If Arctic charrSalvelinus alpinusis ‘the most diverse vertebrate’, what is the lake charrSalvelinus namaycush?

Abstract

AbstractTeleost fishes are prominent vertebrate models of evolution, illustrated among old‐world radiations by the Cichlidae of East African Great Lakes and new‐world radiations by the circumpolar Arctic charrSalvelinus alpinus. Herein, we describe variation in lake charrS. namaycushmorphology, life history, physiology and ecology, as another example of radiation. The lake charr is restricted to northern North America, where it originated from glacial refugia and diversified in large lakes. Shallow and deepwater morphs arose in multiple lakes, with a large‐bodied shallow‐water‘lean’morph in shallow inshore depths, a small‐bodied mid‐water ‘humper’ morph on offshore shoals or banks, a robust, large‐bodied moderate to deep‐water ‘redfin’; morph and a large‐bodied deep‐water ‘siscowet’ morph at depths > 100 m. Eye position, gape size, and gillraker length and spacing adapted for feeding on different‐sized prey, with piscivorous morphs (leans, siscowets and presumably redfins) reaching larger asymptotic size than invertivorous morphs (humpers). Lean morphs are light in colour, whereas deepwater morphs are drab and dark, although the pattern is reversed in dark tannic lakes. Morphs shift from benthic to pelagic feeding at a length of 400–490 mm. Phenotypic differences in locomotion, buoyancy and lipid metabolism evolved into different mechanisms for buoyancy regulation, with lean morphs relying on hydrodynamic lift and siscowet morphs relying on hydrostatic lift. We suggest that theSalvelinusgenus, rather than the speciesS. alpinus, is a diverse genus that should be the subject of comparative studies of processes causing divergence and adaptation among member species that may lead to a more complete evolutionary conceptual model.