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Dissolution indices above the lysocline over the last ~40 ka measured in sedi...
We have deciphered the deep sea carbonate-ion content and associated dissolution in the central Equatorial Indian Ocean (5°N & 77°E). The marine sedimentary core was... -
CT-based dissolution index of four species of planktonic foraminifera from su...
This dataset has no description
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(Figure 5) Accumulation rates, total abundances of coccoliths, preservationin...
This dataset has no description
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Foraminiferal records of Neogloboquadrina dutertrei from sediment core WIND28K
This dataset has no description
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Foraminiferal records of Globigerinoides sacculifer from sediment core WIND28K
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(Table 5) Foraminiferal species and fluctuations of the dissolution index of ...
This dataset has no description
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(Table 4) Foraminiferal species in DSDP Sample 78-541-8-3,141-143 and Section...
This comparison shows the differences in the faunal composition in respect to the menardii-tumida complex; notice the presence of G. truncatulinoides where G. menardii is absent. -
(Table 3) Foraminiferal species in DSDP Sample 78-541-5-3,19-21
The percentages of species in the coarse fraction already indicate a slight enrichment toward the more resistant group. -
(Table 2) The presence and absence of whole and/or fragmented planktonic and ...
P = present; R = rare, 0.1-<3.0; C = common, 3.0-<10.0; A = abundant, 10.0-40.0; D = dominant, 40.0-100.0; X: only in fraction < 125 µm. -
(Table 2) Dissolution index (XDX) values and average test mass for four speci...
indicates small sample where average test mass was calculated from less than 15 tests. -
(Table 3) Abundance of planktonic foraminifera in ODP Hole 115-708A
This dataset has no description
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(Table 16) Distribution of Oligocene to Miocene radiolarians in DSDP Hole 85-...
Species abundance: C = common, F = few, R = rare, + = single specimen, ? = dubious identification, - = searched for and not found, ! = reworked or downworked specimens -
(Table 15) Distribution of Oligocene to Miocene radiolarians in DSDP Hole 85-...
Species abundance: C = common, F = few, R = rare, + = single specimen, ? = dubious identification, - = searched for and not found, ! = reworked or downworked specimens -
(Table 14) Distribution of Oligocene to Miocene radiolarians in DSDP Hole 41-...
Species abundance: C = common, F = few, R = rare, + = single specimen, ? = dubious identification, - = searched for and not found -
(Table 13) Distribution of Oligocene to Miocene radiolarians in DSDP Hole 33-...
Species abundance: C = common, F = few, R = rare, + = single specimen, ? = dubious identification, - = searched for and not found -
(Table 12) Distribution of Oligocene to Miocene radiolarians in DSDP Hole 33-...
Species abundance: C = common, F = few, R = rare, + = single specimen, ? = dubious identification, - = searched for and not found, ! = reworked or downworked specimens -
(Table 11) Distribution of Oligocene to Miocene radiolarians in DSDP Hole 30-...
Species abundance: C = common, F = few, R = rare, + = single specimen, ? = dubious identification, - = searched for and not found -
(Table 10) Distribution of Oligocene to Miocene radiolarians in DSDP Hole 15-...
Species abundance: C = common, F = few, R = rare, + = single specimen, ? = dubious identification, - = searched for and not found -
(Table 9) Distribution of Oligocene to Miocene radiolarians in DSDP Hole Sep ...
Species abundance: C = common, F = few, R = rare, + = single specimen, ? = dubious identification, - = searched for and not found, ! = reworked or downworked specimen -
(Table 8) Distribution of Oligocene to Miocene radiolarians in DSDP Hole 9-77...
Species abundance: C = common, F = few, R = rare, + = single specimen, ? = dubious identification, - = searched for and not found