Abstract
The effects of emersing oysters (Crassostrea gigas) for up to 66 h at 4 degrees C under humid air and nitrogen atmospheres were studied. A significant. gradual body mass loss occurred under nitrogen (8.36 +/- 0.85% final weight loss) but no significant loss occurred under humid air (4.92 +/- 2.67% final weight loss). Emersion duration and the mantle cavity fluid (MCF) total ammonia (TA) concentration showed a positive, linear relationship (r(2) = 0.73 and 0.74 under humid air and N-2, respectively). The MCF TA and trimethylamine (TMA) contents were also positively related (r(2) = 0.64 and 0.69 under humid air and N-2, respectively).
Proline was the most abundant soft tissue free amino acid (71.07 +/- 11.8%) in the control group and its concentration did not change significantly under either treatment. The concentration of alanine and valine increased significantly only under humid air. Under N-2, the concentrations of valine and lysine increased significantly and aspartate decreased significantly.
Succinate showed a large increase during the first 6 h of emersion under both treatments but significantly more was accumulated in the N-2-exposed group (4.2-fold increase and 8.1-fold increase for the humid air- and N-2-exposed groups, respectively). The succinate concentration difference remained higher in the N-2-treated groups but, in the final 24 h, levels decreased again (quadratic regressions of r(2) = 0.97 and 0.95 under humid air and N-2, respectively). Although the trend of succinate accumulation was similar under both treatments, the groups held under nitrogen did not gape (whereas those under humid air did). It is concluded that the implications of gaping behaviour on succinate accumulation in the initial hours of emersion have considerable ecological significance for oysters which occupy habitats in which they may become emersed for some hours naturally. Gaping behaviour also has considerable commercial implications because emersion occurs frequently during the marketing of live oysters. (C) 2008 Elsevier Ltd. All rights reserved.