Abstract
While there is increasing evidence that marine bacteria are involved in the production of paralytic shellfish toxins in algal blooms, the exact roles of the bacteria and microalgae have proved elusive. A novel experimental approach to this problem involved incubating parallel cultures of toxin producing
Alexandrium minutum
Anokoha A in the dark and in a natural daylight cycle. High-performance liquid chromatography was used to measure paralytic shellfish toxins while bacterial growth was monitored by culture on high- and low-nutrient agar media. After a 22-day incubation period in the dark,
A. minutum
Anokoha A failed to produce saxitoxin while parallel light-grown cultures produced 1.17 μg per 10,000 algal cells. However, both dark- and light-grown cultures showed comparable gonyautoxin production. Copiotrophic and oligotrophic algal-associated bacteria showed similar growth patterns over the incubation period except that a dip in bacterial numbers corresponded to a peak in algal numbers in the light-grown cultures. It appears that inhibition of photosynthesis resulted in changes in the toxin profile of
A. minutum
Anokoha A. When used with other methods, this approach may help to elucidate the algal–bacterial-toxin connection.