N-2-fixation and complementary chromatic adaptation in non-heterocystous cyanobacteria from Lake Constance

Non-heterocystous. mostly filamentous cyanobacteria were isolated from the crust of stones, from the periphyton of two macrophytes from the littoral z one and from the pelagic environment of Lake Constance. All isolates were c ultivated as unialgal strains. DNA analysis by restriction fragment length polymorphism with the pshA gene probe revealed high genetic diversity among the strains from the littoral zone. For all genotypes, the occurrence of t he nifH gene encoding a nitrogenase subunit and of genes encoding subunits of phycoerythrin and phycocyanin were tested by Southern blot hybridization . In addition, the isolates were investigated for their ability for complem entary chromatic adaptation (CCA) and for anaerobic N-2-fixation. With resp ect to these characteristics. all cyanobacteria included in this study were assigned to four different types: (1) strains without the capability to fi x N-2 or to perform CCA of the group III type (CCA III); (2) strains which show both features, (3) strains with the ability to fix nitrogen, but that do not show any CCA III: and (4) strains that produce phycoerythrin, but wi thout the capacity for CCA III or N-2-fixation. By examining the frequency distribution of isolates, these types were shown to prefer different habita ts. While cyanobacterial strains capable of N-2-fixation, but without CCA I II, were mainly obtained from stone crusts in the supralittoral zone, those with the potential for N-2-fixation as well as for CCA III were largely is olated from submersed macrophytes. Cyanobacteria that produce phycoerythrin , but do not perform CCA III or N-2-fixation, were found in the pelagic zon e only. (C) 2001 Published by Elsevier Science B.V. on behalf of the Federa tion of European Microbiological Societies.