Rapid adaptation of harmful cyanobacteria to rising CO2

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Abstract

Rising atmospheric CO2 concentrations are likely to affect many ecosystemsworldwide. However, towhat extent elevated CO2 will induce evolutionary changes in photosynthetic organisms is still a major open question. Here, we show rapid microevolutionary adaptation of a harmful cyanobacterium to changes in inorganic carbon (Ci) availability. We studied the cyanobacterium Microcystis, a notorious genus that can develop toxic cyanobacterial blooms in many eutrophic lakes and reservoirs worldwide. Microcystis displays genetic variation in the Ci uptake systems BicA and SbtA, where BicA has a low affinity for bicarbonate but high flux rate, and SbtA has a high affinity but low flux rate. Our laboratory competition experiments show that bicA + sbtA genotypes were favored by natural selection at low CO2 levels, but were partially replaced by the bicA genotype at elevated CO2. Similarly, in a eutrophic lake, bicA + sbtA strains were dominant when Ci concentrations were depleted during a dense cyanobacterial bloom, but were replaced by strains with only the high-flux bicA gene when Ci concentrations increased later in the season. Hence, our results provide both laboratory and field evidence that increasing carbon concentrations induce rapid adaptive changes in the genotype composition of harmful cyanobacterial blooms.

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APA

Sandrini, G., Ji, X., Verspagen, J. M. H., Tann, R. P., Slot, P. C., Luimstra, V. M., … Huisman, J. (2016). Rapid adaptation of harmful cyanobacteria to rising CO2. Proceedings of the National Academy of Sciences of the United States of America, 113(33), 9315–9320. https://doi.org/10.1073/pnas.1602435113

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