THE ECOLOGICAL IMPLICATIONS OF GROWTH FORMS IN EPIBENTHIC DIATOMS 1

This paper evaluates the utilisation of space by epibenthic diatom cells, as a response to environmental variations. The aggregation pattern of five species of epibenthic diatoms was quantified and compared to provide evidence for the significance of cell motility as an adaptive mechanism for space occupation and monopoly. The epibenthic diatoms included (1) non‐mobile colonial species forming either fan‐shaped (Synedra tabulata ( Ag ) Kz.) or arborescent (Gomphonema kamtschaticum var . californicum Grun.) colonies; (2) slow‐moving (Cocconeis costata Greg, and Amphora pusio Cl.), and (3) fast‐moving ( Navicula direct a ( W. Sm.) Ra.) non‐colonial species. The aggregation pattern of S. tabulata did not vary significantly among six different light intensities manipulated in nature. The major patterns of aggregation were identified using analysis of covariance and dummy‐variable regression. Highly mobile N. directa are significantly less aggregated than the four other diatom species. Non‐mobile and slow‐moving species show a similar, highly aggregated pattern. The occurrence of two patterns of spatial dispersion indicates that growth forms bear far‐ranging ecological implications with respect to colonization strategies, immigration, and possibly impact by grazers. An integrated model of growth form characteristics, biological properties, and ecological implications is presented for epibenthic diatoms .