Laminated microbial ecosystems on sheltered beaches in Scapa Flow, Orkney Islands

Laminated microbial sediment ecosystems which develop in the upper tidal zone of Scapa Flow beaches, Orkney Islands were investigated with respect to depth profiles of chlorophyll a, bacteriochlorophyll a, pH, redox, oxygen and the following inorganic sulfur compounds: free sulfide, FeS, polysulfides, polythionates, elemental sulfur and thiosulfate. In addition, particle size distribution and light penetration were determined at all sampling locations. Three main types of laminated sediment ecosystems were recognized, designated the ‘classical’ type (layer of cyanobacteria underlain by layer of purple sulfur bacteria), the ‘single-layer’ type (chlorophyll a containing organisms absent, purple sulfur bacteria at sediment surface), and the ‘inverted’ type (chlorophyll a containing organisms underlying purple sulfur bacteria). The dominant purple sulfur bacterium was Thiocapsa roseopersicina and Chromatium vinosum was observed less commonly. The principal cyanobacterium found in these sulfureta was Oscillatoria sp. The depth horizon at which maximum populations of purple sulfur bacteria were recorded often did not coincide with the sulfide/oxygen interface but was located closer to the sediment surface where polysulfides, polythionates, elemental sulfur and occasionally thiosulfate were present. The structure of these sulfureta is discussed in relation to the chemolithotrophic growth capacities of Thiocapsa in the presence of oxyge

Development of mass blooms of Thiocapsa roseopersicina on sheltered beaches on the Orkney Island

Mass developments of the purple sulfur bacterium Thiocapsa roseopersicina in the surface layers of sandy beaches on the Orkney Islands were examined with respect to microcolony formation on sand grains, vertical distribution of viable cells and the ability to colonize beach surfaces. It was observed that microcolonies of the non-motile phototrophic bacterium cemented individual sand grains to each other and that the resulting aggregates could withstand severe wave action and may play a decisive role in the stabilization of these sandy beaches. After removal of the top layer similar population densities of T. roseopersicina were recorded within seven days. It was calculated that the net specific growth rate initially was 0.53 day−1 (0.022 h−1). Laboratory studies strongly suggest that the populations of T. roseopersicina on sheltered beaches on the Orkney Islands were growing phototrophically in the light even when the microenvironment was oxic. Bacteriochlorophyll a synthesis was repressed by oxygen and occurred during periods with low light intensities when the microenvironment was anoxic and contained sulfid