Ontogenetic shape variations are related to diet in the drunk blenny Scartichthys variolatus (Blenniidae) from an oceanic island of South Pacific Ocean
摘要
In fishes, mouth gape and body size constrain food acquisition, and morphology often changes throughout ontogeny, potentially leading to covariation between shape and trophic ecology. We tested this hypothesis in the spotted drunk blenny Scartichthys variolatus, an insular species from Robinson Crusoe Island (Southeast Pacific Ocean), by integrating geometric morphometrics and stable isotope analysis. Specimens (n = 90) range from 4.66 to 24.01 cm total length (mean ± SD: 12.14 ± 5.14 cm) and from 0.43 to 131.33 g (24.94 ± 29.55 g). The relative condition (Kn) was independent of size. Ontogenetic shape variation was characterised by a transition from individuals with relatively larger eyes, shorter snouts, and a relatively larger distance of dorsal fin insertion from the snout to specimens with smaller eyes relative to the head, vertically extended snouts, and more frontally inserted dorsal fins. The ontogenetic allometry was high (30.5%) and continuous across the size range, indicating substantial shape disparity among sizes. When interpreted within a locally constrained isotopic baseline defined by macroalgae consumed by the species, carbon stable isotope values (δ13C) increased ontogenetically from −18.1‰ to −15.2‰, whereas nitrogen stable isotope values (δ15N) remained relatively constant across sizes (17.5 ± 1.4‰). Partial least squares analyses revealed a significant covariation between cranial shape, body size, body mass, and δ13C values, indicating an ontogenetic coupling between morphological change and shifts in the use of basal carbon resources, rather than changes in trophic position. Overall, our results highlight an ecomorphological pattern in which phenotypic plasticity mediates ontogenetic adjustments in basal resource use in an insular fish, emphasising the role of detrital pathways and local isotopic baselines in shaping trophic ecology.