@article{Spijkerman2010,
  author    = {Spijkerman, Elly},
  title     = {High Photosynthetic Rates under a Colimitation for Inorganic Phosphorus and Carbon Dioxide1},
  issn      = {0022-3646},
  doi       = {10.1111/j.1529-8817.2010.00859.x},
  year      = {2010},
  abstract  = {Inorganic phosphorus (P-i) and carbon (here, CO2) potentially limit the photosynthesis of phytoplankton simultaneously (colimitation). A single P-i limitation generally reduces photosynthesis, but the effect of a colimitation is not known. Therefore, photosynthesis was measured under P-i-limited conditions and high and low CO2, and osmo-mixotrophic (i.e., growth in the presence of glucose) conditions that result in colimiting conditions in some cases. The green alga Chlamydomonas acidophila Negoro was used as a model organism because low P-i and CO2 concentrations likely influence its photosynthetic rates in its natural environment. Results showed a decreasing maximum photosynthetic rate (P-max) and maximum quantum yield (Theta(II)) with increasing P-i limitation. In addition, a P-i limitation enhanced the relative contribution of dark respiration to P-max (R-d:P-max) but did not influence the compensation light intensity. P-max positively correlated with the cellular RUBISCO content. Osmo-mixotrophic conditions resulted in similar P-max, Theta(II), and RUBISCO content as in high-CO2 cultures. The low-CO2 cultures were colimited by P-i and CO2 and had the highest P-max, Theta(II), and RUBISCO content. Colimiting conditions for P-i and CO2 in C. acidophila resulted in an enhanced mismatch between photosynthesis and growth rates compared to the effect of a single P- i limitation. Primary productivity of colimited phytoplankton could thus be misinterpreted.},
  language  = {en}
}