Experimentally elevated pCO2 and the associated pH drop are known to differentially affect many aspects of the physiology of diatoms under different environmental conditions or in different regions. However, contrasting responses to elevated pCO2 in the dark and light periods of a diel cycle have not been documented. By growing the model diatom Phaeodactylum tricornutum under 3 light levels and 2 different CO2 concentrations, we found that the elevated pCO2/pH drop projected for future ocean acidification reduced the diatom's growth rate by 8–25% during the night period but increased it by up to 9–21% in the light period, resulting in insignificant changes in growth over the diel cycle under the three different light levels. The elevated pC...
We studied the interactive effects of pCO2 and growth light on the coastal marine diatom Thalassiosi...
We studied the interactive effects of pCO(2) and growth light on the coastal marine diatom Thalassio...
Climate change is expected to bring about alterations in the marine physical and chemical environmen...
Elevated CO2 is leading to a decrease in pH in marine environments (ocean acidification [OA]), alter...
Diatoms dominate nearly half of current oceanic productivity, so their responses to ocean acidificat...
CO2/pH perturbation experiments were carried out under two different pCO2 levels (39.3 and 101.3 Pa)...
Ocean acidification (OA) due to atmospheric CO2 rise is expected to influence marine primary product...
Ocean acidification (OA) due to atmospheric CO2 rise is expected to influence marine primary product...
Ocean acidification (OA) due to atmospheric CO2 rise is expected to influence marine primary product...
The response of marine phytoplankton to the ongoing increase in atmospheric pCO2 reflects the conseq...
Phytoplankton in the upper oceans are exposed to changing light levels due to mixing, diurnal solar ...
Ocean acidification is changing the nature of inorganic carbon availability in the global oceans. Di...
We studied the effects of elevated CO2 concentration and seawater acidity on inorganic carbon acquis...
Shifts in phytoplankton composition and productivity are anticipated in the future, because phytopla...
We studied the interactive effects of pCO2 and growth light on the coastal marine diatom Thalassiosi...
We studied the interactive effects of pCO2 and growth light on the coastal marine diatom Thalassiosi...
We studied the interactive effects of pCO(2) and growth light on the coastal marine diatom Thalassio...
Climate change is expected to bring about alterations in the marine physical and chemical environmen...
Elevated CO2 is leading to a decrease in pH in marine environments (ocean acidification [OA]), alter...
Diatoms dominate nearly half of current oceanic productivity, so their responses to ocean acidificat...
CO2/pH perturbation experiments were carried out under two different pCO2 levels (39.3 and 101.3 Pa)...
Ocean acidification (OA) due to atmospheric CO2 rise is expected to influence marine primary product...
Ocean acidification (OA) due to atmospheric CO2 rise is expected to influence marine primary product...
Ocean acidification (OA) due to atmospheric CO2 rise is expected to influence marine primary product...
The response of marine phytoplankton to the ongoing increase in atmospheric pCO2 reflects the conseq...
Phytoplankton in the upper oceans are exposed to changing light levels due to mixing, diurnal solar ...
Ocean acidification is changing the nature of inorganic carbon availability in the global oceans. Di...
We studied the effects of elevated CO2 concentration and seawater acidity on inorganic carbon acquis...
Shifts in phytoplankton composition and productivity are anticipated in the future, because phytopla...
We studied the interactive effects of pCO2 and growth light on the coastal marine diatom Thalassiosi...
We studied the interactive effects of pCO2 and growth light on the coastal marine diatom Thalassiosi...
We studied the interactive effects of pCO(2) and growth light on the coastal marine diatom Thalassio...
Climate change is expected to bring about alterations in the marine physical and chemical environmen...