The Whooping Crane (Grus americana) is an endangered bird that suffered a s
evere population bottleneck; only 14 adults survived in 1938. We assessed t
he genetic effect of this human-caused bottleneck by sequencing 314 base pa
irs (bp) of the mitochondrial DNA control region from cranes that lived bef
ore, during and after this bottleneck. The maximum length of DNA amplifiabl
e from museum specimens was negatively correlated with age, and only 10 of
153 specimens yielded the entire 314 bp sequence. Six haplotypes were prese
nt among the prebottleneck individuals sequenced, and only one of these per
sists in the modern population. The most common modern haplotype was in low
frequency in the prebottleneck population, which demonstrates the powerful
effect of genetic drift in changing allele frequencies in very small popul
ations. By combining all available data, we show that no more than one-thir
d of the prebottleneck haplotypes survived the human-caused population bott
leneck. High levels of variation of substitution rates among nucleotide sit
es prevented us from estimating the prebottleneck population size. Our data
will be incorporated into the captive breeding program to allow better man
agement decisions regarding the preservation of current genetic diversity.
These data offer the first glimpse into the genetic toll this species has p
aid for human activities.