-
(Table A7) Distribution of Pleistocene calcareous nannofossil marker species ...
Observed at a magnification of 1000X. Abundance of taxa: V = very abundant (>50%), A = abundant (>20-<50 %), C = common (>10-<20%), F = few (>1-<10%), R =... -
(Table A6) Distribution of Pleistocene calcareous nannofossil marker species ...
Observed at a magnification of 1000X. Abundance of taxa: V = very abundant (>50%), A = abundant (>20-<50 %), C = common (>10-<20%), F = few (>1-<10%), R =... -
(Table A5) Distribution of Pleistocene calcareous nannofossil marker species ...
Observed at a magnification of 1000X. Abundance of taxa: V = very abundant (>50%), A = abundant (>20-<50 %), C = common (>10-<20%), F = few (>1-<10%), R =... -
(Table A4) Distribution of Pleistocene calcareous nannofossil marker species ...
Observed at a magnification of 1000X. Abundance of taxa: V = very abundant (>50%), A = abundant (>20-<50 %), C = common (>10-<20%), F = few (>1-<10%), R =... -
(Table A3) Distribution of Pleistocene calcareous nannofossil marker species ...
Observed at a magnification of 1000X. Abundance of taxa: V = very abundant (>50%), A = abundant (>20-<50 %), C = common (>10-<20%), F = few (>1-<10%), R =... -
(Table A2) Distribution of Pleistocene calcareous nannofossil marker species ...
Observed at a magnification of 1000X. Abundance of taxa: V = very abundant (>50%), A = abundant (>20-<50 %), C = common (>10-<20%), F = few (>1-<10%), R =... -
(Table A1) Distribution of Pleistocene calcareous nannofossil marker species ...
Observed at a magnification of 1000X. Abundance of taxa: V = very abundant (>50%), A = abundant (>20-<50 %), C = common (>10-<20%), F = few (>1-<10%), R =... -
(Table A3) Abundance of nannofossil marker species and morphotypes in sedimen...
Relative abundances of taxa or morphotypes were estimated as follows: V = very abundant (>50%), A = abundant (>20 <50%), C = common (>10 <20%), F = few (>1... -
(Table A5) Abundance of nannofossil marker species and morphotypes in sedimen...
Relative abundances of taxa or morphotypes were estimated as follows: V = very abundant (>50%), A = abundant (>20 <50%), C = common (>10 <20%), F = few (>1... -
(Table A4) Abundance of nannofossil marker species and morphotypes in sedimen...
Relative abundances of taxa or morphotypes were estimated as follows: V = very abundant (>50%), A = abundant (>20 <50%), C = common (>10 <20%), F = few (>1... -
(Table A1) Abundance of nannofossil marker species and morphotypes in sedimen...
Relative abundances of taxa or morphotypes were estimated as follows: V = very abundant (>50%), A = abundant (>20 <50%), C = common (>10 <20%), F = few (>1... -
XLM-RoBERTa-LARGE events relation recognition
A set of basic language tools for the Polish language. Z4.2a Improving the quality of recognition of relations between events using Transformer-type deep networks. -
(Table T2) Occurrence of calcareous nannofossils with zonal assignments, ODP ...
Table note: + = present, - = not present -
(Table T2) Occurrence of calcareous nannofossils with zonal assignments, ODP ...
Table note: + = present, - = not present -
(Table T2) Distribution of Pleistocene calcareous nannofossils, ODP Hole 178-...
Table notes: * = very dissolved and overgrown. Abundance: A = abundant, C = common, F = few, R = rare, X = scarce, B = barren. Preservation: P = poor, M = moderate. -
(Table T2) Distribution of Pleistocene calcareous nannofossils, ODP Hole 178-...
Table notes: * = very dissolved and overgrown. Abundance: A = abundant, C = common, F = few, R = rare, X = scarce, B = barren. Preservation: P = poor, M = moderate. -
(Table T3) Distribution of Pleistocene calcareous nannofossils, ODP Hole 178-...
Table notes: Abundance: A = abundant, C = common, F = few, R = rare, X = scarce, B = barren. Preservation: P = poor, M = moderate. -
Phytoplankton abundance at bottle station GOM6/1
This dataset has no description
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Phytoplankton abundance at bottle station GOM5/4
This dataset has no description
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Phytoplankton abundance at bottle station GOM4/1
This dataset has no description
