Evolution of levers and linkages in the feeding mechanisms of fishes.
about
Anatomy and cranial functional morphology of the small-bodied dinosaur Fruitadens haagarorum from the Upper Jurassic of the USAIndependent evolution of the specialized pharyngeal jaw apparatus in cichlid and labrid fishesAn exceptionally preserved transitional lungfish from the lower permian of Nebraska, USA, and the origin of modern lungfishesBentho-pelagic divergence of cichlid feeding architecture was prodigious and consistent during multiple adaptive radiations within African rift-lakesJaw laterality and related handedness in the hunting behavior of a scale-eating characin, Exodon paradoxusReplicated divergence in cichlid radiations mirrors a major vertebrate innovationOntogenetic development of intestinal length and relationships to diet in an Australasian fish family (Terapontidae)Mega-Bites: extreme jaw forces of living and extinct piranhas (Serrasalmidae)Heads or tails: staged diversification in vertebrate evolutionary radiationsParallel evolutionary trajectories underlie the origin of giant suspension-feeding whales and bony fishesClassification of threespine stickleback along the benthic-limnetic axisJaw biomechanics and the evolution of biting performance in theropod dinosaursFunctional morphology and biomechanics of the tongue-bite apparatus in salmonid and osteoglossomorph fishesForm and function of damselfish skulls: rapid and repeated evolution into a limited number of trophic nichesA biomechanical model of feeding kinematics for Dunkleosteus terrelli (Arthrodira, Placodermi)Systematics of the Anteosauria (Therapsida: Dinocephalia)Jaw protrusion enhances forces exerted on prey by suction feeding fishes.Thermal Resilience of Feeding Kinematics May Contribute to the Spread of Invasive Fishes in Light of Climate Change.Four-bar linkage modelling in teleost pharyngeal jaws: computer simulations of bite kinetics.Initial radiation of jaws demonstrated stability despite faunal and environmental change.Adaptive speciation and sexual dimorphism contribute to diversity in form and function in the adaptive radiation of Lake Matano's sympatric roundfin sailfin silversides.Morphology and efficiency of a specialized foraging behavior, sediment sifting, in neotropical cichlid fishesFunctional basis of ecological divergence in sympatric stickleback.Major issues in the origins of ray-finned fish (Actinopterygii) biodiversity.A morphospace for reef fishes: elongation is the dominant axis of body shape evolutionRedescription of the hyoid apparatus and associated musculature in the extant coelacanth Latimeria chalumnae: functional implications for feeding.Development and ossification of the feeding apparatus in the larvae of two co-occurring species of kob (Sciaenidae), Argyrosomus japonicus and Argyrosomus inodorus, in South Africa.Evolutionary patterns of shape and functional diversification in the skull and jaw musculature of triggerfishes (Teleostei: Balistidae).Hard prey, soft jaws and the ontogeny of feeding mechanics in the spotted ratfish Hydrolagus colliei.Parrotfish grazing ability: interspecific differences in relation to jaw-lever mechanics and relative weight of adductor mandibulae on an Okinawan coral reef.Changes in growth rates of oral jaw elements produce evolutionary novelty in bahamian pupfish.Common evolutionary trends underlie the four-bar linkage systems of sunfish and mantis shrimp.Comparative lever analysis and ontogenetic scaling in esocid fishes: Functional demands and constraints in feeding biomechanics.Feeding with speed: prey capture evolution in cichilds.Bottom Feeding and Beyond: How the Premaxillary Protrusion of Cypriniforms Allowed for a Novel Kind of Suction Feeding.Suction among pickers: jaw mechanics, dietary breadth and feeding behaviour in beach-spawning Leuresthes spp. compared with their relatives.The morphology of the mouse masticatory musculature.Suction, Ram, and Biting: Deviations and Limitations to the Capture of Aquatic Prey.Eating with a saw for a jaw: functional morphology of the jaws and tooth-whorl in Helicoprion davisii.To move or not to move: cranial joints in European gekkotans and lacertids, an osteological and histological perspective.
P2860
Q21089899-3CFCBF6A-2C8C-45C9-AB29-CBB93E241C2BQ21283947-0A8253EC-4A16-419B-9EEA-349BE8EBAED6Q21558789-74411F1E-03CF-4C89-AC61-711E5F31FA8FQ21562231-A3C0C987-0809-4D80-B566-34E73C23E6D4Q27310754-15FBB0E9-9216-447B-BDF2-3F53801A53E2Q28602252-B8D3DB90-9709-4970-B0F1-732DAA54C3D0Q28703549-B9017C47-B74B-4902-80C4-38E6F0D718AFQ28710259-0B40C209-45D9-4689-9A94-E0B57A9F6557Q28730946-27EF3372-E1AA-478D-B57A-FB3BAA1A60A7Q28732802-32BE11F3-0020-4DD2-828C-060E1AA36740Q28743635-667B0C5E-F8F1-403B-9E74-997BB3F252AAQ28748435-8B8D07B8-E504-4C18-8E23-244763AA1967Q28752327-9F6EEF9C-C61D-4269-8F25-EE263A9BA257Q28755170-577B85E5-68CF-4FA2-8611-6EEDB202C3A5Q29037848-F7B8D62F-5A40-4C78-967A-78C13BF28335Q29040702-05F513FB-B2D0-4301-AD3B-DD28290CEADCQ30485176-CFFC22DB-DAA6-49E4-91B0-4AA212D8676CQ31145366-683B6271-63C1-4FAE-A447-B6D9CDB7220DQ33248949-497A4585-78C1-45BA-9236-852DE379B25BQ33953366-EF6B845D-EB4E-4AD3-B8AF-F0F320CADB7EQ34007534-02926AC7-3E91-4C2A-B808-40DE6D2A3BD1Q34408750-0C038E59-E4F9-48DC-8B7D-BA29209F54C5Q35079178-16C20C8F-0093-48B7-93A5-FF8486F6BC02Q35115432-2D9CBCBA-224A-4212-AF3A-A66C28968A4BQ35435819-A8D7D3E9-21B5-4FE3-B50F-148149EC3015Q35533534-4C67F288-5EC5-4AD0-87CC-8FB9EF171FABQ35867571-FA290C78-E6CC-401A-B50F-344C83AE1735Q35964300-54F9FA41-04AB-4F72-AB7E-24C5B1E91338Q37024413-D2A56043-FE8C-4AB5-BE8E-8C8A8EF3FF20Q37234062-E34BD92B-2D8F-4799-AF19-1960E0417BB7Q38877695-2219BC55-B02E-410C-B5CF-00E8C24B17A4Q38946595-3AD27399-0AB6-4B30-90D3-45E6CFDE5B52Q39462241-6BD79097-094F-4860-9941-6B70A0D159FDQ39780894-8B5A3364-F748-473F-806C-39F9D0254477Q44660621-247E5171-525D-46A0-971E-5D0E710F758BQ44707736-B3B39024-6012-4543-8FBD-2775C573F40BQ45734621-951BB929-753C-4D5F-B008-E0C3B761966CQ46036168-21ACBD9D-10ED-48DC-93E8-83D0CD320B55Q46844229-5DCE67C8-AAE8-4656-8102-EBEC431DF8ACQ46930223-2CC55BFA-3143-427A-9B1B-8991C7E3879F
P2860
Evolution of levers and linkages in the feeding mechanisms of fishes.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Evolution of levers and linkages in the feeding mechanisms of fishes.
@en
Evolution of levers and linkages in the feeding mechanisms of fishes.
@nl
type
label
Evolution of levers and linkages in the feeding mechanisms of fishes.
@en
Evolution of levers and linkages in the feeding mechanisms of fishes.
@nl
prefLabel
Evolution of levers and linkages in the feeding mechanisms of fishes.
@en
Evolution of levers and linkages in the feeding mechanisms of fishes.
@nl
P356
P1476
Evolution of levers and linkages in the feeding mechanisms of fishes.
@en
P2093
Mark W Westneat
P304
P356
10.1093/ICB/44.5.378
P577
2004-11-01T00:00:00Z