How does rising atmospheric CO2 affect marine organisms?

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Ocean Acidification (Effects on Marine Plants: Phytoplankton -- Mixtures of All Types)

Material in this section originates from the following category in our Subject Index:

Ocean Acidification (Effects on Marine Plants: Phytoplankton -- Mixtures of All Types)


* -- Arctic Phytoplankton Demonstrate Resilience to Ocean Acidification

* -- The Impact of Ocean Acidification on Phytoplankton Fatty Acid Production

* -- The Positive Response of Seven Phytoplankton Species to Ocean Acidification

* -- The Positive Influence of Ocean Acidification on Atlantic Herring Larave Survival

* -- Impacts of Ocean Acidification on a Marine Food Web

* -- The Future of Coastal Productivity

* -- Responses of Marine Benthic Microalgae to Declining pH Values

* -- Ocean Acidification's Impact on Planktonic Community Fatty Acids

* -- Effects of Ocean Acidification on Costal Plankton Communities

* -- A Largely Unappreciated Effect of Elevated Atmospheric CO2 on Coastal Seawater Nitrogen Content

* -- Elevated CO2 Boosts Iron's Positive Impact on Phytoplanktonic Productivity

Primary Production in Future CO2-Enriched Ocean Water

CO2 Enrichment at Sea

Marine Ecosystem Response to "Ocean Acidification" Due to Atmospheric CO2 Enrichment

Southern Ocean Phytoplankton Responses to Atmospheric CO2 Enrichment

Elevated CO2 Primes the Ocean's Biological Carbon Pump

* -- Responses of Marine Microalgae to Very High Atmospheric CO2 Concentrations

Responses of Marine Phytoplankton to Elevated Atmospheric CO2

Effects of Elevated CO2 on Phytoplankton Productivity

Rising CO2 Affects Ocean Carbon Pumps