Diatoms can occur as single cells or as chain-forming aggregates. These two strategies affect buoyancy, predator evasion, light absorption and nutrient uptake. Adjacent cells in chains establish connections through various processes that determine strength and flexibility of the bonds, and at distinct cellular locations defining colony structure. Chain length has been found to vary with temperature and nutrient availability as well as being positively correlated with growth rate. However, the potential effect of enhanced carbon dioxide (CO2) concentrations and consequent changes in seawater carbonate chemistry on chain formation is virtually unknown. Here we report on experiments with semi-continuous cultures of the freshly isolated diatom Asterionellopsis glacialis grown under increasing CO2 levels ranging from 320 to 3400 µatm. We show that the number of cells comprising a chain, and therefore chain length, increases with rising CO2 concentrations. We also demonstrate that while cell division rate changes with CO2 concentrations, carbon, nitrogen and phosphorus cellular quotas vary proportionally, evident by unchanged organic matter ratios. Finally, beyond the optimum CO2 concentration for growth, carbon allocation changes from cellular storage to increased exudation of dissolved organic carbon. The observed structural adjustment in colony size could enable growth at high CO2 levels, since longer, spiral-shaped chains are likely to create microclimates with higher pH during the light period. Moreover increased chain length of Asterionellopsis glacialis may influence buoyancy and, consequently, affect competitive fitness as well as sinking rates. This would potentially impact the delicate balance between the microbial loop and export of organic matter, with consequences for atmospheric carbon dioxide.
Centre of Climate, Meteorology and Global Change of the University of the Azores and the Research Centre for Agricultural and Environmental Science and Technology of the Azores, Angra do Heroísmo, Azores, Portugal;Centre for Coastal Biogeochemistry, School of Environmental Science and Management, Southern Cross University, Lismore, Australia;The Marine Biological Association of the United Kingdom, Plymouth, Devon, United Kingdom;GEOMAR | Helmholtz Centre for Ocean Research Kiel, Kiel, Germany;Centre of Climate, Meteorology and Global Change of the University of the Azores and the Research Centre for Agricultural and Environmental Science and Technology of the Azores, Angra do Heroísmo, Azores, Portugal
Recommended Citation:
Joana Barcelos e Ramos,Kai Georg Schulz,Colin Brownlee,et al. Effects of Increasing Seawater Carbon Dioxide Concentrations on Chain Formation of the Diatom Asterionellopsis glacialis[J]. PLOS ONE,2014-01-01,9(3)