Trophic Levels Predict the Nutritional Essentiality of Polyunsaturated Fatty Acids in Fish—Introduction to a Special Section and a Brief Synthesis

Defining nutritional fatty acid essentiality in fish nutrition is complex given the wide range of taxonomic (e.g., divergence among species subjected to different selective pressures), biological (e.g., trophic levels and environmental tolerances), and external (e.g., experimental conditions and differences in feed formulation and manufacturing) factors involved, all of which can influence absolute requirements. Fishes vary in their ability to meet the physiological demand for long‐chain ( LC ) polyunsaturated fatty acids ( PUFA s; i.e., 20:4[n‐6], 20:5[n‐3], and 22:6[n‐3]) via elongation and desaturation of C 18 PUFA (i.e., 18:2[n‐6] and 18:3[n‐3]) precursors. Previous attempts to generalize dietary fatty acid requirements have been focused on thermal and salinity preferences, suggesting—in many cases inaccurately—that coldwater and/or marine fish exhibit dietary requirements for LC ‐ PUFA s but warmwater and/or freshwater species do not. Here, we provide a review of the current literature on the subject of dietary fatty acid essentiality in fish and introduce the experiments that form the basis of this special section. In these experiments, we tested the nutritional essentiality of C 18 PUFA s versus LC ‐ PUFA s in feeds for five finfish relevant to intensive aquaculture: Rainbow Trout Oncorhynchus mykiss , Channel Catfish Ictalurus punctatus , Nile Tilapia Oreochromis niloticus , Florida Pompano Trachinotus carolinus , and hybrid Striped Bass (White Bass Morone chrysops × Striped Bass M. saxatilis ), hypothesizing that the nutritional essentiality of C 18 PUFA s versus LC ‐ PUFA s would be determined by trophic level. The findings collectively suggest that trophic level is the most reliable predictor of C 18 PUFA versus LC ‐ PUFA nutritional essentiality in fish.