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Phytoplankton abundance in surface water in March 1997, Ilo, Peru
N=none, R=rare, F=few, C=common, A=abundant -
Phytoplankton abundance in surface water in March 1997, Pisco, Peru
N=none, R=rare, F=few, C=common, A=abundant -
Phytoplankton abundance in surface water in October 1996, Ilo, Peru
N=none, R=rare, F=few, C=common, A=abundant -
Phytoplankton abundance in surface water in October 1996, Pisco, Peru
N=none, R=rare, F=few, C=common, A=abundant -
Phytoplankton abundance in surface water in October 1996, Callao, Peru
N=none, R=rare, F=few, C=common, A=abundant -
Phytoplankton abundance in surface water in October 1996, Chimbote, Peru
N=none, R=rare, F=Few, C=common, A=abundant -
Phytoplankton abundance in surface water in October 1996, Paita, Peru
N=none, R=rare, F=few, C=common, A=abundant -
Phytoplankton abundance in surface water in September 1996, Ilo, Peru
N=none, R=rare, F=few, C=common, A=abundant -
Phytoplankton abundance in surface water in September 1996, Pisco, Peru
N=none, R=rare, F=Few, C=common, A=abundant -
Phytoplankton abundance in surface water in September 1996, Callao, Peru
N=none, R=rare, F=few, C=common, A=abundant -
Phytoplankton abundance in surface water in September 1996, Chimbote, Peru
N=none, R=rare, F=few, C=common, A=abundant -
Phytoplankton abundance in surface water in September 1996, Paita, Peru
N=none, R=rare, F=Few, C=common, A=abundant -
Phytoplankton abundance in surface water in July-August 1996, Ilo, Peru
N= none, R= rare, F= few, C= common, A= abundant -
Phytoplankton abundance in surface water in July-August 1996, Pisco, Peru
N= none, R= rare, F= few, C= common, A= abundant -
Phytoplankton abundance in surface water in July-August 1996, Callao, Peru
N= none, R= rare, F= few, C= common, A= abundant -
Phytoplankton abundance in surface water in July-August 1996, Chimbote, Peru
N=none, R=rare, F=few, C=common, A=abundant -
Phytoplankton abundance in surface water in July-August 1996, Paita, Peru
N=none, R=rare, F=few, C=common, A=abundant -
(Table 4) Integrated biomass, chlorophyll a and phaeopigments contents, and p...
This dataset has no description
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Seawater carbonate chemistry and growth of Prochlorococcus and Synechococcus ...
Anthropogenic CO2 emissions are projected to lower the pH of the ocean 0.3 units by 2100. Previous studies suggested that Prochlorococcus and Synechococcus, the numerically... -
Seawater carbonate chemistry and mass and fine-scale morphological changes of...
Coccolithophores have been extensively studied to understand the environmental control on calcification in a key biological group influencing the alkalinity of seawater....
