Abstract
ABSTRACTLight intensity and temperature interactions have a complex effect on the physiological process rates of the filamentous bluegreen alga Anabaena variabilis Kütz. The optimum temperature for photosynthesis increased with increasing light intensity from 10°C at 42 μE·m−2·s−1 to 35°C at 562 μE·m−2·s−1. The light saturation parameter, IK, increased with increasing temperatures. The maximum photosynthetic rate (2.0 g C·g dry wt.−1·d−1) occurred at 35°C and 564 μE·m−2·s−1. At 15°C, the maximum rate was 1.25 g C·g dry wt.−1·d−1 at 332 μE·m−2·s−1. The dark respiration rate increased exponentially with temperature. Under favorable conditions of light intensity and temperature the percent of extracellular release of dissolved organic carbon was less than 5% of the total C fixed. This release increased to nearly 40% under combinations of low light intensity and high temperature. A mathematical model was developed to simulate the interaction of light intensity and temperature on photosynthetic rate. The interactive effects were represented by making the light‐saturation parameters a function of temperature.
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