Intrinsic factors influence physiological stress in a forest bird
community: Adults and females have higher H/L ratios than juveniles and
males
Abstract
Physiological stress parameters have the potential to serve as valuable
early warning indicators for the conservation of animal populations.
However, measuring stress in wildlife is often challenging, due to the
lack of knowledge about baseline levels, and intrinsic differences
between individuals across species. This study is aimed at filling this
gap by investigating the influence of intrinsic factors, including sex,
age, body condition, and reproductive status on the physiological stress
of a forest bird community. For measuring stress levels, we used the
heterophil to lymphocyte (H/L) ratio of the bird community which was
assessed using a novel deep learning approach based on Convolutional
Neural Networks applied to whole blood smear scans. Using
phylogenetically controlled analyses across the bird species, we found
higher H/L ratios in adult birds than in juveniles and observed higher
stress levels in females than in males. While body condition had no
effect on the H/L ratio, reproductive birds tended to have higher H/L
ratios than non-reproductive birds, regardless of their sex.
Furthermore, we found a robust phylogenetic signal of the H/L ratio in
the studied bird community. Our results emphasize the importance of
considering intrinsic factors when using stress physiology for assessing
the condition of bird populations and communities.