ABSTRACT
Marine Synechococcus are frequently found in environments where iron (Fe) is a limiting nutrient. To understand their capacity to respond to Fe stress, we screened picoplankton genomes and the Global Ocean Survey metagenome for known Fe stress genes. Many open ocean strains of Synechococcus lack most known genes for Fe stress, while coastal and upwelling strains contain many, suggesting that maintaining multiple Fe limitation compensation strategies is not a selective advantage in the open ocean. All genomes contained iron deficiency-induced protein A (IdiA) and its complementary Fe(3+) transport proteins. The ubiquity of IdiA was exploited to develop an in situ Fe stress bioassay based on immunolabelling and flow cytometry. As a test of field applicability, we used the assay on natural Synechococcus populations from one station in the Costa Rica Upwelling Dome where total Fe ranged from <0.08 to 0.14 nM in the upper water column. The bioassay found Fe stress in 5-54% of the population. Based on our findings, we believe that when reactive strains are present this assay can reveal environmental and clade-specific differences in the response of Synechococcus to Fe stress.