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Southern Ocean RADiolarian dataset (SO-RAD)
Radiolarians (holoplanktonic Protozoa) found in marine sediments are commonly used in Southern Ocean as palaeoclimate proxies. Generating such reconstructions of past climate... -
Core-top radiolarian abundances and environmental data from the western Pacif...
Radiolarians are a very diverse microzooplanktonic group, often distributed in regionally restricted assemblages and responding to specific environmental factors. These... -
Radiolaria abundance of sediment trap OG5
This dataset has no description
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Radiolaria abundance of sediment trap NB6
This dataset has no description
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Radiolaria abundance of sediment trap OG3
This dataset has no description
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Radiolaria assemblage in sediment core GIK23071
This dataset has no description
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Radiolaria assemblage in sediment core GIK23411-5
This dataset has no description
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Radiolaria assemblage in sediment core GIK23414-6
This dataset has no description
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Radiolaria assemblage in sediment core GIK23424-3
This dataset has no description
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Northwestern Australian Margin radiolarian core-top dataset
This dataset has no description
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Northwestern Australian Margin radiolarian dataset of IODP 363 Site U1483
This dataset has no description
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(Table T2) Abundance estimates of Eocene and Neogene radiolarians of ODP Hole...
Sediment depth is given in mbsf. Radiolarian abundance estimates as follows: T = trace (single specimen per slide), R = rare (2-5 specimens per slide), C = common (6-10... -
(Table 10) Distribution of radiolaria in Miocene to Pleistocene sediments of ...
Species abundaces: A = abundant, C = common, F = few, R = rare, - = absent. -
(Appendix B4) Radiolaria abundance of ODP Hole 112-688A
P = present, - = absent -
(Table T1) Census counts of radiolarian taxa in ODP Hole 175-1082A
Abundance: A = abundant; >10,000 specimens on a slide. C = common; 1001-10,000 specimens on a slide. F = few; 501-1000 specimens on a slide. R = rare; 11-500 specimens on a... -
(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...
