Adaptive radiations, ecological specialization, and the evolutionary integration of complex morphological structures.
about
Cranial and mandibular shape variation in the genus Carollia (Mammalia: Chiroptera) from Colombia: biogeographic patterns and morphological modularityEcomorphological variation of the wireworm cephalic capsule: studying the interaction of environment and geometric shapeEcology and caudal skeletal morphology in birds: the convergent evolution of pygostyle shape in underwater foraging taxaAssessing trait covariation and morphological integration on phylogenies using evolutionary covariance matricesMorphological and biomechanical disparity of crocodile-line archosaurs following the end-Triassic extinctionEvolutionary mode routinely varies among morphological traits within fossil species lineagesThe Measurement of Local Variation in ShapeEvolutionary patterns and processes in the radiation of phyllostomid bats.Cranial shape evolution in adaptive radiations of birds: comparative morphometrics of Darwin's finches and Hawaiian honeycreepersEvolutionary covariation in geometric morphometric data: analyzing integration, modularity, and allometry in a phylogenetic context.A method for assessing phylogenetic least squares models for shape and other high-dimensional multivariate data.Studying morphological integration and modularity at multiple levels: concepts and analysisThe floral morphospace--a modern comparative approach to study angiosperm evolution.Roles for modularity and constraint in the evolution of cranial diversity among Anolis lizards.Bite of the cats: relationships between functional integration and mechanical performance as revealed by mandible geometry.A simple procedure for the comparison of covariance matrices.Does nasal echolocation influence the modularity of the mammal skull?The complex ontogenetic trajectory of mandibular shape in a laboratory mouse.The Implications of Stratigraphic Compatibility for Character Integration among Fossil Taxa.Tools for quantitative form description; an evaluation of different software packages for semi-landmark analysisWhy should we investigate the morphological disparity of plant clades?Exploration of the genetic organization of morphological modularity on the mouse mandible using a set of interspecific recombinant congenic strains between C57BL/6 and mice of the Mus spretus species.Malagasy cichlids differentially limit impacts of body shape evolution on oral jaw functional morphology.Quantitative genetic analysis of subspecific differences in body shape in the snail-feeding carabid beetle Damaster blaptoidesIn search of morphological modules: a systematic review.Competing influences on morphological modularity in biomechanical systems: a case study in mantis shrimp.Macroevolutionary developmental biology: Embryos, fossils, and phylogenies.Intense natural selection preceded the invasion of new adaptive zones during the radiation of New World leaf-nosed bats.Dissection of evolutionary networks to assess their role in the evolution of robustness, function, and diversification.Biting disrupts integration to spur skull evolution in eels.Species ecological similarity modulates the importance of colonization history for adaptive radiation.Evolution of a complex phenotype with biphasic ontogeny: Contribution of development versus function and climatic variation to skull modularity in toads.Standing on the shoulders of apes: Analyzing the form and function of the hominoid scapula using geometric morphometrics and finite element analysis.Non-decoupled morphological evolution of the fore- and hindlimb of sabretooth predators.Shape analysis of odontocete mandibles: functional and evolutionary implications.How (much) do flowers vary? Unbalanced disparity among flower functional modules and a mosaic pattern of morphospace occupation in the order Ericales.Conserved but flexible modularity in the zebrafish skull: implications for craniofacial evolvability.Morphometric assessment of pterosaur jaw disparity.Contrasting patterns of RUNX2 repeat variations are associated with palate shape in phyllostomid bats and New World primates.MowJoe: a method for automated-high throughput dissected leaf phenotyping.
P2860
Q28607291-4DC5AAA9-03A5-4C81-A55C-24EAA661C3A9Q28655974-C5E5DF5F-C223-442A-A2F3-0206976533E9Q28658572-BC163737-DA1B-4BEF-B362-0D7856191A2DQ28660170-F5A86D1A-98D5-4931-85AB-D8C39C418E9AQ28680361-052156A5-FE2E-44AA-92F3-9227762FDE4DQ28710236-19FD94CE-B98C-406B-95D2-866E63A2EE64Q28710585-25DDBD2C-7FEE-4264-A409-8140CE747113Q28742879-2CA11812-C23A-4D88-B576-E9D06CF9B88FQ28818658-42E8E452-7529-42EA-A6F8-381898ED434CQ30617071-9A37704C-4723-4D6D-AC85-28D902152189Q30829112-EB39DA0D-CAEB-4C00-892B-195615008E7BQ33854435-090E2BF6-7D4B-4657-B945-482CE68829C6Q33926359-16A1BA67-4E7D-4642-9738-11887B0BD2AAQ34240447-E4DFF2EB-6302-4EE4-BB9A-45795B749492Q34362564-1F417E57-5D63-44EE-8101-6FE9E05D1062Q34484415-46120720-A772-4E5A-BC00-651213208BCFQ34982066-A363A374-A5A8-4D14-AD7E-4D4AF96BCBFCQ35013320-E3E15352-E4F0-4703-816C-6B1850F9DC21Q35682292-AAE47FC7-DFCF-47FE-B0E2-B579C05038BBQ35855323-19F2C0FF-DD84-473C-A4B5-F66F14E9B123Q35866752-D3540520-4534-44A0-80D9-3FE81BEFB91EQ36297179-A564D2CE-972C-44FD-B158-AD3BA24A8486Q36412243-E7F9BC3A-5F9A-4216-8225-CA7D995C60F1Q36466546-314B02E1-963E-490A-939F-A724E7F9BE97Q38849131-EFC64B63-F6AE-448F-BFAF-4182CE06F1BFQ39780728-BE281028-EDF1-4E9A-9DFF-B1C39B479F7BQ40650726-749E1216-7336-401C-85CE-AD87C61128E7Q41320568-BA5650D7-3C19-4E25-A14F-CF01FAD09FDDQ43923351-84FC67D0-E802-4D5F-B688-196AFA5ABEB8Q46104740-4DDB7158-7015-44B0-8ADB-68FC27AC3297Q46376381-2E47A4CC-5448-4D7F-9ED1-E5E932F67BF1Q47139530-E9905784-5306-4ABC-AB67-5B9547B2B146Q47371333-7EA597BF-C4FC-4C41-B0EE-32445180FCA7Q47822760-508F96AA-5677-4F9C-94C3-2D9D47FBD5E0Q50429760-7F5CA3FA-A4D2-4BBF-AD62-53935936DD7CQ51217929-D6ED901E-AF8B-4B14-9684-2734DA6355D9Q52579693-12DBA539-DBE1-4464-ABDB-5C5195A46E9DQ53820028-20FDFF26-380D-4B41-98CE-4577CAB61B25Q55005787-10228B8C-6160-4E48-AD6E-57C1110AFE35Q55009170-BB941352-F160-4D6B-889A-E572BCDB8A63
P2860
Adaptive radiations, ecological specialization, and the evolutionary integration of complex morphological structures.
description
2009 nî lūn-bûn
@nan
2009 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Adaptive radiations, ecologica ...... plex morphological structures.
@ast
Adaptive radiations, ecologica ...... plex morphological structures.
@en
type
label
Adaptive radiations, ecologica ...... plex morphological structures.
@ast
Adaptive radiations, ecologica ...... plex morphological structures.
@en
prefLabel
Adaptive radiations, ecologica ...... plex morphological structures.
@ast
Adaptive radiations, ecologica ...... plex morphological structures.
@en
P2860
P1433
P1476
Adaptive radiations, ecologica ...... mplex morphological structures
@en
P2093
Marcelo R Nogueira
P2860
P304
P356
10.1111/J.1558-5646.2009.00857.X
P577
2009-10-05T00:00:00Z