The production of extracellular carbohydrates by estuarine benthic diatoms: The effects of growth phase and light and dark treatment

Epipelic diatoms are important constituents of estuarine microphytobenthic biofilms. Field-based investigations have shown that the production of carbohydrates by such taxa is ecologically important, However, limited information exists on the dynamics of carbohydrate production by individual species of epipelic diatoms, The production of low and high molecular weight extracellular carbohydrates in axenic cultures of five species of benthic estuarine diatoms, Cylindrotheca closterium (Ehrenberg), Navicula perminuta (Grun.) in Van Heurck, Nitzschia frustulum (Kutz,) Grunow, Nitzschia sigma (Kutz,) Grunow, and Surirella ovata (Kutz,) Grunow, were investigated, All species produced colloidal (water-soluble) carbohydrates during growth, with maximal production occurring during stationary phase, During logarithmic growth, approximately 20% of extracellular carbohydrates consisted of polymeric material (extracellular polymeric substances [EPS]), but during stationary phase, EPS content increased to 34%-50%, Pyrolysis-mass spectrophotometry analysis showed differences in the composition of EPS produced during logarithmic and stationary phase, All species synthesized glucan as a storage carbohydrate, with maximum glucan accumulation during the transition from log to stationary phase, Short-term labeling with C-14-bicarbonate found that between 30 and 60% of photoassimilates were released as colloidal carbohydrate, with EPS consisting of approximately 16% of this colloidal fraction. When cells were placed in darkness, EPS production increased, and between 85 and 99% of extracellular carbohydrate produced was polymeric, Glucan reserves were utilized in dark conditions, with significant negative correlations between EPS and glucan for N, perminuta and S, ovata. Under dark conditions, cells continued to produce EPS for up to 3 days, although release of low molecular weight carbohydrates rapidly ceased when cells were dark treated, Three aspects of EPS production have been identified during this investigation: (1) production during rapid growth, which differs in composition from (2) EPS directly produced as a result of photosynthetic overflow during growth limiting conditions and (3) EPS produced for up to 3 days in the dark using intracellular storage reserves (glucans), The ecological implications of these patterns of production and utilization are discussed.