Abstract
Resolving evolutionary relationships and establishing population structure depends on molecular diagnosability that is often limited for closely related taxa. Here, we use 3,200 ddRAD‐seq loci across 290 mallards, American black ducks, and putative hybrids to establish population structure and estimate hybridization rates. We test between traditional assignment probability and accumulated recombination events based analyses to assign hybrids to generational classes. For hybrid identification, we report the distribution of recombination events complements ADMIXTURE simulation by extending resolution past F4 hybrid status; however, caution against hybrid assignment based on accumulated recombination events due to an inability to resolve F1 hybrids. Nevertheless, both analyses suggest that there are relatively few backcrossed stages before a lineage's hybrid ancestry is lost and the offspring are effectively parental again. We conclude that despite high rates of observed interspecific hybridization between mallards and black ducks in the middle part of the 20th century, our results do not support the predicted hybrid swarm. Conversely, we report that mallard samples genetically assigned to western and non‐western clusters. We indicate that these non‐western mallards likely originated from game‐farm stock, suggesting landscape level gene flow between domestic and wild conspecifics.
Highlights
Establishing population structure, resolving evolutionary relation‐ ships, and prioritizing conservation efforts depend on molecular diagnosability of individuals to their respective taxon
Resolving evolutionary relationships and establishing population structure depends on molecular diagnosability that is often limited for closely related taxa
We report the distribution of recombination events complements ADMIXTURE simula‐ tion by extending resolution past F4 hybrid status; caution against hybrid assignment based on accumulated recombination events due to an inability to resolve F1 hybrids
Summary
Establishing population structure, resolving evolutionary relation‐ ships, and prioritizing conservation efforts depend on molecular diagnosability of individuals to their respective taxon. Conversion of boreal forests into open habitat due to changing agricultural practices led to the expansion of western mallard populations and dramatic increases in mallard abundance (~600%) east of the Mississippi River begin‐ ning in the 1950s (e.g., southern Ontario; Hanson, Rogers, & Rogers, 1949) Given this history, we predict that the North American mal‐ lard is likely the product of both recent natural invaders and do‐ mestic ducks (Osborne, Swift, & Baldassarre, 2010; USFWS, 2013), resulting in the presence of multiple genetic mallard groups in North American samples. Without genetically vetting a phenotypic trait, individuals may be incorrectly assigned to spe‐ cies, including the misidentification of a hybrid Such a bias has the potential to impact downstream analyses and estimates of various summary statistics, rates of gene flow, evolutionary histories, etc., and perhaps resulting in skewed conclusions
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
