Abstract
Since the first molecular study providing evidence for mating outside the pair bond in birds over 30 years ago, >500 studies have reported rates of extra‐pair paternity (EPP) in >300 bird species. Here, we give a detailed overview of the current literature reporting EPP in birds and highlight the sampling biases and patterns in the data set with respect to taxonomy, avian phylogeny and global regions, knowledge of which will be crucial for correct interpretation of results in future comparative studies. Subsequently, we use this comprehensive dataset to simultaneously test the role of several ecological and life history variables. We do not find clear evidence that variation in EPP across socially monogamous species can be explained by latitude, density (coloniality), migration, generation length, genetic structuring (dispersal distance), or climatic variability, after accounting for phylogeny. These results contrast previous studies, most likely due to the large heterogeneity within species in both EPP and the predictor of interest, indicating that using species averages might be unreliable. Despite the absence of broadscale ecological drivers in explaining interspecific variation in EPP, we suggest that certain behaviours and ecological variables might facilitate or constrain EPP, as indicated by our finding that EPP was negatively associated with latitude within noncolonial species, suggesting a role of breeding synchrony. Thus, rather than focussing on general explanations for variation in EPP across all species, a future focus should be on how various aspects of ecology or life history might have driven variation in EPP among groups of species or populations of the same species. Hence, we argue that variation in EPP can be partly explained when taking the right perspective. This comprehensive overview, and particularly the dataset provided herein will create a foundation for further studies.
Highlights
The molecular study of parentage in birds is into its fourth de‐ cade, with hundreds of studies following on from the first applica‐ tion of DNA fingerprinting in 1987 that provided clear evidence of mating outside the pair bond in the house sparrow Passer domesticus (Burke & Bruford, 1987)
Understanding the genetic mating system is essential for developing a proper understanding of natural, and sexual selection in this taxonomic group, in which it has long been clear that genetic polyandry was more commonplace than believed prior to the appli‐ cation of molecular techniques (Griffith, Owens, & Thuman, 2002)
As a result of the errors that we identified in the Cornwallis et al (2010), Cornwallis et al (2017) data set, and the fact that their dataset is large, reasonably high profile, and a likely source for future comparative analyses, we believe that it would be valuable to present a comprehensive and error‐free set of data on extra‐pair paternity
Summary
The molecular study of parentage in birds is into its fourth de‐ cade, with hundreds of studies following on from the first applica‐ tion of DNA fingerprinting in 1987 that provided clear evidence of mating outside the pair bond (extra‐pair paternity, EPP) in the house sparrow Passer domesticus (Burke & Bruford, 1987). In our analyses of the new and larger dataset, we find that 39% of the interspecific variation in EPP of socially monogamous species can be attributed to the level of the family or order (propor‐ tion variance explained by family and order in a Generalized Linear Mixed Model (GLMM) with the number of extra‐pair offspring (EPO) vs no.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
