Life-history traits controlling the duration and timing of developmental phases in the life cycle jointly determine fitness. Therefore, life-history traits studied in isolation provide an incomplete view on the relevance of life-cycle variation for adaptation. In this study, we examine genetic variation in traits covering the major life history events of the annual species Arabidopsis thaliana: seed dormancy, vegetative growth rate and flowering time. In a sample of 112 genotypes collected throughout the European range of the species, both seed dormancy and flowering time follow a latitudinal gradient independent of the major population structure gradient. This finding confirms previous studies reporting the adaptive evolution of these two ...
Background and Aims Seed dormancy determines the environmental niche of plants in seasonal environme...
<div><p>The role that different life-history traits may have in the process of adaptation caused by ...
Natural variation of life history strategies is modulated by both natural selection and physiologica...
Life-history traits controlling the duration and timing of developmental phases in the life cycle jo...
Life-history traits controlling the duration and timing of developmental phases in the life cycle jo...
<div><p>Life-history traits controlling the duration and timing of developmental phases in the life ...
Life-history traits controlling the duration and timing of developmental phases in the life cycle jo...
<p>The temporal control or timing of the life cycle of annual plants is presumed to provide adaptive...
Early life history transitions are crucial determining lifetime survival and fecundity. Adaptive evo...
The timing of germination is a key life-history trait in plants, which is strongly affected by the s...
Organisms are often adapted to their local environment, but the role of early life stages in adaptiv...
To understand how adaptive evolution in life-cycle phenology operates in plants, we need to unravel ...
Understanding the genetics of lifetime fitness is crucial to understand a species' ecological prefer...
Understanding the genetics of lifetime fitness is crucial to understand a species' ecological prefer...
Background and Aims Seed dormancy determines the environmental niche of plants in seasonal environme...
<div><p>The role that different life-history traits may have in the process of adaptation caused by ...
Natural variation of life history strategies is modulated by both natural selection and physiologica...
Life-history traits controlling the duration and timing of developmental phases in the life cycle jo...
Life-history traits controlling the duration and timing of developmental phases in the life cycle jo...
<div><p>Life-history traits controlling the duration and timing of developmental phases in the life ...
Life-history traits controlling the duration and timing of developmental phases in the life cycle jo...
<p>The temporal control or timing of the life cycle of annual plants is presumed to provide adaptive...
Early life history transitions are crucial determining lifetime survival and fecundity. Adaptive evo...
The timing of germination is a key life-history trait in plants, which is strongly affected by the s...
Organisms are often adapted to their local environment, but the role of early life stages in adaptiv...
To understand how adaptive evolution in life-cycle phenology operates in plants, we need to unravel ...
Understanding the genetics of lifetime fitness is crucial to understand a species' ecological prefer...
Understanding the genetics of lifetime fitness is crucial to understand a species' ecological prefer...
Background and Aims Seed dormancy determines the environmental niche of plants in seasonal environme...
<div><p>The role that different life-history traits may have in the process of adaptation caused by ...
Natural variation of life history strategies is modulated by both natural selection and physiologica...