-
(Table S1) Abundance matrix of the nannofossils from four sections belonging ...
This dataset has no description
-
(Table 5) Relative abundance of nannofossils of ODP Hole 103-641A
Species abundance: V = very abundant (>20 specimens per field of view), A = abundant (1-10 specimens per field of view), C = common (1 specimen per 11-100 fields of view), F... -
(Table 4) Relative abundance of nannofossils of ODP Hole 103-641C
Species abundance: V = very abundant (>20 specimens per field of view), A = abundant (1-10 specimens per field of view), C = common (1 specimen per 11-100 fields of view), F... -
(Table 3) Relative abundance of nannofossils of ODP Hole 103-640A
Species abundance: V = very abundant (>20 specimens per field of view), A = abundant (1-10 specimens per field of view), C = common (1 specimen per 11-100 fields of view), F... -
(Table 2) Relative abundance of nannofossils of ODP Site 103-638
Species abundance: V = very abundant (>20 specimens per field of view), A = abundant (1-10 specimens per field of view), C = common (1 specimen per 11-100 fields of view), F... -
(Table 1) Relative abundance of nannofossils of ODP Hole 103-639A
Species abundance: V = very abundant (>20 specimens per field of view), A = abundant (1-10 specimens per field of view), C = common (1 specimen per 11-100 fields of view), F... -
(Table 3) Nannofossil occurrence in the Albian of ODP Hole 101-635B
Species abundance: A = abundant, C = common, F = few, R = rare, - = absent -
Lower Albian Mazagan Plateau (Oceanic Anoxic station 1b) range chart, DSDP Si...
Volume: 1000 ml, high: 5 cm, field of view: 0.000227 cm**2 -
Lower Albian LArboudeysse (Niveau Paquier) range chart in percentages of nann...
Method see Geisen et al, 1999, Micropaleontology. Volume: 1000 ml, high: 5 cm, field of view: 0.000227 cm**2 -
Upper Aptian Pré-Guittard (Niveau Kilian) range chart in percentages of nanno...
Method see Geisen et al, 1999, Micropaleontology. Volume: 1000 ml, high: 5 cm, field of view: 0.000227 cm**2 -
Late Cretaceous calcareous nannofossils distribution of IODP Site 369-U1513
1 = present, 0 = absent -
(Figure 7) Relative abundance of nannoliths at DSDP Hole 62-463
0 = species that were not observed in the particular sample during counting. -
(Table 4) Distribution of Albian-Cenomanian nannofossils in DSDP Hole 77-540
Species abundances: V = very abundant (> 10 specimens per field of view at 1560 X), A = abundant (1 to 10 specimens per field), C, common (1 specimen per 2-10 fields), F =... -
(Table 2) Distribution of Aptian-Albian nannofossils in DSDP Holes 77-538A an...
Species abundances: V = very abundant (> 10 specimens per field of view at 1560 X), A = abundant (1 to 10 specimens per field), C, common (1 specimen per 2-10 fields), F =... -
(Table 1) Distribution of early Cretaceous nannofossils in DSDP Hole 77-535
Species abundances: V = very abundant (> 10 specimens per field of view at 1560 X), A = abundant (1 to 10 specimens per field), C, common (1 specimen per 2-10 fields), F =... -
(Table T5) Calcareous nannofossil stratigraphy of ODP Hole 198-1212B
Sediment depth is given in mbsf. Abundance estimates as follows: A = abundant (>10 specimens per field of view [FOV]); C = common (1 -10 specimens per FOV); F = few (1... -
(Table T4) Calcareous nannofossil stratigraphy of ODP Hole 198-1208A
Sediment depth is given in mbsf. Abundance estimates as follows: A = abundant (>10 specimens per field of view [FOV]); C = common (1 -10 specimens per FOV); F = few (1... -
(Table T3) Calcareous nannofossil stratigraphy of ODP Hole 198-1207B
Sediment depth is given in mbsf. Abundance estimates as follows: A = abundant (>10 specimens per field of view [FOV]); C = common (1 -10 specimens per FOV); F = few (1... -
(Table T2) Calcareous nannofossil stratigraphy of ODP Hole 198-1214A
Sediment depth is given in mbsf. Abundance estimates as follows: A = abundant (>10 specimens per field of view [FOV]); C = common (1 -10 specimens per FOV); F = few (1... -
(Table T1) Calcareous nannofossil stratigraphy of ODP Site 198-1213
Sediment depth is given in mbsf. Abundance estimates as follows: A = abundant (>10 specimens per field of view [FOV]); C = common (1 -10 specimens per FOV); F = few (1...