Your search keyword '"Cruickshank, T"' showing total 2 results

1. Maternal adjustment of the sex ratio in broods of the broad-horned flour beetle, Gnathocerus cornutus.

Author

Cruickshank T and Wade MJ

Subjects

Age Factors, Animals, Biological Evolution, Coleoptera chemistry, Culture Media chemistry, Female, Fertility, Genetic Fitness, Male, Models, Biological, Oviposition, Selection, Genetic, Sex Factors, Species Specificity, Adaptation, Physiological, Coleoptera physiology, Sex Ratio

Abstract

We report that females of the broad-horned flour beetle, Gnathocerus cornutus, can plastically adjust the sex ratio in their broods in response to environmental quality. Specifically, females reared in nutritionally poor environments produce broods that are 65% female, on average, with the degree of female-bias in some broods approaching 95%. In addition, females reared in nutritionally poor environments lay significantly more eggs than do females reared on standard medium, which produce broods with an even sex ratio. These effects of the mother's environment on size and sex ratio in broods are manifest even when oviposition occurs in the standard nutritional environment; indeed, the degree of female-bias increases with advancing female age despite the availability of nutritional resources to females at the time of egg laying. Our studies rule out sex-specific differences in viability early in larval development as the mechanism for the bias in sex-ratio of broods, since females reared in nutritionally poor environments have broods with hatchability and larval viability comparable to those of nonstressed females. Our studies also rule out an effect of the sire on the sex ratio in broods, since all male mates were reared on standard medium. We discuss our results in the context of theories for the evolution of plastic sex-ratios in the face of environmental deterioration and discuss how plasticity can resolve a long-standing question about the conditions underlying the evolution of biased sex ratios.

Published

2012

2. Phenotypic plasticity's impacts on diversification and speciation.

Author

Pfennig DW, Wund MA, Snell-Rood EC, Cruickshank T, Schlichting CD, and Moczek AP

Subjects

Animals, Adaptation, Physiological genetics, Biodiversity, Genetic Speciation, Phenotype

Abstract

Phenotypic plasticity (the ability of a single genotype to produce multiple phenotypes in response to variation in the environment) is commonplace. Yet its evolutionary significance remains controversial, especially in regard to whether and how it impacts diversification and speciation. Here, we review recent theory on how plasticity promotes: (i) the origin of novel phenotypes, (ii) divergence among populations and species, (iii) the formation of new species and (iv) adaptive radiation. We also discuss the latest empirical support for each of these evolutionary pathways to diversification and identify potentially profitable areas for future research. Generally, phenotypic plasticity can play a largely underappreciated role in driving diversification and speciation., (Copyright (c) 2010 Elsevier Ltd. All rights reserved.)

Published

2010