Phylogenetic Versus Functional Signals in the Evolution of Form-function Relationships in Terrestrial Vision

Overview

Journal Evolution

Publisher Oxford University Press

Specialty Biology

Date 2011 Jul 28

PMID 21790572

Citations 41

Authors

Ryosuke Motani

Lars Schmitz

Affiliations

Soon will be listed here.

Abstract

Phylogeny is deeply pertinent to evolutionary studies. Traits that perform a body function are expected to be strongly influenced by physical "requirements" of the function. We investigated if such traits exhibit phylogenetic signals, and, if so, how phylogenetic noises bias quantification of form-function relationships. A form-function system that is strongly influenced by physics, namely the relationship between eye morphology and visual optics in amniotes, was used. We quantified the correlation between form (i.e., eye morphology) and function (i.e., ocular optics) while varying the level of phylogenetic bias removal through adjusting Pagel's λ. Ocular soft-tissue dimensions exhibited the highest correlation with ocular optics when 1% of phylogenetic bias expected from Brownian motion was removed (i.e., λ= 0.01); the value for hard-tissue data were 8%. A small degree of phylogenetic bias therefore exists in morphology despite of the stringent functional constraints. We also devised a phylogenetically informed discriminant analysis and recorded the effects of phylogenetic bias on this method using the same data. Use of proper λ values during phylogenetic bias removal improved misidentification rates in resulting classifications when prior probabilities were assumed to be equal. Even a small degree of phylogenetic bias affected the classification resulting from phylogenetically informed discriminant analysis.

Citing Articles

Convergent Evolution and Predictability of Gene Copy Numbers Associated with Diets in Mammals.

Wilhoit K, Yamanouchi S, Chen B, Yamasaki Y, Ishikawa A, Inoue J Genome Biol Evol. 2025; 17(2).

PMID: 39849899 PMC: 11797053. DOI: 10.1093/gbe/evaf008.

Dinosaur palaeoneurology: an evolving science.

Balanoff A Biol Lett. 2024; 20(12):20240472.

PMID: 39689851 PMC: 11651910. DOI: 10.1098/rsbl.2024.0472.

Shell Constraints on Evolutionary Body Size-Limb Size Allometry Can Explain Morphological Conservatism in the Turtle Body Plan.

Hermanson G, Evers S Ecol Evol. 2024; 14(11):e70504.

PMID: 39539674 PMC: 11557996. DOI: 10.1002/ece3.70504.

Do morphometric data improve phylogenetic reconstruction? A systematic review and assessment.

Holvast E, Celik M, Phillips M, Wilson L BMC Ecol Evol. 2024; 24(1):127.

PMID: 39425066 PMC: 11487705. DOI: 10.1186/s12862-024-02313-3.

Three-dimensional geometric morphometric analyses of humerus ecomorphology: New perspectives for paleohabitat reconstruction in carnivorans and ungulates.

Serio C, Brown R, Clauss M, Meloro C Anat Rec (Hoboken). 2024; 308(3):946-974.

PMID: 39126145 PMC: 11791394. DOI: 10.1002/ar.25553.