Adaptation is conventionally regarded as occurring at the level of the individual organism. In contrast, the theory of the selfish gene proposes that it is more correct to view adaptation as occurring at the level of the gene. This view has received much popular attention, yet has enjoyed only limited uptake in the primary research literature. Indeed, the idea of ascribing goals and strategies to genes has been highly controversial. Here, we develop a formal theory of the selfish gene, using optimization theory to capture the analogy of 'gene as fitness-maximizing agent' in mathematical terms. We provide formal justification for this view of adaptation by deriving mathematical correspondences that translate the optimization formalism into d...
The first fully explicit argument is given that broadly supports a widespread belief among whole-org...
A useful interpretation of quantitative genetic models of evolutionary change is that they (i) defin...
This article shortly discusses why natural selection should be considered at the level of genes, ins...
Adaptation is conventionally regarded as occurring at the level of the individual organism. In contr...
Adaptation is conventionally regarded as occurring at the level of the individual organism. In contr...
Fields such as behavioural and evolutionary ecology are built on the assumption that natural selecti...
A fundamental task of evolutionary biology is to explain the pervasive impression of organismal desi...
Genes that increase organism fitness can come to prominence as a result of natural selection, leadin...
The concept of inclusive fitness plays a key role in much of sociobiology. Yet most theoretical stud...
Inclusive fitness theory captures how individuals can influence the transmission of their genes to f...
Evolutionary adaptation is a genetic process, but fortunately we can often understand it, to a first...
How to define and use the concept of inclusive fitness is a contentious topic in evolutionary theory...
Inclusive fitness theory captures how individuals can influence the transmission of their genes to f...
The origin of altruistic behavior, i.e. the behavior that is useful for a popula-tion or a species b...
Inclusive fitness theory captures how individuals can influence the transmission of their genes to f...
The first fully explicit argument is given that broadly supports a widespread belief among whole-org...
A useful interpretation of quantitative genetic models of evolutionary change is that they (i) defin...
This article shortly discusses why natural selection should be considered at the level of genes, ins...
Adaptation is conventionally regarded as occurring at the level of the individual organism. In contr...
Adaptation is conventionally regarded as occurring at the level of the individual organism. In contr...
Fields such as behavioural and evolutionary ecology are built on the assumption that natural selecti...
A fundamental task of evolutionary biology is to explain the pervasive impression of organismal desi...
Genes that increase organism fitness can come to prominence as a result of natural selection, leadin...
The concept of inclusive fitness plays a key role in much of sociobiology. Yet most theoretical stud...
Inclusive fitness theory captures how individuals can influence the transmission of their genes to f...
Evolutionary adaptation is a genetic process, but fortunately we can often understand it, to a first...
How to define and use the concept of inclusive fitness is a contentious topic in evolutionary theory...
Inclusive fitness theory captures how individuals can influence the transmission of their genes to f...
The origin of altruistic behavior, i.e. the behavior that is useful for a popula-tion or a species b...
Inclusive fitness theory captures how individuals can influence the transmission of their genes to f...
The first fully explicit argument is given that broadly supports a widespread belief among whole-org...
A useful interpretation of quantitative genetic models of evolutionary change is that they (i) defin...
This article shortly discusses why natural selection should be considered at the level of genes, ins...