Abstract
The early developmental trajectory is affected by genetic and environmental factors that co‐depend and interact often in a complex way. In order to distinguish their respective roles, we used canaries (Serinus canaria) of different genetic backgrounds (inbred and outbred birds). An artificial size hierarchy was created to provoke within‐nest competition, manipulating postnatal conditions. To this end, inbred birds were weight‐matched with outbred birds into duos, and each nest contained one duo of size‐advantaged, and one duo of size‐disadvantaged inbred and outbred nestlings. Prenatal (maternal) effects were taken into account also, enabling us to study the separate as well as the interactive effects of inbreeding, pre‐ and postnatal conditions on nestling development. We find that postnatal conditions were the most important determinant of early growth, with size‐advantaged nestlings growing faster and obtaining larger size/body mass at fledging in comparison with size‐disadvantaged nestlings. Prenatal conditions were important too, with birds that hatched from eggs that were laid late in the laying order obtaining a larger size at fledging than those hatched from early laid eggs. Inbreeding inhibited growth, but surprisingly this did not depend on (dis)advantageous pre‐ or postnatal conditions. Our findings imply that inbred individuals lose when they are in direct competition with same‐sized outbred individuals regardless of the rearing conditions, and we thus propose that reduced competitiveness is one of the driving forces of inbreeding depression.
Highlights
The early developmental trajectory is an important determinant of key life history traits such as reproduction, aging, and life span (Gilbert, 2005; Metcalfe & Monaghan, 2001; Monaghan, 2008; Mousseau & Fox, 1998)
The foremost source of variation in early development is the genotype, which sets the developmental limits for the individual (Metcalfe & Monaghan, 2001) and determines how an individual responds to environmental conditions (Gilbert, 2005)
The environmental conditions experienced during early life constitute the second important source of variation in early development and can refer to pre- or postnatal conditions according to the period during which they act (Monaghan, 2008)
Summary
The early developmental trajectory is an important determinant of key life history traits such as reproduction, aging, and life span (Gilbert, 2005; Metcalfe & Monaghan, 2001; Monaghan, 2008; Mousseau & Fox, 1998). The testosterone content of the yolk increases with the laying order of the egg, which can stimulate faster growth and in this way prepare late-hatched nestlings for their size-disadvantaged position in the sibling hierarchy (Eising & Eikenaar, 2001; Groothuis et al, 2005; Müller, Boonen, Groothuis, & Eens, 2010; Muller & Groothuis, 2013; Schwabl, 1993, 1996) Such maternal aggravation or alleviation of sibling competition via maternal effects exemplifies that pre- and postnatal environmental conditions are co-d ependent. We expect that heavy competition enhances inbreeding depression and that early growth should be most inhibited in inbred nestlings that were reared in a junior position
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