Domesticated species differ from their wild ancestors in a number of traits, generally referred to as the domesticated phenotype. Reduced fear of humans is assumed to have been an early prerequisite for the successful domestication of virtually all species. We hypothesized that fear of humans is linked to other domestication related traits. For three generations, we selected Red Junglefowl (ancestors of domestic chickens) solely on the reaction in a standardized Fear of Human-test. In this, the birds were exposed for a gradually approaching human, and their behaviour was continuously scored. This generated three groups of animals, high (H), low (L) and intermediate (I) fearful birds. The birds in each generation were additionally tested in a battery of behaviour tests, measuring aspects of fearfulness, exploration, and sociality. The results demonstrate that the variation in fear response of Red Junglefowl towards humans has a significant genetic component and is genetically correlated to behavioural responses in other contexts, of which some are associated with fearfulness and others with exploration. Hence, selection of Red Junglefowl on low fear for humans can be expected to lead to a correlated change of other behavioural traits over generations. It is therefore likely that domestication may have caused an initial suite of behavioural modifications, even without selection on anything besides tameness.
The biology of fear is central to animal welfare and has been a major target for selection during domestication. Fear responses were studied in female red junglefowl (RJF), the ancestor of domesticated chickens. A total of 31 females were tested in a ground predator test, an aerial predator test and a tonic immobility (TI) test, in order to assess their level of fearfulness across different situations. Two to six variables from each test were entered into a principal component (PC) analysis, which showed one major fearfulness component (explaining 27% of the variance). Based on the PC scores, four high-and four low-fearful birds were then selected for gene expression analysis. From each of these birds, the midbrain region (including thalamus, hypothalamus, pituitary, mesencephalon, pons, nucleus tractus solitarii and medulla oblongata), was collected and global gene expression compared between groups using a 14k chicken cDNA microarray. There were 13 significantly differentially expressed (DE) genes (based on M > 1 and B > 0; FDR-adjusted P < 0.05) between the fearful and non-fearful females. Among the DE genes, we identified the neuroprotein Axin1, two potential DNA/RNA regulating proteins and a retrotransposon transcript situated in a well-studied quantitative trait loci (QTL) region on chromosome 1, known to affect several domestication-related traits. The differentially expressed genes may be part of a possible molecular mechanism controlling fear responses in fowl.
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