FLOW-CYTOMETRY AND MICROSCOPY OF GAMETOGENESIS IN NITZSCHIA-PUNGENS, A TOXIC, BLOOM-FORMING, MARINE DIATOM

The domoic acid-producing diatom Nitzschia pungens Grunow f. multiseries Hasle, which is responsible for amnesic shellfish poisonings in Prince Edward Island, Canada, underwent gametogenesis when senescent cells (i.e. in stationary growth phase for more than 290 days) were subcultured into fresh FE medium and light intensity was increased from 33 to 530-mu-E.m-2.s-1. The number of gametes produced varied with the salinity of the medium, with a maximum at 23.5 parts per thousand. Cells in the exponential growth phase (0.8 div.d-1) did not produce gamates, nor did senescent cells when transferred without change in light intensity. Anisogamous gametes, probably haploid, were isolated by combining conventional microscopy with flow cytometry. Zygotes resulting from syngamy yielded cigar-shaped naviculoid cells, morphologically different from parent cells (heteromorphism). These cells, with a division rate of 1.9 div.d-1, could serve as a seed population and explain the origin and rapid progression of the toxic blooms of red-water proportions that have been a public health problem in Eastern Canada. Production of domoic acid by postexponential and moribund cells but not by gametes, zygotes, or immediately resulting cells, provides an insight into the dependence of toxicity on the developmental history of this diatom.