Experiential legacies of early‐life dietary polyunsaturated fatty acid content on juvenile Walleye: Potential impacts from climate change

Climate-induced shifts in plankton blooms may alter fish recruitment by affecting the fatty acid composition of early-life diets and corresponding performance. Early-life nutrition may immediately affect survival but may also have a lingering influence on size and growth via experiential legacies. We explored the short- and longer-term performance consequences of different concentrations of polyunsaturated fatty acids (PUFA) for juvenile Walleye (Sander vitreus, Mitchill 1818). For the first 10days of feeding, juveniles were provided Artemia enriched with: oleic acid (low PUFA), high docosahexaenoic acid and high eicosapentaenoic acid (high PUFA), or high PUFA and a form of vitamin E (high PUFA+E). After 10days, all fish were fed a high-quality diet and reared for an additional 27days. Juveniles fed either high PUFA diet were 1.15-fold larger (PUFA mean +/- SD = 20.0 +/- 3.3 mg; PUFA+E = 19.8 +/- 3.3 mg) than those fed the low PUFA (17.3 +/- 2.8 mg) diet after 10days of feeding. After 27days, juveniles initially fed the high PUFA diet were still 1.10- to 1.20-fold larger (PUFA = 407.0 +/- 61.6 mg; PUFA+E = 422.7 +/- 58.7 mg) than those initially fed the low PUFA diet (356.5.0+39.5 mg). Our findings demonstrate that fatty acid composition of juvenile Walleye diets has immediate and lingering size effects. As changes in climate continue to alter lower trophic levels, fish management and conservation may need to consider short- and long-term effects of temporal or spatial differences in early-life diet quality.