Comparing Dirichlet normal surface energy of tooth crowns, a new technique of molar shape quantification for dietary inference, with previous methods in isolation and in combination.
about
MorphoTester: An Open Source Application for Morphological Topographic AnalysisThe effects of relative food item size on optimal tooth cusp sharpness during brittle food item processingDietary inference from upper and lower molar morphology in platyrrhine primatesProspective in (Primate) dental analysis through tooth 3D topographical quantificationHow does tooth cusp radius of curvature affect brittle food item processing?Smooth operator: The effects of different 3D mesh retriangulation protocols on the computation of Dirichlet normal energyEarliest record of Platychoerops (Primates, Plesiadapidae), a new species from Mouras Quarry, Mont de Berru, France.Age-related changes in molar topography and shearing crest length in a wild population of mountain Gorillas from Volcanoes National Park, Rwanda.Wear and its effects on dental topography measures in howling monkeys (Alouatta palliata).Food mechanical properties and dietary ecology.Investigating the dental toolkit of primates based on food mechanical properties: Feeding action does matter.Detailed Anatomical Orientations for Certain Types of Morphometric Measurements Can Be Determined Automatically With Geometric Algorithms.The relationship between diet and tooth complexity in living dentigerous saurians.Evolution and function of the upper molar talon and its dietary implications in microbats.Dental topography of platyrrhines and prosimians: convergence and contrasts.Diet and dental topography in pitheciine seed predators.The first major primate extinction: An evaluation of paleoecological dynamics of North American stem primates using a homology free measure of tooth shape.A new fully automated approach for aligning and comparing shapes.Dental topography indicates ecological contraction of lemur communities.Development and Assessment of Fully Automated and Globally Transitive Geometric Morphometric Methods, With Application to a Biological Comparative Dataset With High Interspecific Variation.Tooth Wear Inclination in Great Ape Molars.The effect of differences in methodology among some recent applications of shearing quotients.Lower molar shape and size in prosimian and platyrrhine primates.Phylogenetic comparative methods complement discriminant function analysis in ecomorphology.Physical activity alters limb bone structure but not entheseal morphology.Finding fossils in new ways: an artificial neural network approach to predicting the location of productive fossil localities.On the Relationship Between Tooth Shape and Masticatory Efficiency: A Finite Element Study.Adaptive dynamics under development-based genotype-phenotype maps.Reconstructing the Diet of an Extinct Hominin Taxon: The Role of Extant Primate ModelsThe role of dietary competition in the origination and early diversification of North American euprimates
P2860
Q28601406-A50C9875-025D-4ED0-B918-387B7D56322BQ28652563-0AD66CB1-D0CE-4175-84AA-4603C05D0A9BQ28652828-A5E8A05C-461D-4020-B61A-1D507D31D9AAQ28681160-AF334531-CABF-4776-A952-DFC5DC1765FAQ28681909-E7B0D255-C083-4E71-9BC3-58754FFF6F54Q29572461-625B2F36-D370-4E53-8FD2-179E338E5089Q30559551-68A8FDA3-2F5C-4F98-85C3-94D2C00BDCBFQ35917011-BFE9F60E-7E42-4D95-9B2C-DE87F3C43847Q36135127-D52C6C33-B752-4F92-95DB-41F6A05F0727Q38710753-C3629754-7FD4-4C38-B2A4-030CDDC5FC11Q38763018-32CC286F-A997-4760-B25B-2A5F1A8951D0Q38979233-1D9BC359-0BDC-4D37-BE09-7D4C04820930Q38987551-08EE398A-5900-43B2-9C1D-7E442DBB1CAEQ39182011-6B53FCDA-C2C6-4463-83D9-214283BA1192Q39215963-1262E2B7-EAEE-4DF5-B916-A7BBA1CAA51BQ39236842-449AAB21-485E-467C-B36C-8EAFE5607274Q40135244-F6CE6517-6A11-4EEA-9A02-E13F3A3BF7DEQ40245194-B49E2186-2313-4745-B21A-5B1424AD5E37Q41414615-93BC7A24-DC55-4CED-95F3-DF24422F4E4CQ44876126-CD6E8610-EC1C-41E6-B567-BFDA13AE5851Q46320746-C3FED212-D3B5-42B2-94B5-01CCC69BCF01Q46468740-A79607DA-1D21-45A9-A41F-C2FB82752FD7Q46531488-3A5F2E2F-0C0C-4125-8338-CF6ED2EB6FF1Q46952339-0C22A6FC-13B5-449D-8586-B3E3CCF31DBFQ47213422-2C1A3FFD-71A7-45D8-A505-0B9B8326954AQ47254746-41E58DA4-E57C-4CAA-ADF3-0D28751F6EE6Q47332389-E997D0AD-9733-4DDD-8C4A-F43F7C71E0E8Q50746287-B03C77C4-EE22-436F-AD12-76224A318E25Q56619865-2E79D6CD-03C1-49CD-B7C9-8FCC426C9B82Q56687059-9CCF1132-FCC8-415A-B80A-129278E67907
P2860
Comparing Dirichlet normal surface energy of tooth crowns, a new technique of molar shape quantification for dietary inference, with previous methods in isolation and in combination.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh
2011年學術文章
@zh-hant
name
Comparing Dirichlet normal sur ...... isolation and in combination.
@en
Comparing Dirichlet normal sur ...... isolation and in combination.
@nl
type
label
Comparing Dirichlet normal sur ...... isolation and in combination.
@en
Comparing Dirichlet normal sur ...... isolation and in combination.
@nl
prefLabel
Comparing Dirichlet normal sur ...... isolation and in combination.
@en
Comparing Dirichlet normal sur ...... isolation and in combination.
@nl
P2093
P2860
P356
P1476
Comparing Dirichlet normal sur ...... isolation and in combination.
@en
P2093
Doug M Boyer
Elizabeth M St Clair
Jonathan M Bunn
Jukka Jernvall
Yaron Lipman
P2860
P304
P356
10.1002/AJPA.21489
P577
2011-04-05T00:00:00Z