Inbreeding is expected to increase the variability in size and shape within populations. The distinct effects of inbreeding on size and shape suggest that they are governed by different developmental pathways. One unresolved question is whether the non-allometric shape component is partially unconstrained developmentally and therefore whether shape is evolvable. In the present study, we utilized a mass outbred population of Drosophila melanogaster maintained at standard laboratory conditions. Eight lines with equivalent expected levels of inbreeding (F approximate to 0.67) were obtained by restricting the size of each population to two pairs for nine generations. Nine landmarks were measured on Drosophila wings of the inbreed lines and comp...
Background. The aim of the study is evaluate the long-term morphogenetic consequences of the housefl...
Theoretical explanations of empirically observed standing genetic variation, mutation, and selection...
Additive genetic variance, VA, is the key parameter for predicting adaptive and neutral phenotypic e...
Inbreeding is expected to increase the variability in size and shape within populations. The distinc...
The nature of developmental buffering processes has been debated extensively, based on both theoreti...
Under a common laboratory environment, three isofemale lines of Aedes (Stegomyia) aegypti were used ...
Quantitative genetic variation in morphology is pervasive in all species and is the basis for the ev...
Precise exponential scaling with size is a fundamental aspect of phenotypic variation. These allomet...
We have studied the morphology of wings of Drosophila mediopunctata employing the ellipse method, a ...
We estimated mutational variance-covariance matrices, M, for wing shape and size in two genotypes of...
Fluctuating asymmetry (FA), defined as random deviation from perfect symmetry, has been used to assa...
Precise exponential scaling with size is a fundamental aspect of phenotypic variation. These allomet...
Organ shape evolves through cross-generational changes in developmental patterns at cellular and/or ...
Artificial selection offers a powerful tool for the exploration of how selection and development sha...
The impact of intraspecific hybridisation on fitness and morphological traits depends on the history...
Background. The aim of the study is evaluate the long-term morphogenetic consequences of the housefl...
Theoretical explanations of empirically observed standing genetic variation, mutation, and selection...
Additive genetic variance, VA, is the key parameter for predicting adaptive and neutral phenotypic e...
Inbreeding is expected to increase the variability in size and shape within populations. The distinc...
The nature of developmental buffering processes has been debated extensively, based on both theoreti...
Under a common laboratory environment, three isofemale lines of Aedes (Stegomyia) aegypti were used ...
Quantitative genetic variation in morphology is pervasive in all species and is the basis for the ev...
Precise exponential scaling with size is a fundamental aspect of phenotypic variation. These allomet...
We have studied the morphology of wings of Drosophila mediopunctata employing the ellipse method, a ...
We estimated mutational variance-covariance matrices, M, for wing shape and size in two genotypes of...
Fluctuating asymmetry (FA), defined as random deviation from perfect symmetry, has been used to assa...
Precise exponential scaling with size is a fundamental aspect of phenotypic variation. These allomet...
Organ shape evolves through cross-generational changes in developmental patterns at cellular and/or ...
Artificial selection offers a powerful tool for the exploration of how selection and development sha...
The impact of intraspecific hybridisation on fitness and morphological traits depends on the history...
Background. The aim of the study is evaluate the long-term morphogenetic consequences of the housefl...
Theoretical explanations of empirically observed standing genetic variation, mutation, and selection...
Additive genetic variance, VA, is the key parameter for predicting adaptive and neutral phenotypic e...