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Macroscopic cyanobacteria of the genus Nostoc: a neglected and endangered constituent of European inland aquatic biodiversity

Published online by Cambridge University Press:  01 October 1999

DIETER MOLLENHAUER
Affiliation:
Forschungsinstitut Senckenberg Frankfurt am Main, Forschungsstation für Mittelgebirge, D-63599 Biebergemünd, Germany
ROLAND BENGTSSON
Affiliation:
Institut för Vatten- och Luftvåcrdsforskning (Swedish Environmental Research Institute – IVL), Aneboda, S-360 30 Lammhult, Sweden
ELI-ANNE LINDSTRØM
Affiliation:
Norsk institutt for vannforskning/Norwegian Institute for Water Research (NIVA), PO Box 173 Kjelsacs, N-0411 Oslo, Norway
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Abstract

Nostoc caeruleum, N. commune, N. microscopicum, N. parmelioides, N. pruniforme, N. verrucosum and N. zetterstedtii are all cyanobacteria forming macroscopically visible colonies. They were selected for a nature conservation case study. Their specific identity is easily determined, and reliable historical records are available. Life conditions for these species in Europe in the ‘virgin’ postglacial biosphere, historical reports and the present-day situation are surveyed. Data concerning type materials, supplements to the protologues, and morphology are presented. The classic descriptions and diagnoses based only on herbarium material are supplemented by ontogenetic details. Global/regional changes in the biosphere (climate, regulation of lake levels and river flows, import of plant nutrients, water pollution, acidification, etc.) and their consequences for aquatic biocoenoses are reviewed. The analysis of man-made impacts on the environment enables us to evaluate the present state of habitats where these algae occur today or where they are now extinct. Documented changes in environmental conditions in the past serve as a basis for assessing the likely future developments of the biotopes and of the whole landscape where these cyanobacteria form part of the biocoenoses. However, there are few recent detailed ecological studies on benthic and terrestrial cyanobacteria. It is not yet clear which of the different components covered by the comprehensive term ‘eutrophication’ is the decisive factor for the changes in aquatic biocoenoses and the decline of cyanobacterial biodiversity.

Type
Research Article
Copyright
© 1999 British Phycological Society

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