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Phytoplankton abundance during Akademik Vernadsky cruise AV22
This dataset has no description
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Coccolithophore and diatom cell abundance from the upper mixed later of the G...
This data was collected as part of the Great Calcite Belt project, from 60W to 120E and 30S to 60S. during MV1101 onboard R/V Melville, January- February 2011 in the South... -
Microplankton abundance in the euphotic zone of the Aegean Sea at Station JUN...
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Microplankton abundance in the euphotic zone of the Aegean Sea at Station JUN...
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Microplankton abundance in the euphotic zone of the Aegean and Levantine Seas...
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Microplankton abundance in the euphotic zone of the Aegean and Levantine Seas...
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Microplankton abundance in the euphotic zone of the Aegean Sea in September 1994
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Microplankton abundance in the euphotic zone of the Aegean Sea at Station JUN...
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Microplankton abundance at Station MARCH-1997-GN36199704603MNB05 in the eupho...
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Microplankton abundance at Station MARCH-1997-GN36199704603MNB04 in the eupho...
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Microplankton abundance at Station MARCH-1997-GN36199704603MNB03 in the eupho...
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Microplankton abundance at Station MARCH-1997-GN36199704603MNB02 in the eupho...
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Microplankton abundance at Station MARCH-1997-GN36199704601MSB02 in the eupho...
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Microplankton abundance at Station MARCH-1997-GN36199704601MSB01 in the eupho...
Microplankton species composition analysis was performed according to the inverted microscope method of Utermoehl. Samples for identification and enumeration of larger... -
Nanoplankton abundance at station GeoB2006-4
This dataset has no description
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Range table from nannofossils in ODP Hole 145-884B
This dataset has no description
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Range table from nannofossils in ODP Hole 143-869A
This dataset has no description
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Nannofossil abundance of Hole 19-192A
Relative abundance: D = dominant, A = abundant, C = common, F = few, R = rare, T = trace, P = present (numerical values are abundance in percent) -
Nannofossil abundance of Hole 36-329
Relative abundance: D = dominant, A = abundant, C = common, F = few, R = rare, T = trace, P = present (numerical values are abundance in percent) -
Nannofossil abundance of Hole 94-608
Relative abundance: D = dominant, A = abundant, C = common, F = few, R = rare, T = trace, P = present (numerical values are abundance in percent)
