Multi-species larval fish growth model based on temperature and fluorometrically derived RNA/DNA ratios: Results from a meta-analysis

Abstract

Weight-specific growth rate (G) and growth performance (the fraction of maximum growth realized, Gpf) are key demographic characteristics. The ratio of RNA/DNA (RD) can provide information on both G and Gpf. Estimating G from RD in larval fish requires an adjustment for the activity of RNA at different temperatures. Based on a meta-analysis of published data, we present a general model for the relationship between G in marine fish larvae and fluorometrically derived RD and temperature (T), and suggest that this model can be used to estimate G in marine fish larvae. Several options for estimating Gpf are also considered, including the use of a reference growth rate (Gref). RDs of well-fed larvae appeared to be independent of water temperatures between 4 and 28°C, suggesting that any increase in growth rate with temperature was accomplished by increased activity rather than increased concentrations of RNA. However, for the best-fit meta-analysis RD-T-G model, the relationship between RD and Gpf was temperature dependent for fish less than fully fed. © Inter-Research 2008.