Effects of inbreeding on skeletal development of Rattus villosissimus.

In a species of Australian native rat, Rattus villosissimus, which experiences extreme population fluctuations and possibly episodes of local inbreeding in the wild, generations of inbreeding in a laboratory colony led to altered skull shape and increased fluctuating asymmetry in some skeletal characters. Although inbreeding was closely associated with the number of generations in captivity, the effect of inbreeding after controlling statistically for the generation number was to decrease skull length and width. The effect of generations in captivity after controlling for inbreeding was to increase skull length and width. The joint effect of these confounded determinants was to produce rats with increasingly broad and short skulls through generations of inbreeding. Developmental anomalies of the incisors and feet appeared in the population. The average effects of inbreeding on fluctuating asymmetry were not strong, as most inbred and noninbred rats were not detectably asymmetric. Asymmetry appeared to be a threshold phenomenon, as significantly asymmetric animals were more prevalent among the more highly inbred rats of later generations. We detected no trend for a lessening impact of inbreeding after many generations, as would have been expected if selection had been purging the population of its genetic load. Individual heterozygosity across five polymorphic allozyme loci was correlated with size and asymmetry metrics, but only in so far as could be accounted for by the correlation of sample heterozygosity with the level of inbreeding and the effect of inbreeding on size and asymmetry.

Coat color genetics of Peromyscus: III. Golden-nugget--a recessive trait in the white-footed mouse, P. leucopus.

A novel pelage color variant appeared in a laboratory colony of white-footed mice (Peromyscus leucopus) from Massachusetts. The mature adult coat color of this variant exhibits a rich golden tan appearance on the dorsum with white underparts. The trait is inherited as an autosomal recessive. Phenotypic comparisons with other rodents suggest that the trait is attributable to an allele at the brown (b) locus. Under laboratory conditions homozygous or heterozygous golden-nugget Peromyscus do not differ significantly from the wild type in litter size, litter survival, nest defense, or body weight. The possibility that the allele confers some adaptive value in nature is considered. The trait is given the tentative designation bgn (golden-nugget).