Abstract

The roles of inorganic carbon and light availability in the quantitative distribution and photosynthetic productivity of submersed aquatic macrophytes were investigated in two lakes in a stream‐connected hard‐water lake chain where light availability and pH increase and total inorganic carbon decreases as water flows from a turbid productive lake through progressively clearer less productive lakes. Bicarbonate‐using species dominated the macrophyte communities of both lakes, but species requiring free CO 2 were present, primarily in the more turbid lake. In photosynthesis experiments, CO 2 ‐requirer Najas flexilis was significantly competitive when light limitation reduced the efficiency of HCO 3 − ‐user Potamogeton pectinatus. The results suggest that inorganic carbon availability can be important in macrophyte growth even within relatively small ranges of total alkalinity and that light availability is a potentially important interacting factor.