EFFECTS OF ACCLIMATION TO BRACKISH WATER ON
THE GROWTH, RESPIRATORY METABOLISM, AND SWIMMING PERFORMANCE OF
YOUNG-of-the-year Adriatic sturgeon (Acipenser
naccarii)
D.J. McKenzie, E.
Cataldi, P. Romano, S.F. Owen, E.W. Taylor, and P. Bronzi
Canadian Journal of Fisheries and Aquatic Sciences,
58(6): 1104-1112
Abstract:
Specific growth rates, exercise respirometry, and
swimming performance were compared in young-of-the-year Adriatic sturgeon (Acipenser
naccarii) maintained in freshwater (FW) or acclimated to brackish water
(BW) that was slightly hypertonic to sturgeon plasma, at a salinity of 11 g·L–1.
Specific growth rate was significantly (17%) lower in BW than in FW.
Sturgeon in BW also had a significantly (30%) higher standard metabolic rate
than those in FW. In both groups, the relationship between swimming speed
and oxygen uptake was described equally well by a linear or exponential
equation, with a power relationship between swimming speed and net cost of
locomotion and a linear relationship between tailbeat frequency and swimming
speed. However, sturgeon in BW exhibited higher mean total oxygen uptake,
net costs, and tailbeat frequencies than the FW group at any given swimming
speed. There were, however, no differences in aerobic scope or maximum
sustainable swimming speed between the FW and BW groups because the BW group
exhibited a compensatory increase in active metabolic rate and maximum
tailbeat frequency. The results indicate that FW is a more suitable
environment than mildly hypertonic BW for young-of-the-year Adriatic
sturgeon.