Graduate Thesis Or Dissertation
 

Studies on the occurrence, physiology, and ecology of bioluminescence in dinoflagellates

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  • To provide further information on the occurrence and geographical variations of bioluminescent capabilities of marine dinoflagellates, forty species, representing twelve genera, of dinoflagellates from Yaquina Bay, Oregon, were examined for bioluminescence as single cell isolates. Seventeen species from the genera Ceratium (1 sp.), Gonyaulax (3 sp.), and Peridinium (13 sp.) were found to be bioluminescent. Ceratium fusus was the only member of the genus found to emit light; G. triacantha was found to be non-bioluminescent. The total photon emission of each luminescent species is reported. Values ranged from 1.05 x 10¹⁰ photons per P. depressum to 2.1 x 1O⁷ photons per G. digitale. As a taxon, the genus Peridinium emitted more light by an order of magnitude than did Ceratium or Gonyaulax. Comparisons with previous reports are made. Photoinhibition of the mechanical receptor mechanism is largely responsible for orders of magnitude diel variations of stimulable bioluminescence in the auxotrophic dinoflagellates. The mechanically stimulable bioluminescence of members of the Gonyaulax catenella group can be photoinhibited completely by exposure to as little as 10¹³ quanta/cm² delivered as a pulse of width between 0.1 and 10 seconds. There is an initial time lag of one minute, followed by a first order decay to approximately one percent of the bioluminescence of unexposed controls. The half time of this decay is only 50 seconds. Action spectra for photoinhibition in Gonyaulax catenella, G. acatenlla, and G. tamarensis revealed a single absorption band with a maximum at 562 nm. Photoinhibition appears to raise the threshold of sensitivity of the shear receptor mechanism. Chemically stimulable bioluminescence is unaffected by these brief exposures to light. Grazing experiments were conducted with three calanoid copepods and three species of bioluminescent dinoflagellates, using procedures which yielded samples of cultures with high and low capacities for mechanically stimulable bioluminescence. In all cases the ingestion rates were lower for the high bioluminescent capacity samples than for the samples having a reduced bioluminescent capacity. These results indicate that dinoflagellate bioluminescence has survival value as a defense against copepod grazing. Of several possible mechanisms, we propose that the flash is a visual, protean display which startles or confuses the copepod sufficiently to allow the dinoflagellate to escape. The net evolutionary value is that predation would be reduced on a dinoflagellate population as a whole.
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