LAUSR

Initial body size can indicate quality within-species, with large size increasing the likelihood of survival. However, some populations or individuals may have body size disadvantages due to spatial/temporal differences in temperature, photoperiod, or food availability. Across-populations animals often have locally adapted physiology to compensate for poor environmental influences on development and growth, while within-populations behavioural adjustments that increase food intake after periods of deprivation provide opportunities to catch up (growth compensation). We posit a theoretical extension of growth compensation to include within-population differences related to short growing seasons due to delayed hatch time. We tested the hypothesis that individual fish that hatch later grow faster than those that hatch earlier. The relative magnitude of such a response was compared to growth variation among populations and between related species. We sampled young of the year Arctic charr and brook trout from five rivers in northern Labrador. Daily increments from otoliths were used to back-calculate size to a common age and calculate growth rates. Supporting the hypothesis, older fish were not larger at capture than younger fish, because animals that hatched later grew faster which may indicate age-based growth compensation.