Dynamic structure of the mesohyl in the sponge Chondrosia reniformis (Porifera, Demospongiae)

The common demosponge Chondrosia reniformis possesses the capacity to undergo an unusual creep process which results in the formation of long outgrowths from the parent body. These shape changes, which have been interpreted as adaptive strategies related to environmental factors, asexual reproduction or localised locomotor phenomena, are due mainly to the structural and mechanical adaptability of the collagenous mesohyl. This contribution describes the morphological correlates of mesohyl plasticisation in C. reniformis. The microscopic anatomy of the mesohyl was examined when it was in different physiological conditions: (1) standard "resting" condition, (2) "stiffened" condition and (3) dynamic "creep" condition. In this last case four representative regions of the sponge body were analysed: the parent region, the elongation region, the transition region and the propagule region. The results show that the histological modification of the sponge mesohyl during plasticisation is limited and localised. The most significant structural changes involve mainly cytological features of specific cellular components characterised by granule inclusions (i.e. the spherulous cells) and the arrangement and density of the collagenous extracellular framework, though the integrity of the collagen fibrils themselves is not affected. Morphological and functional aspects of mesohyl plasticisation invite comparison with the mutable collagenous tissue of echinoderms. Possible functional analogies between these two tissues are hypothesised.