Influence of Light Intensity, Light Quality, Temperature, and Daylength on Uptake and Assimilation of Carbon Dioxide and Sulfate by Lake Plankton

Abstract

The biochemical composition of newly produced phytoplankton biomass in Lake Ontario varied systematically with respect to experimentally manipulated incident light intensity and environmentally imposed water temperature and daylength, but was insensitive to light quality. Total uptake of ¹⁴C-labeled bicarbonate was light dependent (P_opt:dark = 60–200), while ³⁵SO₄²⁻ uptake was light stimulated (P_opt:dark < 5). Subcellular allocation of ¹⁴C for relative protein, carbohydrate, and lipid polymer synthesis responded sensitively to subsaturating light. Pathways of ³⁵S assimilation were unaffected by light intensity. Night protein synthesis and attendant respiration of polymeric carbohydrates was a function of prior light history: with daytime illumination at P_opt, day and night rates of ³⁵SO₄-S incorporation into protein were often indistinguishable. Using April–November data from P_opt only, allocation of carbon to carbohydrate polymer storage for night growth was strictly proportional to nightlength. The proportion of carbon contained in protein was strongly correlated with in situ water temperature. The lack of cross-correlation suggests that temperature and daylength exert independent constraints on the biochemical composition of lake microplankton.