Metabolism and metal binding by surface-colonizing bacteria: results of microgradient measurements.

Short-term (65-h) bacterial colonization of 0.2-mum (pore size) filters submerged in water from Lake Charlotte, Nova Scotia, was characterized by a well-defined succession of cell types, in which small cocci gave way to larger, rod-shaped cells. This succession agrees with the concept of attachment as a strategy for survival, in which inactive cocci can attach to a surface and grow into larger, rod-shaped cells by using endogenous nutrients and the nutrients accumulated at the solid-liquid interface. Analyses of oxygen and CO(2) microgradients above colonized surfaces indicated that a peak of respiration accompanied the succession of rods from cocci. CO(2) fixation then became apparent as the rods began to bind manganese and iron to their surfaces. This means that survival by attachment may not be just the province of heterotrophs. It could also be a strategy adopted by metal-oxidizing chemoautotrophs. Long-term (34-day) colonization of similar filters indicated that, while a succession of attached cell types may indeed be a natural occurrence, other factors (such as the selective grazing of larger cells) tend to obscure the development of this succession.