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(Table 2) Planktonic foraminifer datums in ODP Hole 144-871A and their strati...
This dataset has no description
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(Table 2) Depth and ages of chron and subchron boundaries and linear sediment...
Sediment depth (m) is composite depth (mcd). -
(Table 2) Stable oxygen isotope event stratigraphy and associated ages of ODP...
GPTS = Geomagnetic Polarity Time Scale from Berggren et al. (1985). Zone Mi7 is not formally recognized as an isotope chronozone, but it is useful in upper Miocene correlations... -
(Table 5) Paleomagnetic and selected biostratigraphic datum levels in ODP Sit...
The first occurrence of S. peregrina in equatorial Pacific cores has been tied to above the normal of C3AR (6.2-6.3 Ma, Theyer and Hammond, 1984) to near the C4N/C3AR boundary... -
(Table 2) Range chart for Bolboforma in ODP Hole 113-690B
A = abundant, C = common, R = rare. -
(Table 1) Range chart for Bolboforma in ODP Hole 113-689B
A = abundant, C = common, R = rare. -
(Figure 10) Range chart of selected dinocysts and acritarchs of ODP Hole 104-...
Species abundance: A = abundant (>49%), C = common (10-49%), R = rare to frequent (1-9%), - = not present -
(Figure 9) Range chart of selected dinocysts and acritarchs of ODP Hole 104-6...
Species abundance: A = abundant (>49%), C = common (10-49%), R = rare to frequent (1-9%), - = not present -
(Figure 8) Range chart of selected dinocysts and acritarchs of ODP Hole 104-6...
Species abundance: A = abundant (>49%), C = common (10-49%), R = rare to frequent (1-9%), - = not present -
(Figure 7) Range chart of selected dinocysts and acritarchs of ODP Hole 104-643A
Species abundance: A = abundant (>49%), C = common (10-49%), R = rare to frequent (1-9%), - = not present -
(Figure 6) Range chart of selected dinocysts and acritarchs of ODP Hole 104-642C
Species abundance: A = abundant (>49%), C = common (10-49%), R = rare to frequent (1-9%), - = not present -
(Figure 5) Range chart of selected dinocysts and acritarchs of ODP Hole 104-642A
Species abundance: A = abundant (>49%), C = common (10-49%), R = rare to frequent (1-9%), - = not present -
(Table 7) Magnetic reversal boundaries identified in ODP Hole 104-644B
This dataset has no description
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(Table 6) Magnetic reversal boundaries identified in ODP Hole 104-644A
This dataset has no description
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(Table 5) Magnetic reversal boundaries identified in ODP Hole 104-643A
1.66 Ma = C1R-2/C2N > hiatus > C2N/C2R = 1.88 Ma. 4.10 Ma = C3R-1/C3N-2 > hiatus > C3AN-2/C3AR-2 = 5.89 Ma. 8.80 Ma = C4AN-3/C4AR-3 > 3 hiatuses >... -
(Table 4) Magnetic reversal boundaries identified in ODP Hole 104-642D
This dataset has no description
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(Table 3) Magnetic reversal boundaries identified in ODP Hole 104-642C
2.92 Ma = C2AN-1/C2AR-1 > hiatus > C2AN-2/C2AR-2 = 3.08 Ma. 6.70 Ma = C3BR/C4N-1 > 2 hiatuses and unresolved very predominantly normal polarity sequences in Cores 16... -
(Table 2) Magnetic reversal boundaries identified in ODP Hole 104-642B
2.92 Ma = C2AN-1/C2AR-1 > hiatus > C2AR-1/C2AN-2 = 2.99 Ma. 6.37 Ma = C3AR-2/C3BN > 2 hiatuses; small badly disturbed recovery in Core 14; unresolved very predominantly... -
(Table 1) Dinocyst datum events from the Eocene-Oligocene of the Norwegian-Gr...
This dataset has no description
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(Table 1) Dinocyst datum events from the Eocene-Oligocene of the composite st...
Stacked dinocyst datum events of ODP Holes 104-643A, 151-913B and DSDP Hole 38-338 (see dataset: doi:10.1594/PANGAEA.737344)
