Abstract
Gradients of oxygen (O(2)) and pH, as well as small-scale fluxes of carbon (C), nitrogen (N) and O(2) were investigated under different partial pressures of carbon dioxide (pCO(2)) in field-collected colonies of the marine dinitrogen (N(2))-fixing cyanobacterium Trichodesmium. Microsensor measurements indicated that cells within colonies experienced large fluctuations in O(2), pH and CO(2) concentrations over a day-night cycle. O(2) concentrations varied with light intensity and time of day, yet colonies exposed to light were supersaturated with O(2) (up to ~200%) throughout the light period and anoxia was not detected. Alternating between light and dark conditions caused a variation in pH levels by on average 0.5 units (equivalent to 15 nmol l(-1) proton concentration). Single-cell analyses of C and N assimilation using secondary ion mass spectrometry (SIMS; large geometry SIMS and nanoscale SIMS) revealed high variability in metabolic activity of single cells and trichomes of Trichodesmium, and indicated transfer of C and N to colony-associated non-photosynthetic bacteria. Neither O(2) fluxes nor C fixation by Trichodesmium were significantly influenced by short-term incubations under different pCO(2) levels, whereas N(2) fixation increased with increasing pCO(2). The large range of metabolic rates observed at the single-cell level may reflect a response by colony-forming microbial populations to highly variable microenvironments.