Like a `rolling stone': quantitative analysis of the body movement and skeletal dynamics of the sponge Tethya wilhelma

Abstract

Although sponges (Porifera) are basal Metazoa without muscles and a central nervous system, they are able to locomote, which is generally correlated to drastic morphological changes. This behaviour has been known for more almost 150 years, but it is only partly understood. The sponge T. wilhelma displays extraordinary movement and rhythmic body contractions, and is thus a valuable model for the investigation of sponge movement. The aims of the present study were to track T. wilhelma quantitatively on natural and artificial substrates, to test for a peristaltic movement mechanism and to check for the influence of morphological changes. T. wilhelma displays a unique mode of locomotion among sponges, without reorganizing the whole sponge body. The overall morphology was stable, and skeletal rotation during movement was shown; this is the first time that such movement has been demonstrated in a sponge. The stability of the skeletal superstructure arrangement during movement suggests that only the cortical tissue is involved in movement, with only local tissue rearrangements. The movement track followed a straight direction for long periods, but directions could be altered instantly. It is most likely that environmental conditions play an important roll in induction of movement. In summary, T. wilhelma resembles the proverbial ;rolling stone' that stays at a given location if the conditions are favourable and starts moving when conditions change for the worse.