The concentration of CO2 in the atmosphere is expected to double by the end of the century. Experiments have shown that this will have important effects on the physiology and ecology of photosynthetic organisms, but it is still unclear if elevated CO2 will elicit an evolutionary response in primary producers that causes changes in physiological and ecological attributes. In this study, we cultured lines of seven species of freshwater phytoplankton from three major groups at current (approx. 380 ppm CO2) and predicted future conditions (1000 ppm CO2) for over 750 generations. We grew the phytoplankton under three culture regimes: nutrient-replete liquid medium, nutrient-poor liquid medium and solid agar medium. We then performed reciprocal t...
Atmospheric CO2 concentration has risen to a landmark high of 400 ppm, a level not seen on earth for...
Rising atmospheric CO2 concentrations are predicted to have a significant impact on global phytoplan...
With rising atmospheric CO2, phytoplankton face shifts in ocean chemistry including increased dissol...
The concentration of CO2in the atmosphere is expected to double by the end of the century. Experimen...
We report an experiment designed to identify the effect of elevated CO2 on species of phytoplankton ...
We report an experiment designed to identify the effect of elevated CO2 on species of phytoplankton ...
Nutrients can limit the productivity of ecosystems and control the composition of the communities of...
Nutrients can limit the productivity of ecosystems and control the composition of the communities of...
Nutrients can limit the productivity of ecosystems and control the composition of the communities of...
<p>Many studies have attempted to predict the consequences of climate change on the ocean's primary ...
Phytoplankton are the basis of marine food webs, and affect biogeochemical cycles. As CO2 levels inc...
Phytoplankton are the basis of marine food webs, and affect biogeochemical cycles. As CO2 levels inc...
We report an experiment designed to identify the effect of elevated CO 2 on species of phytoplankton...
Increased atmospheric CO2 levels from anthropogenic emissions are expected to interact with the phot...
Rising atmospheric CO2 and ocean acidification are fundamentally altering conditions for life of all...
Atmospheric CO2 concentration has risen to a landmark high of 400 ppm, a level not seen on earth for...
Rising atmospheric CO2 concentrations are predicted to have a significant impact on global phytoplan...
With rising atmospheric CO2, phytoplankton face shifts in ocean chemistry including increased dissol...
The concentration of CO2in the atmosphere is expected to double by the end of the century. Experimen...
We report an experiment designed to identify the effect of elevated CO2 on species of phytoplankton ...
We report an experiment designed to identify the effect of elevated CO2 on species of phytoplankton ...
Nutrients can limit the productivity of ecosystems and control the composition of the communities of...
Nutrients can limit the productivity of ecosystems and control the composition of the communities of...
Nutrients can limit the productivity of ecosystems and control the composition of the communities of...
<p>Many studies have attempted to predict the consequences of climate change on the ocean's primary ...
Phytoplankton are the basis of marine food webs, and affect biogeochemical cycles. As CO2 levels inc...
Phytoplankton are the basis of marine food webs, and affect biogeochemical cycles. As CO2 levels inc...
We report an experiment designed to identify the effect of elevated CO 2 on species of phytoplankton...
Increased atmospheric CO2 levels from anthropogenic emissions are expected to interact with the phot...
Rising atmospheric CO2 and ocean acidification are fundamentally altering conditions for life of all...
Atmospheric CO2 concentration has risen to a landmark high of 400 ppm, a level not seen on earth for...
Rising atmospheric CO2 concentrations are predicted to have a significant impact on global phytoplan...
With rising atmospheric CO2, phytoplankton face shifts in ocean chemistry including increased dissol...