Abstract
Ecological specialization is an important engine of evolutionary change and adaptive radiation, but empirical evidence of local adaptation in marine environments is rare, a pattern that has been attributed to the high dispersal ability of marine taxa and limited geographic barriers to gene flow. The broad-nosed pipefish, Syngnathus typhle, is one of the most broadly distributed syngnathid species and shows pronounced variation in cranial morphology across its range, a factor that may contribute to its success in colonizing new environments. We quantified variation in cranial morphology across the species range using geometric morphometrics, and tested for evidence of trophic specialization by comparing individual-level dietary composition with the community of prey available at each site. Although the diets of juvenile pipefish from each site were qualitatively similar, ontogenetic shifts in dietary composition resulted in adult populations with distinctive diets consistent with their divergent cranial morphology. Morphological differences found in nature are maintained under common garden conditions, indicating that trophic specialization in S. typhle is a heritable trait subject to selection. Our data highlight the potential for ecological specialization in response to spatially variable selection pressures in broadly distributed marine species.
Highlights
Ecological specialization is an important driver of evolutionary change, and key to adaptive radiation (Streelman and Danley 2003; Gavrilets and Losos 2009; Nosil 2012)
Animals were euthanized with an overdose of MS-222 (Tricaine), reproductive status was identified by the assessment of gonad morphology, and the digestive tract was dissected for dietary analysis
Two individuals from each of 12 populations were analyzed in order to visualize specieslevel variation in the cranial morphology of S. typhle (Fig. 2a)
Summary
Ecological specialization is an important driver of evolutionary change, and key to adaptive radiation (Streelman and Danley 2003; Gavrilets and Losos 2009; Nosil 2012). While specialization is frequently inferred based on differential resource use, understanding the evolutionary origins of the morphological, physiological, and behavioral mechanisms facilitating specialization is key to understanding its adaptive significance (Ferry-Graham et al 2002). Trophic partitioning is perhaps the best studied form of ecological specialization (e.g., Smith and Skulason 1996; Rüber et al 1999; Schluter 2000; von Rintelen et al 2004), and has been implicated in the well-known adaptive radiations of African cichlid fishes (Burress 2015) and Galapagos finches (Grant and Grant 2011). Trophic specialists are thought to trade off improved feeding efficiency on a preferred food resource against the cost of reduced niche breadth, and may benefit when competition for resources is high (Futuyma and Moreno 1988; Ferry-Graham et al 2002)
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