Biting disrupts integration to spur skull evolution in eels

Collar, David C.; Wainwright, Peter C.; Alfaro, Michael E.; Revell, Liam J.; Mehta, Rita S.

doi:10.1038/ncomms6505

Cited by 61 publications

(53 citation statements)

References 68 publications

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“…However, the biting we observed in northern fur seals seemed stereotypical. In contrast, suction feeding, as observed in Steller sea lions, requires a series of morphological parts and behavioral events to be coordinated to function effectively (Collar et al, 2014). Such functional integration likely constrains skull evolution and suction feeding (Collar et al, 2014).…”

Section: Discussionmentioning

confidence: 99%

“…In contrast, suction feeding, as observed in Steller sea lions, requires a series of morphological parts and behavioral events to be coordinated to function effectively (Collar et al, 2014). Such functional integration likely constrains skull evolution and suction feeding (Collar et al, 2014). It has been suggested that the terrestrial arctoid ancestors of pinnipedimorphs ( pinnipeds and their extinct relatives) exhibited a biting feeding mode, and biting is considered the ancestral feeding mode among extant pinnipeds (Werth, 2000a;Adam and Berta, 2002;Berta et al, 2006).…”

Section: Discussionmentioning

confidence: 99%

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Feeding kinematics and performance of basal otariid pinnipeds, Steller sea lions (Eumetopias jubatus), and northern fur seals (Callorhinus ursinus): implications for the evolution of mammalian feeding

Marshall

Rosen

Trites

2015

Journal of Experimental Biology

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Feeding performance studies can address questions relevant to feeding ecology and evolution. Our current understanding of feeding mechanisms for aquatic mammals is poor. Therefore, we characterized the feeding kinematics and performance of five Steller sea lions (Eumetopias jubatus) and six northern fur seals (Callorhinus ursinus). We tested the hypotheses that both species use suction as their primary feeding mode, and that rapid jaw opening was related to suction generation. Steller sea lions used suction as their primary feeding mode, but also used a biting feeding mode. In contrast, northern fur seals only used a biting feeding mode. Kinematic profiles of Steller sea lions were all indicative of suction feeding (i.e. a small gape, small gape angle, large depression of the hyolingual apparatus and lip pursing). However, jaw opening as measured by gape angle opening velocity (GAOV) was relatively slow in Steller sea lions. In contrast to Steller sea lions, the GAOV of northern fur seals was extremely fast, but their kinematic profiles indicated a biting feeding mode (i.e. northern fur seals exhibited a greater gape, a greater gape angle and minimal depression of the hyolingual apparatus compared with Steller sea lions). Steller sea lions produced both subambient and suprambient pressures at 45 kPa. In contrast, northern fur seals produced no detectable pressure measurements. Steller sea lions have a broader feeding repertoire than northern fur seals, which likely enables them to feed on a greater variety of prey, in more diverse habitats. Based on the basal phylogenetic position of northern fur seals, craniodental morphological data of the Callorhinus lineage, and the performance data provided in this study, we suggest that northern fur seals may be exhibiting their ancestral feeding mode.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Feeding kinematics and performance of basal otariid pinnipeds, Steller sea lions (Eumetopias jubatus), and northern fur seals (Callorhinus ursinus): implications for the evolution of mammalian feeding

Marshall

Rosen

Trites

2015

Journal of Experimental Biology

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“…In other fishes, decoupling of prey capture from prey processing is a function of having two sets of jaws, oral and pharyngeal, of which the latter performs the majority of processing [44]. In some fish lineages, decoupling of anatomical modules during feeding behaviour has led to radical changes in the morphology of formerly integrated cranial modules, correlated with increased diversification in these lineages [9]. Using the body as a method of prey restraint or to outright capture prey is prominent in other vertebrates outside fishes (e.g.…”

Section: (B) Why Do Stingrays Chew?mentioning

confidence: 99%

“…), prey capture and processing may be handled by two systems-prey capture is achieved with the disc (the morphological structure derived from encircling pectoral fins [8]), leaving the jaws and teeth for prey processing. In all these cases, different anatomical modules handle different functions, allowing for independent modular evolution [9] and increased evolutionary flexibility.…”

Section: Introductionmentioning

confidence: 99%

Always chew your food: freshwater stingrays use mastication to process tough insect prey

et al. 2016

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Chewing, characterized by shearing jaw motions and high-crowned molar teeth, is considered an evolutionary innovation that spurred dietary diversification and evolutionary radiation of mammals. Complex prey-processing behaviours have been thought to be lacking in fishes and other vertebrates, despite the fact that many of these animals feed on tough prey, like insects or even grasses. We investigated prey capture and processing in the insect-feeding freshwater stingray Potamotrygon motoro using high-speed videography. We find that Potamotrygon motoro uses asymmetrical motion of the jaws, effectively chewing, to dismantle insect prey. However, CT scanning suggests that this species has simple teeth. These findings suggest that in contrast to mammalian chewing, asymmetrical jaw action is sufficient for mastication in other vertebrates. We also determined that prey capture in these rays occurs through rapid uplift of the pectoral fins, sucking prey beneath the ray's body, thereby dissociating the jaws from a prey capture role. We suggest that the decoupling of prey capture and processing facilitated the evolution of a highly kinetic feeding apparatus in batoid fishes, giving these animals an ability to consume a wide variety of prey, including molluscs, fishes, aquatic insect larvae and crustaceans. We propose Potamotrygon as a model system for understanding evolutionary convergence of prey processing and chewing in vertebrates.

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“…Other studies have examined divergence between biting and suction feeding fishes [17,40] but few have done so in a way that incorporates multiple recent transitions (but see [41]). A previous study of New World cichlids shows an association between enhanced jaw protrusion and foraging on evasive prey, though only some of the non-evasive prey specialists in that study were biting taxa [42].…”

Section: (C) Evolution Of Fish Feeding Modesmentioning

confidence: 99%

Replicated divergence in cichlid radiations mirrors a major vertebrate innovation

et al. 2016

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Decoupling of the upper jaw bones-jaw kinesis-is a distinctive feature of the ray-finned fishes, but it is not clear how the innovation is related to the extraordinary diversity of feeding behaviours and feeding ecology in this group. We address this issue in a lineage of ray-finned fishes that is well known for its ecological and functional diversity-African rift lake cichlids. We sequenced ultraconserved elements to generate a phylogenomic tree of the Lake Tanganyika and Lake Malawi cichlid radiations. We filmed a diverse array of over 50 cichlid species capturing live prey and quantified the extent of jaw kinesis in the premaxillary and maxillary bones. Our combination of phylogenomic and kinematic data reveals a strong association between biting modes of feeding and reduced jaw kinesis, suggesting that the contrasting demands of biting and suction feeding have strongly influenced cranial evolution in both cichlid radiations.

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Biting disrupts integration to spur skull evolution in eels

Cited by 61 publications

References 68 publications

Feeding kinematics and performance of basal otariid pinnipeds, Steller sea lions (Eumetopias jubatus), and northern fur seals (Callorhinus ursinus): implications for the evolution of mammalian feeding

Feeding kinematics and performance of basal otariid pinnipeds, Steller sea lions (Eumetopias jubatus), and northern fur seals (Callorhinus ursinus): implications for the evolution of mammalian feeding

Always chew your food: freshwater stingrays use mastication to process tough insect prey

Replicated divergence in cichlid radiations mirrors a major vertebrate innovation

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