Many-to-One Mapping of Form to Function: A General Principle in Organismal Design?
about
An Unusual New Theropod with a Didactyl Manus from the Upper Cretaceous of Patagonia, ArgentinaEvolution of high trophic diversity based on limited functional disparity in the feeding apparatus of marine angelfishes (f. Pomacanthidae)Convergent evolution as natural experiment: the tape of life reconsideredExploring the nature of ecological specialization in a coral reef fish community: morphology, diet and foraging microhabitat useMechanical analysis of avian feet: multiarticular muscles in grasping and perchingQualitative skeletal correlates of wing shape in extant birds (Aves: Neoaves)Morphological and biomechanical disparity of crocodile-line archosaurs following the end-Triassic extinctionDoes morphological convergence imply functional similarity? A test using the evolution of quadrupedalism in ornithischian dinosaursHeads or tails: staged diversification in vertebrate evolutionary radiationsBipartite life cycle of coral reef fishes promotes increasing shape disparity of the head skeleton during ontogeny: an example from damselfishes (Pomacentridae)Hybridization produces novelty when the mapping of form to function is many to oneForm and function of damselfish skulls: rapid and repeated evolution into a limited number of trophic nichesDo North Atlantic eels show parallel patterns of spatially varying selection?Convergence, adaptation, and constraint.Parallel and nonparallel aspects of ecological, phenotypic, and genetic divergence across replicate population pairs of lake and stream sticklebackKinematic plasticity during flight in fruit bats: individual variability in response to loadingMorphology and efficiency of a specialized foraging behavior, sediment sifting, in neotropical cichlid fishesMorphological integration versus ecological plasticity in the avian pelvic limb skeleton.Locomotion in ornithischian dinosaurs: an assessment using three-dimensional computational modelling.Functional basis of ecological divergence in sympatric stickleback.Physiological plasticity to water flow habitat in the damselfish, Acanthochromis polyacanthus: linking phenotype to performance.Vertebrate evolution. Evolutionary innovation and ecology in marine tetrapods from the Triassic to the Anthropocene.Physiological Trade-Offs Along a Fast-Slow Lifestyle Continuum in Fishes: What Do They Tell Us about Resistance and Resilience to Hypoxia?Digging adaptation in insectivorous subterranean eutherians. The enigma of Mesoscalops montanensis unveiled by geometric morphometrics and finite element analysis.Testing Convergence Versus History: Convergence Dominates Phenotypic Evolution for over 150 Million Years in Frogs.Adaptive evolution in locomotor performance: How selective pressures and functional relationships produce diversity.A promising future for integrative biodiversity research: an increased role of scale-dependency and functional biology.Ecological specialization and morphological diversification in Greater Antillean boas.Correlated evolution of body and fin morphology in the cichlid fishes.Comparative and developmental patterns of amphibious auditory function in salamanders.The ecology of a continental evolutionary radiation: Is the radiation of sigmodontine rodents adaptive?Rare ecomorphological convergence on a complex adaptive landscape: Body size and diet mediate evolution of jaw shape in squirrels (Sciuridae).Patterns of cetacean vaginal folds yield insights into functionality.Malagasy cichlids differentially limit impacts of body shape evolution on oral jaw functional morphology.Mechanical Transgressive Segregation and the Rapid Origin of Trophic Novelty.Getting a grip on tetrapod grasping: form, function, and evolution.Leaf venation: structure, function, development, evolution, ecology and applications in the past, present and future.Gape size, its morphological basis, and the validity of gape indices in western diamond-backed rattlesnakes (Crotalus atrox).Phylogenetic convergence and multiple shell shape optima for gliding scallops (Bivalvia: Pectinidae).Complexities of gene expression patterns in natural populations of an extremophile fish (Poecilia mexicana, Poeciliidae).
P2860
Q26249603-63232CB3-E02A-48C4-B0AB-0B02055B38FFQ27322582-5377FE5F-54D0-4E2F-B8A7-7514B684DAD6Q28607813-F3B0F646-CBD5-4D3A-B982-FE4479D985C4Q28608625-291ED921-B220-4D0A-8A0E-CF06D74433CBQ28646710-C5BE6A0F-97F2-470B-9A0D-87CE3D43200CQ28649780-0775F4AB-C3BA-441B-859A-8DBC42EAC1C1Q28680361-108C1118-7C77-468F-A64A-E09763B7FD7CQ28728515-C2CA8DA7-7A6F-4EAF-A5C1-F09817B4DC32Q28730946-F0C5E36A-543B-4DD9-B832-6CBB0B28B833Q28740947-C373A69A-4BC5-4E6F-A844-4F385577A357Q28754553-85CCBE42-8715-4130-A69F-71B128476F41Q28755170-194ACF3E-3779-4B11-81DD-2822B1B5D3F3Q33801235-F093152E-124D-423E-B9F4-95E96D8232F4Q33950826-024F0ADF-03B5-4615-9164-19EF715D8620Q34140761-317A1F7E-B0F3-4D87-B5E0-89A4CF6430BEQ34277357-401D6B16-3455-4D4A-9655-F81174D9780AQ34408750-2EA8924B-F711-405D-B125-0E99267C6831Q34537774-7ED58AE7-C205-4B5B-B9C2-EEDD9B7A2D17Q35046778-68C6E6FE-69D2-4B42-BAFB-CD0A408F096AQ35079178-882AD0DF-CACD-40BE-A600-EBCF783DB13BQ35217540-760088FB-F932-442C-99E6-3AEB07D7641CQ35604969-F3DAA304-92C0-401F-8335-F792F7D5F991Q35662300-02A59481-271F-476C-B8DD-4726166E49D5Q35680650-4A5003B2-B78D-4DB8-A947-40CEDC85F538Q35802660-B3756FCD-57C7-4C1A-B104-A8066501EDCCQ35854749-F88F9BC5-5982-49C7-AFF9-DE9628059C51Q35957031-52F35717-34A0-48BC-B346-5A953A1D6660Q36061828-166359FC-2C8C-4D76-ABE0-188A2494BE20Q36089150-F8F3C499-A953-495C-9CE8-DFFCCCEED37EQ36170151-DE92E8BC-67E3-4836-B279-34CABC434108Q36233732-CCBF7F83-03A9-41F2-8397-FDCB8A5AD59EQ36246054-34366CEE-43CB-4427-B672-D5431D402DE2Q36330106-C06B94EB-FFC8-4EB3-8A7C-53B5DD31CBA3Q36412243-7E174446-3D5A-4DA8-998D-37C407BCC130Q37581689-B8147B0D-AA33-4E5E-856C-2F8D12C70982Q38071379-AC4B9C56-EEF5-46CD-80FB-B9C569B8456AQ38100205-3A8AB416-AF32-4C5A-9052-D0F0A278A1A3Q38456973-B3D323F5-A7C9-45C5-BEB2-5F9111715862Q38698990-EF8B3405-6722-465B-BDA8-851B958756B2Q38734267-BC45E62A-8560-4B0B-B718-C1A09AD755C7
P2860
Many-to-One Mapping of Form to Function: A General Principle in Organismal Design?
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
Many-to-One Mapping of Form to Function: A General Principle in Organismal Design?
@en
Many-to-One Mapping of Form to Function: A General Principle in Organismal Design?
@nl
type
label
Many-to-One Mapping of Form to Function: A General Principle in Organismal Design?
@en
Many-to-One Mapping of Form to Function: A General Principle in Organismal Design?
@nl
prefLabel
Many-to-One Mapping of Form to Function: A General Principle in Organismal Design?
@en
Many-to-One Mapping of Form to Function: A General Principle in Organismal Design?
@nl
P2093
P356
P1476
Many-to-One Mapping of Form to Function: A General Principle in Organismal Design?
@en
P2093
C Darrin Hulsey
Michael E Alfaro
Peter C Wainwright
P304
P356
10.1093/ICB/45.2.256
P577
2005-04-01T00:00:00Z