highlights
Benchmarking the Mantel test and derived methods for testing association between distance matrices.
Testing the association between objects is central in ecology, evolution, and quantitative sciences in general. Two types of variables can describe the relationships between objects: point variables (measured on individual objects), and distance variables (measured between pairs of objects). The Mantel test and derived methods have been extensively used for distance variables. Yet, these methods have been criticized due to low statistical power and inflated type I error when spatial autocorrelation is present. Here, we assessed the statistical power between different types of tested variables and the type I error rate over a wider range of autocorrelation intensities than previously assessed, both on univariate and multivariate data. We also illustrated the performance of distance matrix statistics through computational simulations of genetic diversity. We show that the Mantel test and derived methods are not affected by inflated type I error when spatial autocorrelation affects only one variable when investigating correlations, or when either the response or the explanatory variable(s) is affected by spatial autocorrelation while investigating causal relationships. As previously noted, with autocorrelation affecting more variables, inflated type I error could be reduced by modifying the significance threshold. Additionally, the Mantel test has no problem of statistical power when the hypothesis is formulated in terms of distance variables. We highlight that transformation of variable types should be avoided because of the potential information loss and modification of the tested hypothesis. We propose a set of guidelines to help choose the appropriate method according to the type of variables and defined hypothesis.
Skin colour patterns: predicting the unseen
In ‘Physical Review X (PRX)’, Milinkovitch's team predicts & confirms a secondary colour pattern in ocellated lizards. This pattern is too subtle for our eyes to see.
Understanding Architecture And Evolutionary Patterns In Haplolepidous Peristomes (Dicranidae, Bryophyta) Using Histology And Micro-Morphology
25.07.2023 14:00, Salle de conférence (Museum of Natural History)
Mathilde Ruche (Michelle Price's group).
hosted by: Michelle Price.
Research
Our department hosts 12 research laboratories gathering close to 200 scientists, engineers and technical staff. Research topics cover a large variety of topics, such as developmental genetics and neurogenetics, regeneration, evo-devo, physics of biology, phylogenetics or anthropology.
moreevents
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25 Jul
Understanding Architecture And Evolutionary Patterns In Haplolepidous Peristomes (Dicranidae, Bryophyta) Using Histology And Micro-Morphology
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30 Aug
to be announced
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29 Sep
Mechanobiology of cell shape control
contact
Department of Genetics and Evolution
Quai Ernest-Ansermet, 30
1205 Geneva
Switzerland
office: 4002A
T: +41 22 379 67 85
