomma popofskii
AGE
Amphirhopalum ypsilon
Antarctissa spp.
Anthocyrtidium ophirense
Anthocyrtidium zanguebaricum
Arachnocorys circumtexta
Benguela Current
South Atlantic Ocean
Botryocyrtis scutum
Botryostrobus aquilonaris
Botryostrobus auritus/australis
Calcium carbonate
Calculated
Carbon
organic
total
Carpocaniidae indeterminata
Cladococcus sp.
Cornutella profunda
Counting >150 µm fraction
Counting >45 µm fraction
Cycladophora bicornis
Cycladophora conica
Cycladophora davisiana
Cyrtopera laguncula
DEPTH
sediment/rock
Dictiocoryne profunda
Dictyophimus crisiae
Dictyophimus infabricatus
Didymocyrtis tetrathalamus
DRILL
Drilling/drill rig
DSDP/ODP/IODP sample designation
Element analyser CHNS-O
Eucyrtidium acuminatum
Eucyrtidium calvertense
Eucyrtidium teuscheri group
Heliodiscus asteriscus
Antarc*
Online Access:https://doi.pangaea.de/10.1594/PANGAEA.773654
https://doi.org/10.1594/PANGAEA.773654
Description
Summary:The changing composition of radiolarian faunas from late Neogene deep-sea sediments has been used in recent years as a proxy for changes in marine paleoproductivity. We examine radiolarian faunas, organic carbon content (TOC), opal and coarse-fraction components over the last 270,000 years in sediments from ODP Hole 1084A, drilled in a high productivity upwelling region within the Benguela Upwelling System off the west coast of Africa. Age control is provided by stable oxygen isotope measurements of benthic foraminifera. Prior research has established that late Pleistocene glacial intervals in this upwelling system generally had higher productivity than interglacials. The radiolarian WADE (water-depth ecology) paleoproductivity index correlates well with TOC and opal in these samples, and all three parameters change in synchrony with the benthic isotope curve over all but the MIS 5e–6 time interval. WADE inferred productivity is significantly higher in glacials than interglacials. We conclude that the WADE index is a useful proxy for paleoproductivity at this location, as are also opal and organic carbon accumulation rates. Carbonate and carbonate based indices such as the accumulation rate of benthic foraminifera (BFAR) by contrast do not correlate well either to productivity indices or to the glacial–interglacial cycle, and are interpreted to primarily reflect carbonate dissolution.

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