Retrospective characterization of ontogenetic shifts in killer whale diets via delta C-13 and delta N-15 analysis of teeth

Metabolically inert, accretionary structures such as the dentin growth layers in teeth provide a life history record of individual diet with near-annual resolution. We constructed ontogenetic delta C-13 and delta N-15 profiles by analyzing tooth dentin growth layers from 13 individual killer whales Orcinus orca collected in the eastern northeast Pacific Ocean between 1961. and 2003. The individuals sampled were 6 to 52 yr old, representing 2 ecotypes-resident and transient-collected across similar to 25 degrees of latitude. The average isotopic values of transient individuals (n = 1.0) are consistent with a reliance on mammalian prey, while the average isotopic values of residents (n = 3) are consistent with piscivory. Regardless of ecotype, most individuals show a decrease in delta N-15 values of similar to 2.5 parts per thousand. through the first 3 yr of life, roughly equivalent to a decrease of one trophic level. We interpret this as evidence of gradual weaning, after which, ontogenetic shifts in isotopic values are highly variable. A few individuals (n = 2) maintained relatively stable delta N-15 and delta C-13 values throughout the remainder of their lives, whereas delta N-15 values of most (n = 11) increased by similar to 1.5 parts per thousand, suggestive of an ontogenetic increase in trophic level. Significant differences in mean delta C-13 and delta N-15 values among transients collected off California suggest that individuality in prey preferences may be prevalent within this ecotype. Our approach provides retrospective individual life history and dietary information that cannot be obtained through traditional field observations of free-ranging and elusive species such as killer whales, including unique historic ecological information that pre-dates modern studies. By providing insights into individual diet composition, stable isotope analysis of teeth and/or bones may be the only means of evaluating a number of hypothesized historical dietary shifts in killer whales of the northeast Pacific Ocean.