We present an expanded data set of 50 unlinked autosomal noncoding regions, resequenced in samples of Hausa from Cameroon, Italians, and Chinese. We use these data to make inferences about human demographic history by using a technique that combines multiple aspects of genetic data, including levels of polymorphism, the allele frequency spectrum, and linkage disequilibrium. We explore an extensive range of demographic parameters and demonstrate that our method of combining multiple aspects of the data results in a significant reduction of the compatible parameter space. In agreement with previous reports, we find that the Hausa data are compatible with demographic equilibrium as well as a set of recent population expansion models. In contrast to the Hausa, when multiple aspects of the data are considered jointly, the non-Africans depart from an equilibrium model of constant population size and are compatible with a range of simple bottleneck models, including a 50 -90% reduction in effective population size occurring some time after the appearance of modern humans in Africa 160,000 -120,000 years ago.bottlenecks ͉ combining P values ͉ human demographic inference ͉ population growth E lucidating how and when populations change in size is an important element in reconstructing evolutionary history because these changes often reflect crucial events in the history of a species, such as range expansions, environmental changes, and mixture between groups (1). In addition, making inferences based on population variation data typically requires the specification of a demographic model. Such applications include detecting the signature of natural selection or estimating recombination rates from patterns of linkage disequilibrium (LD) (2-5). Finally, better knowledge of demographic histories in human populations is particularly important for whole-genome, LD-based association studies (6, 7).Motivated by the excess of rare variants observed in mitochondrial DNA data, attention initially focused on models of ancient population growth and on the idea that population expansions may have accompanied the dispersal out of Africa or the emergence of new tool technology in the Upper Paleolithic (8-13). However, the accumulation of nuclear sequence variation surveys showed that this simple growth model was consistent with the observed frequency spectrum only for a subset of the loci (14-16). Likewise, LD surveys revealed marked differences in the rate of LD decay in African populations compared with that in non-African populations (17)(18)(19). These results together with the higher levels of sequence variation in African populations compared with that in non-African populations led to the proposal that population size reduction, such as bottlenecks, account for patterns of variation and LD in non-African populations (15,18,19). This bottleneck was hypothesized to correspond with the dispersal of modern humans out of Africa (18).However, the investigation of formal bottleneck models has typically used a single aspect of genetic var...
