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- Title
Evidence for morphology-induced sediment settlement prevention on the tubular spongeHaliclona urceolus.
- Authors
Bell, J.
- Abstract
Several mechanisms are known to assist the survival of sponges in highly sedimented environments. This study considers the potential of sponge morphology and the positioning of exhalant water jets (through the osculum) in the adaptation ofHaliclona urceolusto highly sedimented habitats. This sponge is cylindrical with an apical osculum, which is common in sedimented subtidal habitats at Lough Hyne Marine Nature Reserve, Cork, Ireland. Fifteen sponges were collected, preserved (killed with the structure and morphology maintained) and then replaced in a high sediment environment next to a living specimen (at 24 m). After 5 days, the sediment settled on both living and preserved sponges was collected and dried. No sediment was collected from living sponges, while preserved specimens had considerable amounts of settled sediment on their surfaces. The amount of sediment collected on these preserved specimens was significantly linearly correlated with sponge dry weight, maximum diameter and oscula width (R2>0.70,P<0.001,df=14). Observations of flow direction (using coloured dye) throughH. urceolusshowed that water is drawn into the sponge on its underside and exits via a large vertically pointing osculum. Sponge morphologies (shape) have often been considered as a means of passive adaptation to a number of different environmental parameters with oscula position enabling entrained flow through the sponge in high flow conditions. However, this study shows how the combination of sponge morphology (tubular shape) and positioning of the osculum may enableH. urceolusto survive in highly sedimented environments. Similar mechanisms may also aid the survival of some deep-water sponge species with similar morphologies.
- Subjects
HALICLONA; SPONGES (Invertebrates); AQUATIC habitats; MARINE biology; MARINE sciences
- Publication
Marine Biology, 2004, Vol 146, Issue 1, p29
- ISSN
0025-3162
- Publication type
Article
- DOI
10.1007/s00227-004-1429-0