Search results for " morphometrics"

showing 10 items of 50 documents

Développement postnatal et évolution du complexe craniofacial chezles rongeurs

2022

Understanding developmental mechanisms in evolution is crucial to apprehend the diversification of organismal forms. In mammals, changes occur during all development phases (prenatal and postnatal). Postnatal growth plays an essential role in the acquisition of the adult shape. During this period, the craniofacial complex undergoes many changes in functional constraint forcing the different tissue to accommodate while adjusting, along the growth and at the adult stage, to a certain level of functional performance. These different developmental interactions respond to several influencing factors such as molecular, genetic and cellular processes but also the environment. The latter will play …

[SDE.BE] Environmental Sciences/Biodiversity and EcologyGeometric morphometricsCraniofacialMorphométrie géométriqueRongeursEpigeneticGrowthDevelopmentEpigénétiqueCroissanceRodentsDéveloppement
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Human-induced hybridization and population bottleneck : population genetics, morphometrics and parasitology applied to the invaded and invasive tilap…

2011

Biological invasions are recognized as a significant evolutionary factor over short time scales. In particular, their effect is well recorded on the genetic structure of populations, the patterns of phenotypic evolution and the richness of parasite fauna associated to invasive populations. This study aims at quantifying the consequences of a biological invasion according to these three levels (genetical, phenotypical and parasitological) taking as example the Mozambique tilapia Oreochromis mossambicus. This African cichlid is characterized by an unusual conservation status since it is both (i) ranked among the world’s worst invasive species due to its global dispersion during the 20th centu…

[SDV.SA]Life Sciences [q-bio]/Agricultural sciencesÉvolution contemporaine[SDV.SA] Life Sciences [q-bio]/Agricultural sciencesGeometric morphometricsFounding event[SDV.MHEP] Life Sciences [q-bio]/Human health and pathologyIntrogressionHybridationÉvènement fondateurContemporary evolutionCichlidaeMonogenean parasitesPression de propaguleParasites monogènesMorphométrie géométriqueInvasion biologique[ SDV.MHEP ] Life Sciences [q-bio]/Human health and pathologyBiological invasionsHybridization[ SDV.SA ] Life Sciences [q-bio]/Agricultural sciences[SDV.MHEP]Life Sciences [q-bio]/Human health and pathologyTilapiaPropagule pressure
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Supplementary material 13 from: Van Cann J, Virgilio M, Jordaens K, De Meyer M (2015) Wing morphometrics as a possible tool for the diagnosis of the …

2015

Individual assignments to genotypic clusters A, F1, F2, R1, R2: Explanation note: Posterior group membership probabilities (PGMPs) of male and female specimens as resulting from Discriminant Analysis of Principal Coordinates of wing landmarks (upper) or wing band areas (lower). Prior groups: A, F1, F2, R1, R2 (from white to dark blue).

cryptic speciesfruit fliesCeratitis fasciventriswing morphometricsCeratitis anonaePosterior Group Membership ProbabilityCeratitis rosaintegrative taxonomy
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Supplementary material 11 from: Van Cann J, Virgilio M, Jordaens K, De Meyer M (2015) Wing morphometrics as a possible tool for the diagnosis of the …

2015

Constrained ordination of wing band areas: Explanation note: Discriminant analysis of principal coordinates (DAPC) maximising morphometric differences in wing band areas between males and females (a) Ceratitis anonae, Ceratitis fasciventris and Ceratitis rosa and (b) genotypic clusters A, F1, F2, R1, R2.

cryptic speciesfruit fliesCeratitis fasciventriswing morphometricsCeratitis anonaePosterior Group Membership ProbabilityCeratitis rosaintegrative taxonomy
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Supplementary material 8 from: Van Cann J, Virgilio M, Jordaens K, De Meyer M (2015) Wing morphometrics as a possible tool for the diagnosis of the C…

2015

Unconstrained ordination of wing landmarks: Explanation note: Principal component analysis (PCA) showing morphometric differences in wing landmarks between males and females (a) Ceratitis anonae, Ceratitis fasciventris and Ceratitis rosa and (b) genotypic clusters A, F1, F2, R1, R2.

cryptic speciesfruit fliesCeratitis fasciventriswing morphometricsCeratitis anonaePosterior Group Membership ProbabilityCeratitis rosaintegrative taxonomy
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Supplementary material 4 from: Van Cann J, Virgilio M, Jordaens K, De Meyer M (2015) Wing morphometrics as a possible tool for the diagnosis of the C…

2015

Wing landmarks and wing band areas: Explanation note: Position of wing landmarks and wing band areas (numbers according to Suppl. material 3).

cryptic speciesfruit fliesCeratitis fasciventriswing morphometricsCeratitis anonaePosterior Group Membership ProbabilityCeratitis rosaintegrative taxonomy
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Supplementary material 12 from: Van Cann J, Virgilio M, Jordaens K, De Meyer M (2015) Wing morphometrics as a possible tool for the diagnosis of the …

2015

Average individual assignments: Explanation note: Average individual posterior group membership probabilities (PGMPs) of male and female specimens of three morphospecies (Ceratitis anonae, Ceratitis fasciventris and Ceratitis rosa) and five genotypic clusters (A, F1, F2, R1, R2) as resulting from the analysis of wing landmarks (light grey) and wing band areas (dark grey).

cryptic speciesfruit fliesCeratitis fasciventriswing morphometricsCeratitis anonaePosterior Group Membership ProbabilityCeratitis rosaintegrative taxonomy
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Supplementary material 2 from: Van Cann J, Virgilio M, Jordaens K, De Meyer M (2015) Wing morphometrics as a possible tool for the diagnosis of the C…

2015

Map of sampling locations: Explanation note: Number of sampled specimens for each morphospecies are indicated in parentheses.

cryptic speciesfruit fliesCeratitis fasciventriswing morphometricsCeratitis anonaePosterior Group Membership ProbabilityCeratitis rosaintegrative taxonomy
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Supplementary material 9 from: Van Cann J, Virgilio M, Jordaens K, De Meyer M (2015) Wing morphometrics as a possible tool for the diagnosis of the C…

2015

Unconstrained ordination of wing band areas: Explanation note: Principal component analysis (PCA) showing morphometric differences in wing band areas between males and females (a) Ceratitis anonae, Ceratitis fasciventris and Ceratitis rosa and (b) genotypic clusters A, F1, F2, R1, R2.

cryptic speciesfruit fliesCeratitis fasciventriswing morphometricsCeratitis anonaePosterior Group Membership ProbabilityCeratitis rosaintegrative taxonomy
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Supplementary material 15 from: Van Cann J, Virgilio M, Jordaens K, De Meyer M (2015) Wing morphometrics as a possible tool for the diagnosis of the …

2015

Morphometric differences across genotypic clusters (wing band areas): Explanation note: PERMANOVA and a posteriori comparisons (t-statistic) testing differences in multivariate patterns of wing band areas among morphospecies (Ceratitis anonae, Ceratitis fasciventris, Ceratitis rosa). d.f.: degrees of freedom; MS: mean square estimates; F: pseudo-F. Probability of Monte Carlo simulations: n.s.: not significant a P<0.05; ***: P<0.001, **: P<0.01; *: P<0.05 (after False Discovery Rate Correction for repeated a posteriori comparisons).

cryptic speciesfruit fliesCeratitis fasciventriswing morphometricsCeratitis anonaePosterior Group Membership ProbabilityCeratitis rosaintegrative taxonomy
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