The effect of the maternal environment on intermale aggression was studied by means of embryo transfer of genetically selected aggressive (SAL) and nonaggressive wild house mice (LAL), and their reciprocal F1's, to standard (NMRI) females. No effect was found on the attack latency scores (ALS), i.e., aggression: all genotypes born and raised under natural conditions showed an ALS similar that of genotypes born and raised by NMRI females. Since previous studies on wild house mice failed to demonstrate postnatal effects on aggression, and the present results indicate the absence of prenatal maternal environmental effects on aggression, the primacy of genetic over maternal variance in the development of adult intermale aggression in wild house...
Social experience has been shown to mask or eliminate heritable effects on aggressive behavior in ma...
Distinct behavioural strategies for dealing with environmental and social challenge are known to exi...
House mouse lines bidirectionally selected for either nest-building behavior or attack latency were ...
The effect of the maternal environment on intermale aggression was studied by means of embryo transf...
The effect of the maternal environment on intermale aggression was studied by means of embryo transf...
Previous findings have shown a difference in attack latencies, i.e., aggression, between reciprocal ...
Previous findings have shown a difference in attack latencies, i.e., aggression, between reciprocal ...
This paper reviews our present state of knowledge of genetic variation in (offensive) aggression in ...
The studies described in the present thesis were performed to investigate the interaction between ge...
The purpose of this study was to investigate the effects of genetic and environmental factors, as we...
Maternal aggression was examined in wild female mice (Mus musculus domesticus) derived from animals ...
The presumed function of maternal aggression as a means to protect the young from infanticidal consp...
House mouse lines bidirectionally selected for either nest-building behavior or attack latency were ...
Nest defense behavior was examined in wild female house mice (Mus domesticus) that were derived from...
We assessed the effects of different situational or social determinants on the regulation of female-...
Social experience has been shown to mask or eliminate heritable effects on aggressive behavior in ma...
Distinct behavioural strategies for dealing with environmental and social challenge are known to exi...
House mouse lines bidirectionally selected for either nest-building behavior or attack latency were ...
The effect of the maternal environment on intermale aggression was studied by means of embryo transf...
The effect of the maternal environment on intermale aggression was studied by means of embryo transf...
Previous findings have shown a difference in attack latencies, i.e., aggression, between reciprocal ...
Previous findings have shown a difference in attack latencies, i.e., aggression, between reciprocal ...
This paper reviews our present state of knowledge of genetic variation in (offensive) aggression in ...
The studies described in the present thesis were performed to investigate the interaction between ge...
The purpose of this study was to investigate the effects of genetic and environmental factors, as we...
Maternal aggression was examined in wild female mice (Mus musculus domesticus) derived from animals ...
The presumed function of maternal aggression as a means to protect the young from infanticidal consp...
House mouse lines bidirectionally selected for either nest-building behavior or attack latency were ...
Nest defense behavior was examined in wild female house mice (Mus domesticus) that were derived from...
We assessed the effects of different situational or social determinants on the regulation of female-...
Social experience has been shown to mask or eliminate heritable effects on aggressive behavior in ma...
Distinct behavioural strategies for dealing with environmental and social challenge are known to exi...
House mouse lines bidirectionally selected for either nest-building behavior or attack latency were ...