Anthropogenic activities release CO2 to the atmosphere, increasing the CO2 dissolved in the ocean. This process causes a change in seawater carbonate chemistry, lowering the pH and the carbonate saturation state (Ω) and affecting marine organisms that build calcium carbonate shells and skeletons. In the last decade, an increasing concern has grown regarding the effects of ocean acidification on calcifying organisms such as foraminifera and corals. The majority of these studies are laboratory experiments or short-term field observations which do not fully reflect the complexity of natural environments and long-term ecosystem scale responses. This dissertation aims to predict the response of foraminifera and corals under future higher concent...
Ocean acidification is perceived to be a major threat for many calcifying organisms, including scler...
Increased CO2 emissions into the atmosphere lead to increased concentrations of dissolved CO2 in the...
Changes in the seawater carbonate chemistry (ocean acidification) from increasing atmospheric carbon...
Anthropogenic activities release CO2 to the atmosphere, increasing the CO2 dissolved in the ocean. T...
Coral calcification is expected to decline as atmospheric carbon dioxide concentration increases. We...
As the surface ocean equilibrates with rising atmospheric pCO2, the pH of surface seawater is decrea...
Abstract The CO2 concentration of air has increased over the last two centuries and recently surpass...
The combination of global and local stressors is leading to a decline in coral reef health globally....
Owing to anthropogenic emissions, atmospheric concentrations of carbon dioxide could almost double b...
As atmospheric levels of CO₂ increase, reef-building corals are under greater stress from both incre...
Coral calcification is expected to decline as atmospheric carbon dioxide concentration increases. We...
As atmospheric levels of CO2 increase, reef-building corals are under greater stress from both incre...
Rising atmospheric CO 2 and its equilibration with surface ocean seawater is lowering both the pH an...
Owing to anthropogenic emissions, atmospheric concentrations of carbon dioxide could almost double b...
Calcifying corals provide important habitat complexity in the deep-sea and are consistently associat...
Ocean acidification is perceived to be a major threat for many calcifying organisms, including scler...
Increased CO2 emissions into the atmosphere lead to increased concentrations of dissolved CO2 in the...
Changes in the seawater carbonate chemistry (ocean acidification) from increasing atmospheric carbon...
Anthropogenic activities release CO2 to the atmosphere, increasing the CO2 dissolved in the ocean. T...
Coral calcification is expected to decline as atmospheric carbon dioxide concentration increases. We...
As the surface ocean equilibrates with rising atmospheric pCO2, the pH of surface seawater is decrea...
Abstract The CO2 concentration of air has increased over the last two centuries and recently surpass...
The combination of global and local stressors is leading to a decline in coral reef health globally....
Owing to anthropogenic emissions, atmospheric concentrations of carbon dioxide could almost double b...
As atmospheric levels of CO₂ increase, reef-building corals are under greater stress from both incre...
Coral calcification is expected to decline as atmospheric carbon dioxide concentration increases. We...
As atmospheric levels of CO2 increase, reef-building corals are under greater stress from both incre...
Rising atmospheric CO 2 and its equilibration with surface ocean seawater is lowering both the pH an...
Owing to anthropogenic emissions, atmospheric concentrations of carbon dioxide could almost double b...
Calcifying corals provide important habitat complexity in the deep-sea and are consistently associat...
Ocean acidification is perceived to be a major threat for many calcifying organisms, including scler...
Increased CO2 emissions into the atmosphere lead to increased concentrations of dissolved CO2 in the...
Changes in the seawater carbonate chemistry (ocean acidification) from increasing atmospheric carbon...