Bony labyrinth shape variation in extant Carnivora: a case study of Musteloidea.
about
Virtual reconstruction of the endocranial anatomy of the early Jurassic marine crocodylomorph Pelagosaurus typus (Thalattosuchia)Palaeobiology of Hyaenodon exiguus (Hyaenodonta, Mammalia) based on morphometric analysis of the bony labyrinth.Shape variation and ontogeny of the ruminant bony labyrinth, an example in Tragulidae.The petrosal bone and bony labyrinth of early to middle Miocene European deer (Mammalia, Cervidae) reveal their phylogeny.New data about semicircular canal morphology and locomotion in modern hominoids.A potential pitfall in studies of biological shape: Does size matter?Bony labyrinth morphology in early neopterygian fishes (Actinopterygii: Neopterygii).Size Variation under Domestication: Conservatism in the inner ear shape of wolves, dogs and dingoes.Comparative analysis of vestibular ecomorphology in birds.Semicircular canals in Anolis lizards: ecomorphological convergence and ecomorph affinities of fossil species.Sensory anatomy of the most aquatic of carnivorans: the Antarctic Ross seal, and convergences with other mammals.Recent inner ear specialization for high-speed hunting in cheetahs.Intraspecific variation in the domestic cat bony labyrinth revealed by different measurement techniques.A unique feeding strategy of the extinct marine mammal Kolponomos: convergence on sabretooths and sea otters.The bony labyrinth of toothed whales reflects both phylogeny and habitat preferences.Different Level of Intraspecific Variation of the Bony Labyrinth Morphology in Slow- Versus Fast-Moving Primates
P2860
Q30357799-4D918917-049A-447C-81FB-F360E6B28681Q34541088-FF5F9852-4340-4A44-B333-96A8A9C9706DQ36035154-70C7AB77-3A7A-44DB-8F92-8FD8C3C8A73DQ36086568-270F97EC-076F-4037-9B03-46AF3273CD12Q36376278-BA467F40-C98C-4610-A2A5-BDAC12E616AEQ39430011-CFDA5CD5-352B-4E79-832F-0C83AD5D174AQ39777030-8CEF343A-CA6A-46C0-B19C-5A8720414425Q42683437-7FFE976D-3619-4F85-B4B9-3B1B3E294DBBQ46257979-90257D4B-F32F-47E1-B24D-805136DC98B3Q46262187-6085D985-CA91-4A41-8348-3454B6C2561EQ46288745-ABDF778D-4E85-492D-89C3-322667BE0BFAQ48113147-BF533E72-FBD8-4CE0-B0E5-3C937535F6FCQ48197111-76117155-E233-4E81-BEF0-8801197D9373Q53169433-A7C4AC2B-1FD9-4037-B265-6924C5E8F3CBQ54986340-256F74DD-0A7D-4543-A971-1A0871EBA01AQ59326089-6E3F4333-A55E-403A-BB6C-F18396A279AE
P2860
Bony labyrinth shape variation in extant Carnivora: a case study of Musteloidea.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年学术文章
@wuu
2015年学术文章
@zh
2015年学术文章
@zh-cn
2015年学术文章
@zh-hans
2015年学术文章
@zh-my
2015年学术文章
@zh-sg
2015年學術文章
@yue
2015年學術文章
@zh-hant
name
Bony labyrinth shape variation in extant Carnivora: a case study of Musteloidea.
@ast
Bony labyrinth shape variation in extant Carnivora: a case study of Musteloidea.
@en
type
label
Bony labyrinth shape variation in extant Carnivora: a case study of Musteloidea.
@ast
Bony labyrinth shape variation in extant Carnivora: a case study of Musteloidea.
@en
prefLabel
Bony labyrinth shape variation in extant Carnivora: a case study of Musteloidea.
@ast
Bony labyrinth shape variation in extant Carnivora: a case study of Musteloidea.
@en
P2093
P2860
P356
P1433
P1476
Bony labyrinth shape variation in extant Carnivora: a case study of Musteloidea.
@en
P2093
John J Flynn
Renaud Boistel
Z Jack Tseng
P2860
P304
P356
10.1111/JOA.12421
P577
2015-11-18T00:00:00Z