%0 journal article %@ 0043-1354 %A Zagarese, H.,de los Ángeles González Sagrario, M.,Wolf-Gladrow, D.,Nõges, P.,Nõges, T.,Kangur, K.,Matsuzaki, S.,Kohzu, A.,Vanni, M.,Ozkundakci, D.,Echaniz, S.,Vignatti, A.,Grosman, F.,Sanzano, P.,Van Dam, B.,Knoll, L. %D 2021 %J Water Research %N %P 116715 %R doi:10.1016/j.watres.2020.116715 %T Patterns of CO2 concentration and inorganic carbon limitation of phytoplankton biomass in agriculturally eutrophic lakes %U https://doi.org/10.1016/j.watres.2020.116715 %X Lake eutrophication is a pervasive problem globally, particularly serious in agricultural and densely populated areas. Whenever nutrients nitrogen and phosphorus do not limit phytoplankton growth directly, high growth rates will rapidly lead to biomass increases causing self-shading and light-limitation, and eventually CO2 depletion. The paradigm of phytoplankton limitation by nutrients and light is so pervasively established, that the lack of nutrient limitation is ordinarily interpreted as sufficient evidence for the condition of light limitation, without considering the possibility of limitation by inorganic carbon. Here, we firstly evaluated how frequently CO2 undersaturation occurs in a set of eutrophic lakes in the Pampa plains. Our results confirm that conditions of CO2 undersaturation develop much more frequently (yearly 34%, summer 44%) in these agriculturally impacted lakes than in deep, temperate lakes in forested watersheds. Secondly, we used Generalized Additive Models to fit trends in CO2 concentration considering three drivers: total incident irradiance, chlorophyll a concentration, and lake depth; in eight multi-year datasets from eutrophic lakes from Europe, North and South America, Asia and New Zealand. CO2 depletion was more often observed at high irradiance levels, and shallow water. CO2 depletion also occurred at high chlorophyll concentration. Finally, we identified occurrences of light- and carbon-limitation at the whole-lake scale. The different responses of chlorophyll a and