Low-molecular mass carbohydrate accumulation in cyanobacteria from a marine microbial mat in response to salt

Abstract

Forty seven strains of cyanobacteria, all isolated from microbial mats of intertidal sediments of the island of Mellum (North Sea), were analyzed for the presence of organic osmotica. The cyanobacteria examined belonged to taxonomically different groups and were classified according to their salt optimum and salt tolerance as either freshwater, brackish or marine. Except betaine, all organic osmotica known to occur in cyanobacteria, were found. The results showed no clear correlation between the chemical nature of the organic solute and the salt optimum or salt tolerance of the cyanobacteria examined, indicating that these solutes are not specific to this marine habitat. All strains belonging to the Nostoc/Anabea-group accumulated sucrose as the sole organic osmoticum. The marine, heterocystous Calothrix sp. accumulated trehalose. All strains of the LPP-group (Lyngbya, Plectonema, Phormidium) accumulated glucosylglycerol as sole or primary organic solute. Some LPP-strains accumulated a disaccharide as a secundary solute, e.g. sucrose or trehalose. Gloeocapsa, Synechocystis and Spirulina accumulated glucosylglycerol. Two marine Oscillatoria accumulated trehalose, whereas a freshwater Oscillatoria with a broad salinity tolerance, accumulated sucrose. Analysis of field samples of the microbial mats demonstrated the presence of glycerol, glucosylglycerol, sucrose and trehalose. The relative abundance of the different compounds was related to the species composition as could be predicted from laboratory observations. These data suggest that these carbohydrates have a function in maintaining osmotic balance in the organisms within the microbial mat.