Phagotrophy of fluorescently labeled bacteria by an oceanic phytoplankter.

Using fluorescently-labeled bacteria and detection by flow cytometry and epifluorescence microscopy, we demonstrate inducible mixotrophy in a marine photosynthetic flagellate, Ochromonas sp. (class Chrysophyceae). Phagotrophic uptake of bacteria increases under conditions of low or limiting light and nutrients, but deceases in periods of prolonged darkness; sustained phagotrophy may require light. In addition, this alga appears to discriminate between and preferentially ingest different types of bacteria. Although this clone is primarily photosynthetic, phagotrophy contributes to its nutrition, especially when light or nutrients limit photosynthesis.

Effects of flow cytometric analysis on morphology and viability of fragile phytoplankton.

We assessed damage done to especially delicate marine phytoplankton cells by passage through a Coulter Epics V flow cytometer. The cells did not distort or lyse after exposure to fluidics or to laser light to 1,000 mW. The cells did sustain damage evidenced by temporary growth rate depressions. The four clones tested eventually resumed control growth rates after growth lags to 48 h.