Carbon conversion and metabolic rate in two marine sponges.

The carbon metabolism of two marine sponges, and , has been studied using a C isotope pulse-chase approach. The sponges were fed C-labeled diatoms () for 8 h and they took up between 75 and 85%. At different times, sponges were sampled for total C enrichment, and fatty acid (FA) composition and C enrichment. Algal biomarkers present in the sponges were highly labeled after feeding but their labeling levels decreased until none was left 10 days after enrichment. The sponge-specific FAs incorporated C label already during the first day and the amount of C label inside these FAs kept increasing until 3 weeks after labeling. The algal-derived carbon captured by the sponges during the 8-h feeding period was thus partly respired and partly metabolized during the weeks following. Apparently, sponges are able to capture enough food during short periods to sustain longer-term metabolism. The change of carbon metabolic rate of fatty acid synthesis due to mechanical damage of sponge tissue was studied by feeding sponges with C isotope-labeled diatom () either after or before damaging and tracing back the C content in the damaged and healthy tissue. The filtration and respiration in both sponges responded quickly to damage. The rate of respiration in reduced immediately after damage, but returned to its initial level after 6 h. The C data revealed that has a higher metabolic rate in the tips where growth occurs compared to the rest of the tissue and that the metabolic rate is increased after damage of the tissue. For , no differences were found between damaged and non-damaged tissue. However, the filtration rate decreased directly after damage.