influence of food supply on postmetamorphic growth and
survival of hatchery-produced lion’s paw scallop, nodipecten nodosus
(linnaeus, 1758)
G.S.
Rupp, R.J. Thompson, G.J. Parsons-2004
Journal
of Shellfish Research, 23(1): 5-13
Abstract:
Poor
growth and low survival are often reported in hatchery-reared scallops early
after settlement and metamorphosis. The effects of algal deprivation,
substrate biofilm, and two algal cell concentrations (ca. 4.7 x 10³ and 4 x
104 cells/mL) on growth and survival were investigated during 9
days after settlement in experiment 1, and the effects of the two algal
concentrations were examined for 16 days post-set in experiment 2. In
experiment 1, the presence of a biofilm on the collectors significantly
enhanced postlarval settlement, but not growth. Five days after settlement,
at a shell height of about 250 µm, postlarvae fed a low algal concentration
were significantly larger than postlarvae in the other treatments (unfed,
biofilm-covered collectors and high algal concentration), which attained
similar sizes. Nine days post-set, postlarvae fed at higher algal
concentration were larger than postlarvae to which no suspended algae were
supplied but were smaller than those cultured at low food concentration.
Reserves accumulated during the larval stage were sufficient to sustain
metamorphosis, limited shell growth, and high survival in the absence of
exogenous food, giving no indications of food deprivation-induced mortality
for at least 9 days post-set. In experiment 2, 10 days after settlement,
postlarvae cultured at 4.7 x 10³ cells/mL were larger than postlarvae
cultured at 4 x 104 cells/mL, but after 16 days post-set,
postlarvae in both treatments attained similar shell height. Between 10 and
16 days after settlement (shell height ca. 300-400 µm), feeding demand of
postlarval Nodipecten nodosus significantly increased, as demonstrated by a
sharp increase of gut pigment concentration, which was probably related to
key events in the gill morphogenesis. Mortality, on the contrary, was higher
at 4 x 104 cells/mL than at 4.7 x 10³ cells/mL. An alternative
explanation to the high mortality of scallops often recorded early after
metamorphosis in aquaculture settings, other than the depletion of
endogenous reserves, is proposed. Food demand of postlarval N. nodosus is
less than usually supplied in scallop hatcheries, and growth can be
significantly increased early after settlement by adjusting the algal cell
concentration.
(Ocean
Sciences Centre, Memorial University of Newfoundland, St. John’s, NL,
Canada A1C 5S7, e-mail: rupp@epagri.rct-sc.br)