Relationship between the aerobic and anaerobic metabolic capacities and the vertical distribution of three intertidal sessile invertebrates: Jehlius cirratus(Darwin) (Cirripedia), Perumytilus purpuratus (Lamarck) (Bivalvia) and Mytilus chilensis (Hupé) (Bivalvia)

In protected areas of the southern Chilean coastline, the barnacle Jehlius cirratus dominates the upper intertidal zone, the bivalve Perumytilus purpuratus is the dominating species in the intermediate zone and Mytilus chilensis in the middle-lower zone. Varying degrees of aerial respiration were observed in the laboratory for these three sessile invertebrates: 80–100% of the immersed oxygen uptake for Jehlius cirratus, 30–50% for Perumytilus purpuratus and 5–15% for Mytilus chilensis. The pyruvate kinase/phosphoenolpyruvate carboxykinase (PK/PEPCK) ratio (adductor muscle) was higher for P. purpuratus than for M. chilensis. J. cirratus had no PEPCK activity in total soft tissues, under the assay conditions used in this study, and PK activity was higher for the cirriped than that of both bivalves. Succinate was produced in both mussels when exposed to hypoxic conditions, but it was not detected in J. cirratus. The kinetic parameters of the PK revealed that M. chilensis presented the highest _0.5 value for PEP and J. cirratus the lowest. Alanine inhibited the PK from M. chilensis to a greater extent (higher n_H value) and did not affect the PK of the cirriped. This latter enzyme also presented a marked substrate inhibition, above PEP concentrations of 0.5 mM. The evidence suggests that organisms inhabiting the upper intertidal zone could utilize an aerobic metabolism, given their high aerial respiration capacity, and that the succinate anaerobic pathway could be a more important metabolic strategy in species of the middle-lower intertidal zone. The physiological and biochemical capacities of these three species could thus be correlated with their vertical distribution in the intertidal rocky shore.