Abstract
We assayed restriction site differences in mitochondrial DNA (mtDNA) within and among allopatric populations of the Mallard (Anas platyrhynchos) and the American Black Duck (A. rubripes). The observed mtDNA clones grouped into two phylogenetically distinct arrays that we estimate differ by about 0.8% in nucleotide sequence. Genotypes in one clonal array were present in both species, while genotypes in the other array were seen only in Mallards. In terms of the mtDNA "gene tree," the assayed Mallards exhibit a paraphyletic relationship with respect to Black Ducks, meaning that genealogical separations among some extant haplotypes in the Mallard predate the species separation. Evidence is advanced that this pattern probably resulted from demographically based processes of lineage sorting, rather than recent, secondary introgressive hybridization. However, haplotype frequencies were most similar among conspecific populations, so the Mallard and Black Ducks cluster separately in terms of a population phenogram. The results provide a clear example of the distinction between a gene tree and a population tree, and of the distinction between data analyses that view individuals versus populations as operational taxonomic units (OTUs). Overall, the mtDNA data indicate an extremely close evolutionary relationship between Mallards and Black Ducks, and in conjunction with the geographic distributions suggest that the Black Duck is a recent evolutionary derivative of a more broadly distributed Mallard-Black ancestor.
Highlights
The Mallard (Anas platyrhynchos) has a widespread native breeding distribution in the Ho1arctic, including most of western and central North America
The most salient features of the mitochondrial DNA (mtDNA) data in Mallards and Black Ducks are (1) the presence of two genetically distinct arrays of haplotypes that do not coincide with the species designations of the individuals in which they are housed, and (2) the close similarities in haplotype frequency among conspecific populations
The first conclusion derives from analyses that view the haplotypes of individuals as OTUs, a treatment that is justified because mtDNA in vertebrates is maternally inherited, nonrecombining, and effectively haploid
Summary
The Mallard (Anas platyrhynchos) has a widespread native breeding distribution in the Ho1arctic, including most of western and central North America. Thelife history of these ducks is such that geographically separated breeding populations might exhibit a greater degree of divergence in maternally inherited mtDNA (Avise, 1986) than in biparentally transmitted nuclear genes. Pair formation in both Mallard and Black Ducks occurs during fall migration and on the wintering grounds (Bellrose, 1976), where considerable mixing of birds from different breeding areas can take place. Males could provide an effective evolutionary avenue for the exchange ofnuclear genes among breeding populations that is largely closed to mtDNA
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