CHANGES IN ISOTOPIC COMPOSITION OF RED DRUM (SCIAENOPS OCELLATUS) LARVAE IN RESPONSE TO SHIFTS: POTENTIAL APPLICATIONS TO SETTLEMENT STUDIES
S.Z. Herzka, G.J. Holt-2000
Canadian Journal of Fisheries and Aquatic Sciences, 57 (1): 137-147
Abstract:
The stable isotope composition of larval fish tissues may serve as a chemical tracer of recent settlement due to food web differences among planktonic and demersal habitats. We present the background for the utilization of delta^13C and delta^15N to trace settlement of red drum (Sciaenops ocellatus), an estuarine-dependent species. The effect of ontogeny and temperature on the relative contribution of growth and metabolic turnover to changes in isotopic composition was examined by simulating dietary shifts in the laboratory. Fractionation was examined as a function of size and the effect of food deprivation was evaluated. Published growth rates were used to estimate the time period within which the isotopic composition of a new food source should be reflected in larval tissues. In response to dietary shifts, larvae exhibited quick changes in delta^13C and delta^15N in a pattern closely resembling predictions based on growth alone. Fractionation values were about +1 ppt for delta^13C and +1.6 ppt for delta^15N. There was no effect of 4 days of food deprivation on delta^13C and delta^15N. Given the fast growth rates reported for newly settled red drum, their isotopic composition should exhibit a shift within 1-2 days and stabilize about 10 days following settlement.