Abstract
Prenatal maternal stress affects offspring phenotype in numerous species including humans, but it is debated whether these effects are evolutionarily adaptive. Relating stress to adverse conditions, current explanations invoke either short-term developmental constraints on offspring phenotype resulting in decelerated growth to avoid starvation, or long-term predictive adaptive responses (PARs) resulting in accelerated growth and reproduction in response to reduced life expectancies. Two PAR subtypes were proposed, acting either on predicted internal somatic states or predicted external environmental conditions, but because both affect phenotypes similarly, they are largely indistinguishable. Only external (not internal) PARs rely on high environmental stability particularly in long-lived species. We report on a crucial test case in a wild long-lived mammal, the Assamese macaque (Macaca assamensis), which evolved and lives in an unpredictable environment where external PARs are probably not advantageous. We quantified food availability, growth, motor skills, maternal caretaking style and maternal physiological stress from faecal glucocorticoid measures. Prenatal maternal stress was negatively correlated to prenatal food availability and led to accelerated offspring growth accompanied by decelerated motor skill acquisition and reduced immune function. These results support the ‘internal PAR’ theory, which stresses the role of stable adverse internal somatic states rather than stable external environments.
Highlights
The role of prenatal maternal stress in the concept of the developmental origins of health and disease receives a great deal of attention [1,2,3,4,5]
We investigated the effect of average PreGC during gestation on the proportion of days an individual was seen with signs of conjunctivitis during the outbreak applying a binomial logitlink generalized linear models (GLMs) controlling for prenatal food availability (n 1⁄4 12)
Our results provide the first evidence for strong effects of elevated prenatal maternal physiological stress (PreGC) on offspring development in a wild non-human primate living under natural conditions, adding fundamental data to the sparse literature on PreGC effects in wild animals
Summary
The role of prenatal maternal stress in the concept of the developmental origins of health and disease receives a great deal of attention [1,2,3,4,5]. To analyse the effect of prenatal food availability on PreGC, we ran a GLS with mother ID as grouping variable (n 1⁄4 296 faecal samples) that controlled for maternal rank, offspring sex, year of birth, day of gestation and day time of sampling. To analyse correlations between average PreGC during gestation and postnatal maternal caretaking style and physiological stress (PostGC), we ran a LM (n 1⁄4 17) with offspring sex and postnatal food availability (highly correlated to year of birth r 1⁄4 0.994) as control variables. We provide a GLS with infant ID as grouping variable (n 1⁄4 34) to investigate the effect of average PreGC during gestation on offspring body size at 16 – 18 months of age, controlling for age at measurement. Five individuals were born more than one week prior to the start of observations and excluded from this analysis
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