Differences in δ 13 C and δ 15 N stable isotopes in the pearly razorfish Xyrichtys novacula related to the sex, location and spawning period

In the present study, Xyrichtys novacula (Labridae) were sampled at five locations around the islands of Ibiza and Formentera (western Mediterranean Sea). Isotopic signatures of δ 13 C, δ 15 N and the C:N ratio were analysed in relation to locality, sex and size differences. δ 13 C and δ 15 N partitioning was also studied in the reproductive spawning period. There were significant differences in the δ 13 C signature between localities for both sexes, but not for δ 15 N. Sex differences were also found with a mean ± s.e . value of −17·38 ± 0·06‰δ 13 C and 8·36 ± 0·05‰δ 15 N for females and −17·17 ± 0·07‰δ 13 C and 8·80 ± 0·06‰δ 15 N for males. Increasing total length in both sexes was positively correlated with δ 15 N enrichment and a significant positive linear regression was established for both variables. During the reproductive spawning period, there were changes in δ 13 C fractioning with enrichment in postspawning females and males (with respect to prespawning and spawning periods) and δ 15 N impoverishment in postspawning females (with respect to prespawning and spawning periods). Xyrichtys novacula uses local food sources, as confirmed by δ 13 C and δ 15 N, and females and males use different food sources, thus avoiding intraspecific competition. This was confirmed by δ 15 N enrichment as size increased. Spawning leads to special requirements for gonad maturation, which is reflected in the isotopic signatures for both sexes.