Sex-biased dispersal is expected to generate differences in the fine-scale genetic structure of males and females. Therefore, spatial analyses of multilocus genotypes may offer a powerful approach for detecting sex-biased dispersal in natural populations. However, the effects of sex-biased dispersal on fine-scale genetic structure have not been explored. We used simulations and multilocus spatial autocorrelation analysis to investigate how sex-biased dispersal influences fine-scale genetic structure. We evaluated three statistical tests for detecting sex-biased dispersal: bootstrap confidence intervals about autocorrelation r values and recently developed heterogeneity tests at the distance class and whole correlogram levels. Even modest se...
Sex-biased dispersal is pervasive and has diverse evolutionary implications, but the fundamental dri...
A recent study suggests that sex-specific dispersal rates can be quantitatively estimated on the bas...
Sex-biased dispersal is an almost ubiquitous feature of mammalian life history, but the evolutionary...
Natal sex-biased dispersal has long been thought to reduce the risk of inbreeding by spatially separ...
Natal sex-biased dispersal has long been thought to reduce the risk of inbreeding by spatially separ...
Understanding why dispersal is sex-biased in many taxa is still a major concern in evolu-tionary eco...
Understanding why dispersal is sex-biased in many taxa is still a major concern in evolutionary ecol...
Sex-biased dispersal is a much-discussed feature in literature on dispersal. Diverse hypotheses have...
Dispersal affects both social behavior and population structure and is therefore a key determinant o...
For decades, studies have focused on how dispersal and mating systems influence genetic structure ac...
Dispersal affects both social behavior and population structure and is therefore a key determinant o...
Patterns of sex-biased dispersal are typically consistent within taxa, e.g., female-biased in birds ...
Dispersal affects both social behavior and population structure and is therefore a key determinant o...
Sex-biased dispersal is pervasive and has diverse evolutionary implications, but the fundamental dri...
A recent study suggests that sex-specific dispersal rates can be quantitatively estimated on the bas...
Sex-biased dispersal is an almost ubiquitous feature of mammalian life history, but the evolutionary...
Natal sex-biased dispersal has long been thought to reduce the risk of inbreeding by spatially separ...
Natal sex-biased dispersal has long been thought to reduce the risk of inbreeding by spatially separ...
Understanding why dispersal is sex-biased in many taxa is still a major concern in evolu-tionary eco...
Understanding why dispersal is sex-biased in many taxa is still a major concern in evolutionary ecol...
Sex-biased dispersal is a much-discussed feature in literature on dispersal. Diverse hypotheses have...
Dispersal affects both social behavior and population structure and is therefore a key determinant o...
For decades, studies have focused on how dispersal and mating systems influence genetic structure ac...
Dispersal affects both social behavior and population structure and is therefore a key determinant o...
Patterns of sex-biased dispersal are typically consistent within taxa, e.g., female-biased in birds ...
Dispersal affects both social behavior and population structure and is therefore a key determinant o...
Sex-biased dispersal is pervasive and has diverse evolutionary implications, but the fundamental dri...
A recent study suggests that sex-specific dispersal rates can be quantitatively estimated on the bas...
Sex-biased dispersal is an almost ubiquitous feature of mammalian life history, but the evolutionary...