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Freshwater salinization is occurring around the world and impacting a wide variety of freshwater species that have evolved under low-salt conditions. Salt pollution reduces the survival of many freshwater taxa, but we know less about the effects of salt on individual traits. Moreover, we know even less about how salt pollution may affect phenotypically plastic traits that have evolved in response to natural stressors. In this study, we examined wood frog tadpoles (Rana sylvatica), which are a model system for predator-induced plasticity, and determined how their growth, behavior, and morphology changed in the presence of chemical cues from dragonflies (Anax junius) under four concentrations of NaCl (16, 250, 500, and 1000 mg Cl→/L). Early in the experiment, the tadpoles reduced their feeding activity in response to predator cues but did not respond to increasing salt concentrations. Tadpole mass increased with predator cues but decreased with increased salt concentrations. As expected, the predator cues induced relatively deeper tails and tail muscles, while inducing relatively shorter bodies and narrower mouths. However, we also discovered that salt induced relatively longer tails, longer bodies, and smaller eyes. Interestingly, the predator effects did not interact with salt effects for any of the traits. These results suggest that freshwater salinization has the potential to alter the traits of other freshwater species, but the effects may simply be additive. Future studies should examine salt-induced changes in a diversity of other freshwater species and investigate whether salt-induced changes in morphology have consequences to individual performance.