Silica spicules and axial filaments of the marine sponge Stelletta grubii (Porifera,Demospongiae)

Summary In all cases an organic axial filament within the silica spicules of Stelletta grubii forms the core of the major axes of the glass. In the small, star-shaped silica spicules (asters) the filament is shown for the first time to be radial with an enlarged center; in the large four-rayed spicules (triaenes) it is four-rayed; and in the large single-rayed spicules (oxeas) the filament is single-rayed. In situ, the filament is not dissolved by boiling nitric acid and thus is apparently protected by encasement within the glass which can also be stratified. The small silica asters are formed by single cells which resemble the so-called spherulous cells of other sponges. The very large size of triaenes and oxeas suggests that they may possibly be formed by more than one cell. The diameter of the filament in the much smaller asters is much narrower than the filament in the larger spicules, indicating a possible relationship between filament diameter and spicule diameter. While the axial filament in larger spicules frequently has a triangular cross-section it can also be hexaognal. Some aster filaments also retain a close to hexagonal cross-section. Filaments freed from large spicules by hydrofluoric acid display a complex morphology; possibly there is an internal silicified core. Some reported aspects of filament morphology are, however, probably artefacts of desilicification with hydrofluoric acid. Offprint requests to: T.L. Simpson, Department of Biology, University of Hartford, West Harford, Connecticut 06117, USA (Permanent affiliation)