Some aspects of nitrogen metabolism in Mytilus edulis: effects of aerial exposure

Abstract

The effects of starvation and emersion on the ammonia effluxes of Mytilus edulis L. were studied. Both fed and starved groups showed similar patterns of efflux during re-immersion, indicating no compensation for starvation during anaerobic catabolism; this is taken as evidence that carbohydrate or lipid is the predominant energy source at the outset of anaerobiosis. Instead of an overshoot of ammonia excreted during the 4 h following re-immersion, all groups showed significantly reduced efflux rates independent of emersion duration. Such results suggest some conversion of ammonia during the recovery period, as no significant drop in haemolymph ammonia occurred at this time. The level of ammonia accumulation in haemolymph and mantle cavity fluid decreased exponentially with emersion duration, implying the stabilisation, at a low rate, of ammonia production after a relatively long period of emersion (16 to 24 h). Oxygen levels of the mantle cavity fluid dropped rapidly during emersion but never attained anoxia over 24 h of emersion, which may indicate some oxygen uptake by emersed mussels. It has been concluded that the behaviour and physiological responses shown by M. edulis to emersion appear to reflect a need for respiratory gas exchange more than a response to desiccation – presumably in the interest of energy-conservation. The reductions in ammonia efflux rate during emersion and, to a certain extent, immediately after re-immersion have also been considered here to be energy-saving strategies that illustrate the importance of ammonia in restoring normal levels of some amino acids following re-immersion.