-
Global SEM coccolithophore abundance compilation
Coccolithophores are globally important marine calcifying phytoplankton. They contribute to the organic carbon pump through the primary production and the ballast of organic... -
Heterococcolithophores and holococcolithophores in the Mediterranean Sea duri...
For all the absolute coccolithophore abundances during the Meteor M84/3 cruise, see Oviedo et al. (2017) doi:10.1594/PANGAEA.875202. -
(Figure 1) Calcareous nannofossil abundances in ODP Hole 150-905A
Species abundance: - = not present; r = very rare, R = rare, F = few, C = common, A = abundant, W = very abundant, and ( ) = redeposited. Nannofossil abundance is the number of... -
(Table 7) Stratigraphic distribution of calcareous nannofossil taxa in ODP Ho...
Species abundance: P = present, R = rare, F = few, C = common, A = abundant, V = very abundant, O = ooze, - = not present. Sediment depth is given in mbsf. -
(Table 5) Stratigraphic distribution of calcareous nannofossil taxa in ODP Ho...
Species abundance: P = present, R = rare, F = few, C = common, A = abundant, V = very abundant, O = ooze, - = not present. Sediment depth is given in mbsf. -
(Table 3) Stratigraphic distribution of calcareous nannofossil taxa in ODP Ho...
Species abundance: P = present, R = rare, F = few, C = common, A = abundant, V = very abundant, O = ooze, - = not present. Sediment depth is given in mbsf. -
Extant coccolithophores around Cabo Verde Archipelago during Maria S. Merian ...
A systematic investigation of the extant coccolithophore community around Cabo Verde Archipelago was performed during the cruise MSM49 of FS Maria S. Merian between November,... -
Range table from nannofossils in ODP Hole 150-905A
This dataset has no description
-
Range table from nannofossils in ODP Hole 149-900A
This dataset has no description
-
Flux data of NU2_trap (Table A1)
Flux of bulk components, carbonate- and silicate-bearing skeleton organisms, and the d15N-isotopic signal were investigated on a 1-year time-series sediment trap deployed at the... -
Distribution of nanoplankton at trap WR2
This dataset has no description
-
Abundance of nanoplankton in sediment core GeoB1028-5
This dataset has no description
-
(Table 6) Distribution of calcareous nannofossils in DSDP Hole96-624
Sediment depth is given in mbsf. Abundances: V = very abundant (10-100 specimens/field), A = abundant (1-10 specemens/field), C = common (1 specimen/2-10 fields), F = few (1... -
(Table 5) Distribution of calcareous nannofossils in DSDP Hole 96-623
Sediment depth is given in mbsf. Abundances: V = very abundant (10-100 specimens/field), A = abundant (1-10 specemens/field), C = common (1 specimen/2-10 fields), F = few (1... -
(Table 2) Distribution of calcareous nannofossils in DSDP Hole 96-622
Sediment depth is given in mbsf. Abundances: V = very abundant (10-100 specimens/field), A = abundant (1-10 specemens/field), C = common (1 specimen/2-10 fields), F = few (1... -
(Table 1) Distribution of calcareous nannofossils in DSDP Hole 96-621
Sediment depth is given in mbsf. Abundances: V = very abundant (10-100 specimens/field), A = abundant (1-10 specemens/field), C = common (1 specimen/2-10 fields), F = few (1... -
(Table 4) Distribution of calcareous nannofossils in DSDP Hole 96-620
Sediment depth is given in mbsf. Abundances: V = very abundant (10-100 specimens/field), A = abundant (1-10 specemens/field), C = common (1 specimen/2-10 fields), F = few (1... -
(Table 11) Distribution of calcareous nannofossils in DSDP Hole 96-619
Sediment depth is given in mbsf. Abundances: V = very abundant (10-100 specimens/field), A = abundant (1-10 specemens/field), C = common (1 specimen/2-10 fields), F = few (1... -
(Table 10) Distribution of calcareous nannofossils in DSDP Hole 96-618
Sediment depth is given in mbsf. Abundances: V = very abundant (10-100 specimens/field), A = abundant (1-10 specemens/field), C = common (1 specimen/2-10 fields), F = few (1... -
(Table 3) Distribution of calcareous nannofossils in DSDP Hole 96-617
Sediment depth is given in mbsf. Abundances: V = very abundant (10-100 specimens/field), A = abundant (1-10 specemens/field), C = common (1 specimen/2-10 fields), F = few (1...
