Abstract
Genetically selected aggressive and nonaggressive male wild house mice were tested in the shock-probe/defensive burying test. Five distinct behaviors (burying, immobility, rearing, grooming, and exploration) were recorded in two environmental situations: fresh and home cage sawdust. Nonaggressive animals, characterized by a Long Attack Latency (LAL), showed more immobility in both test situations than animals having Short Attack Latencies (SAL), whereas SAL males displayed more defensive burying than LAL ones when tested with fresh sawdust. Testing;with home cage sawdust, however, resulted in the same duration of defensive burying in SAL and LAL. These results support earlier findings about the existence of two heritable, fundamentally different strategies to cope with aversive situations. Aggressive (SAL) animals react actively to environmental challenges, whereas nonaggressive animals react actively or passively, depending on the characteristics of the stressful environment. These mouse lines, selected for attack latency, i.e., aggression, may, therefore, be important tools to unravel the genetic architecture underlying the physiological and neuronal mechanisms of behavioral strategies towards stressful events.
Original language | English |
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Pages (from-to) | 113-116 |
Number of pages | 4 |
Journal | Pharmacology, Biochemistry and Behavior |
Volume | 54 |
Issue number | 1 |
Publication status | Published - May 1996 |
Keywords
- aggression
- defensive burying
- wild house mice
- behavioral strategies
- stress
- RATS
- ATTACK
- IPSAPIRONE
- AVOIDANCE
- PARADIGM