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(Table 2) Lithic fragments of lower Cretaceous sandstones of ODP Leg 103 holes
excluding replacement carbonate -
Petrography, carbonate mineralogy and texture of carbonate rocks of Meteor an...
This dataset has no description
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Smear slide investigation on ODP Hole 185-1149A
This dataset has no description
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(Table 1) Visual estimates of mineral and matrix percentages from AND1-1B thi...
In the original table, #0 is given as T. It is assumed here, that T means traces. However, the T is not explained in the article. -
Detrital zircon geochronology data, petrographic point count data and paleocu...
Triassic turbidites of the Nanpanjiang basin of south China represent the most expansive and voluminous siliciclastic turbidite accumulation in south China. The Nanpanjiang... -
Major and trace elements in sediments of ODP Site 202-1242 during the Mid Ple...
This spreadsheet contains data of the concentrations of Al, Ca, Mn, Sr, U, Th and rare earth elements in bulk sediments of ODP Site 202-1242. Digested samples were measured... -
(Table 3) Lithic fragments in sandstones at DSDP Hole 57-439
= absent; + = present; empty cells = no data. -
(Table 2) Composition of sandstone and modal analyses of lithic fragments at ...
This dataset has no description
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(Table 2) Sediment accumulation rates for DSDP Site 61-462, subdivided into a...
Sediment depth is given in mbsf. Empty cells = no data. -
(Figure 10) Distribution of Cretaceous planktonic foraminifers and associated...
Species abundance: A = abundant, AF = frequent, C = common, F = few, R = rare, small case letters = reworked, cf. = confirm, ? = presence is questionable, - = absent. -
(Table 2) Lithic grains in IODP Hole 307-U1317E sediments
Sediment depth is given in mbsf. P = present (<1%), R = rare (1-5 %), F = few (5-10%), C = common (10-30%), D = dominant (>50%), - = absent. Rock fragments are mostly of... -
(Table 1) Semiquantitative analyses of primary and secondary components of vo...
D = dominant, A = abundant, C = common, R = rare, ? = unknown; <1 = rare. Numbers in the diagenetic altered sequences and interparticle cements indicate the dominant order of... -
(Table 6) Heavy mineral and volcanic particle proportions at DSDP Site 81-552
This dataset has no description
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(Table T1) Petrographic summary of thin sections from ODP Leg 198 sites and D...
Sediment depth is given in mbsf. Abundance estimates as follows: R = rare (<5%), C = common (5%-30%), A = abundant (>30%), and - = barren. -
(Table 5) Occurrence chart of Paleogene diatom species in DSDP holes 23-219 a...
species abundance: S = singel (<0.1%), R = rare (0.1%-1.0%), F = frequent (1%-10%), C = common (10%-30%), A = abundant (30%-50%), D = dominant (>50%), - = absent -
(Table 5) Occurrence chart of Paleogene diatom species in ODP Hole 115-714A
species abundance: S = singel (<0.1%), R = rare (0.1%-1.0%), F = frequent (1%-10%), C = common (10%-30%), A = abundant (30%-50%), D = dominant (>50%), - = absent -
(Table 5) Occurrence chart of Paleogene diatom species in ODP Hole 115-713A
species abundance: S = singel (<0.1%), R = rare (0.1%-1.0%), F = frequent (1%-10%), C = common (10%-30%), A = abundant (30%-50%), D = dominant (>50%), - = absent -
(Table 4) Occurrence chart of Paleogene diatom species in ODP Hole 115-711A
species abundance: S = singel (<0.1%), R = rare (0.1%-1.0%), F = frequent (1%-10%), C = common (10%-30%), A = abundant (30%-50%), D = dominant (>50%), - = absent -
(Table 4) Occurrence chart of Paleogene diatom species in ODP Hole 115-710A
species abundance: S = singel (<0.1%), R = rare (0.1%-1.0%), F = frequent (1%-10%), C = common (10%-30%), A = abundant (30%-50%), D = dominant (>50%), - = absent -
(Table 4) Occurrence chart of Paleogene diatom species in ODP Hole 115-709C
species abundance: S = singel (<0.1%), R = rare (0.1%-1.0%), F = frequent (1%-10%), C = common (10%-30%), A = abundant (30%-50%), D = dominant (>50%), - = absent
