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(Supplement 1) Most common taxa or groups of coccoliths from ODP Site 1233 (p...
This dataset has no description
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(Table T2) Pleistocene calcareous nannofossil abundance in sediments of ODP L...
Observed at a magnification of 1000X. Abundance of taxa: D = dominant, >50% of the total assemblage, A = abundant, >10%-50% of the total assemblage, C = common, >1%-10%... -
(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... -
(Table A2) 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... -
Coccolithophorids in surface sediments of the South Atlantic
This dataset has no description
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Seawater carbonate chemistry and polyphenols and carbohydrates of Emiliania h...
Cultures of the coccolithophore Emiliania huxleyi were grown under four different CO2-controlled pH conditions (7.75, 7.90, 8.10, and 8.25) to explore variations in extra- and... -
Semi-quantitative microplankton analysis (Sylt Roads Time Series) - Wadden Se...
In order to monitor long-term variability in or eventual change of the planktonic community a semiquantitative analysis of microplankton based on net sampling is ongoing since... -
Semi-quantitative microplankton analysis (Sylt Roads Time Series) - Wadden Se...
In order to monitor long-term variability in or eventual change of the planktonic community a semiquantitative analysis of microplankton based on net sampling is ongoing since... -
Seawater carbonate chemistry and coccolithophores and diatoms resilient to oc...
Here, we investigatethe impacts of moderate (~700 μmol/kg) and high (~2700 μmol/kg) limestone-inspired alkalinity additionson two biogeochemically and ecologically important... -
Seawater carbonate chemistry and growth rates, carbon utilization and the int...
Ocean acidification (OA) appears to have diverse impacts on calcareous coccolithophores, but the cellular processes underlying these responses are not well understood. Here we...
