This article develops a new evolutionary model for life histories by combining a new production-growth model with some general, yet specific, constraints on reproductive allocation, and by allowing natural selection to adjust the age of first breeding and the metabolic/productive capacity of cells. The optimal life histories correctly predict the numeric value of dimensionless numbers that combine maturation age (size), mortality, and reproductive allocation. The life-history prediction also yields a new lifetime growth model for body mass under indeterminate growth and predicts that the fastest growth rate will be near the size at first reproduction. Table 1 is a glossary of terms, whereas Appendix A is a brief overview of the op...
Age patterns of female reproduction vary widely among iteroparous animal species with determinate gr...
We reformulate the biphasic growth model of Quince et al. (2008a) and generalize it to allow for non...
Intrinsic mortality at relatively advanced age results from natural selection favouring early reprod...
This article develops a new evolutionary model for life histories by combining a new production-grow...
An organism's life history is closely interlinked with its allocation of energy between growth and r...
The recently formulated metabolic theory of ecology has profound implications for the evolution of l...
Classic methods of population genetics can be applied for traits not affecting generation length. Ho...
The tremendous variation in the life-history patterns of organisms is best explained as adaptive.any...
Optimization models have been widely and successfully used in evolutionary ecology to predict the at...
Trade-offs in energy allocation between growth, reproduction and survival are at the core of life-hi...
We compare the implications of determinate vs. indeterminate growth of a parthenogenetic iteroparous...
In many organisms survival depends on body size. We investigate the implications of size-selective m...
Understanding evolutionary coordination among different life‐history traits is a key challenge for e...
Several phenomenological descriptions, such as the von Bertalanffy growth model, have been widely us...
We explore the consequences of metabolic theory for life histories and life history evolution. We us...
Age patterns of female reproduction vary widely among iteroparous animal species with determinate gr...
We reformulate the biphasic growth model of Quince et al. (2008a) and generalize it to allow for non...
Intrinsic mortality at relatively advanced age results from natural selection favouring early reprod...
This article develops a new evolutionary model for life histories by combining a new production-grow...
An organism's life history is closely interlinked with its allocation of energy between growth and r...
The recently formulated metabolic theory of ecology has profound implications for the evolution of l...
Classic methods of population genetics can be applied for traits not affecting generation length. Ho...
The tremendous variation in the life-history patterns of organisms is best explained as adaptive.any...
Optimization models have been widely and successfully used in evolutionary ecology to predict the at...
Trade-offs in energy allocation between growth, reproduction and survival are at the core of life-hi...
We compare the implications of determinate vs. indeterminate growth of a parthenogenetic iteroparous...
In many organisms survival depends on body size. We investigate the implications of size-selective m...
Understanding evolutionary coordination among different life‐history traits is a key challenge for e...
Several phenomenological descriptions, such as the von Bertalanffy growth model, have been widely us...
We explore the consequences of metabolic theory for life histories and life history evolution. We us...
Age patterns of female reproduction vary widely among iteroparous animal species with determinate gr...
We reformulate the biphasic growth model of Quince et al. (2008a) and generalize it to allow for non...
Intrinsic mortality at relatively advanced age results from natural selection favouring early reprod...