Optimizing the design of giant scallop (Placopecten magellanicus) spat collectors: flume experiments

Flume experiments were carried out in 1993 with specially designed collectors and inert particles to optimize the effect of various structural components of scallop spat collectors. The structural components considered were monofilament diameter and density, and mesh size of external bags. Results showed that abundance of particles trapped in silicone-treated collectors did not vary significantly with monofilament diameter. The heterogeneous arrangement of monofilament also proved to be an important factor. Combinations of monofilament of three different diameters (0.17, 0.55 and 0.90 mm), the thinnest being the upstream one, collected at least twice as many particles than all other single one-sized monofilament collectors. Particle abundance decreased with decreasing density of monofilament, and the densest arrangement of monofilament captured over four times more particles than the least dense arrangement. Collectors with an external bag of intermediate mesh size (0.4×0.5 cm) were the most efficient at collecting particles. The effect of flow speed was also investigated. Particles were trapped in significantly greater numbers at flow velocities of 5 cm s^-1 than at lower or higher velocities. These results are consistent with results of field experiments carried out to optimize the design of scallop collectors. Enhancement of spat collection is possible by modifying collectors. Results from both field and flume experiments confirm the hypothesis that larvae of the species collected in the field are passive at settlement at the scale of the collectors.Contribution to the program of GIROQ (Groupe Interuniversitaire de Recherches Océanographiques du Québec), and OPEN (Ocean Production Enhancement Network)