Add to ORKGA large fraction of the carbon dioxide added to the atmosphere by human activity enters the sea, causing ocean acidification. We show that otoliths (aragonitic ear bones) of young fish grown under high CO2 (low pH) conditions are larger than normal, contrary to expectation. We hypothesize that CO2 moves freely through the epithelium around the otoliths in young fish, accelerating otolith growth while the local pH is controlled. This is the converse of the effect reported for structural biominerals
Oceans are acidifying as atmospheric CO2 is drawn down. This process, known as ocean acidification (...
Background: Ocean acidification may affect fish mineralized structures (i.e. otoliths and skeleton)....
Ocean acidification threatens marine ecosystems by altering ocean chemistry and calcification proces...
A large fraction of the carbon dioxide added to the atmosphere by human activity enters the sea, cau...
Alarge fraction (0.3 to 0.5) of the carbondioxide (CO2) added to the atmosphereby human burning of f...
Calcification in many invertebrate species is predicted to decline due to ocean acidification. The p...
Ocean acidification (OA) may have varied effects on fish eco-physiological responses. Most OA studie...
Increasing amounts of atmospheric carbon dioxide (CO2) from human industrial activities are causing ...
Calcification in many invertebrate species is predicted to decline due to ocean acidification. The p...
The growth and development of the aragonitic CaCO3 otoliths of teleost fish could be vulnerable to p...
Ocean acidification (OA) may have varied effects on fish eco-physiological responses. Most OA studie...
Ocean acidification (OA) may have varied effects on fish eco-physiological responses. Most OA studie...
Determining which marine species are sensitive to elevated CO2 and reduced pH, and which species tol...
Ocean acidification, the ongoing reduction of surface ocean seawater pH and free CO32- due to absorp...
Ocean acidification, the ongoing decline of surface ocean pH and [CO 23− ] due to absorption of surp...
Oceans are acidifying as atmospheric CO2 is drawn down. This process, known as ocean acidification (...
Background: Ocean acidification may affect fish mineralized structures (i.e. otoliths and skeleton)....
Ocean acidification threatens marine ecosystems by altering ocean chemistry and calcification proces...
A large fraction of the carbon dioxide added to the atmosphere by human activity enters the sea, cau...
Alarge fraction (0.3 to 0.5) of the carbondioxide (CO2) added to the atmosphereby human burning of f...
Calcification in many invertebrate species is predicted to decline due to ocean acidification. The p...
Ocean acidification (OA) may have varied effects on fish eco-physiological responses. Most OA studie...
Increasing amounts of atmospheric carbon dioxide (CO2) from human industrial activities are causing ...
Calcification in many invertebrate species is predicted to decline due to ocean acidification. The p...
The growth and development of the aragonitic CaCO3 otoliths of teleost fish could be vulnerable to p...
Ocean acidification (OA) may have varied effects on fish eco-physiological responses. Most OA studie...
Ocean acidification (OA) may have varied effects on fish eco-physiological responses. Most OA studie...
Determining which marine species are sensitive to elevated CO2 and reduced pH, and which species tol...
Ocean acidification, the ongoing reduction of surface ocean seawater pH and free CO32- due to absorp...
Ocean acidification, the ongoing decline of surface ocean pH and [CO 23− ] due to absorption of surp...
Oceans are acidifying as atmospheric CO2 is drawn down. This process, known as ocean acidification (...
Background: Ocean acidification may affect fish mineralized structures (i.e. otoliths and skeleton)....
Ocean acidification threatens marine ecosystems by altering ocean chemistry and calcification proces...