Your search keyword '"Shawkey, Matthew D."' showing total 2 results

1. Key ornamental innovations facilitate diversification in an avian radiation.

Author

Maia R, Rubenstein DR, and Shawkey MD

Subjects

Africa, Animals, Biodiversity, Ecosystem, Evolution, Molecular, Female, Male, Mating Preference, Animal, Melanosomes genetics, Models, Genetic, Phylogeny, Pigmentation genetics, Starlings physiology, Starlings classification, Starlings genetics

Abstract

Patterns of biodiversity are often explained by ecological processes, where traits that promote novel ways of interacting with the environment (key innovations) play a fundamental role in promoting diversification. However, sexual selection and social competition can also promote diversification through rapid evolution of ornamental traits. Because selection can operate only on existing variation, the tendency of ornamental traits to constrain or enable the production of novel phenotypes is a crucial but often overlooked aspect of diversification. Starlings are a speciose group characterized by diverse iridescent colors produced by nanometer-scale arrays of melanin-containing organelles (melanosomes) that play a central role in sexual selection and social competition. We show that evolutionary lability of these colors is associated with both morphological and lineage diversification in African starlings. The solid rod-like melanosome morphology has evolved in a directional manner into three more optically complex forms that can produce a broader range of colors than the ancestral form, resulting in (i) faster color evolution, (ii) the occupation of novel, previously unreachable regions of colorspace, and ultimately (iii) accelerated lineage diversification. As in adaptive radiations, key innovations in ornament production can provide high phenotypic trait variability, leading to dramatic effects on the tempo and mode of diversification.

Published

2013

2. Iridescent colour production in hairs of blind golden moles (Chrysochloridae).

Author

Snyder HK, Maia R, D'Alba L, Shultz AJ, Rowe KM, Rowe KC, and Shawkey MD

Subjects

Africa, Animals, Biological Evolution, Color, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Species Specificity, Visual Perception, Hair physiology, Hair ultrastructure, Mammals anatomy & histology, Mammals physiology

Abstract

Relative to other metazoans, the mammalian integument is thought to be limited in colour. In particular, while iridescence is widespread among birds and arthropods, it has only rarely been reported in mammals. Here, we examine the colour, morphology and optical mechanisms in hairs from four species of golden mole (Mammalia: Chrysochloridae) that are characterized by sheens ranging from purple to green. Microspectrophotometry reveals that this colour is weak and variable. Iridescent hairs are flattened and have highly reduced cuticular scales, providing a broad and smooth surface for light reflection. These scales form multiple layers of light and dark materials of consistent thickness, strikingly similar to those in the elytra of iridescent beetles. Optical modelling suggests that the multi-layers produce colour through thin-film interference, and that the sensitivity of this mechanism to slight changes in layer thickness and number explains colour variability. While coloured integumentary structures are typically thought to evolve as sexual ornaments, the blindness of golden moles suggests that the colour may be an epiphenomenon resulting from evolution via other selective factors, including the ability to move and keep clean in dirt and sand.

Published

2012