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Haplogroup Frequencies (haplogroup + frequency)
Selected AbstractsGenetic continuity after the collapse of the Wari empire: Mitochondrial DNA profiles from Wari and post-Wari populations in the ancient AndesAMERICAN JOURNAL OF PHYSICAL ANTHROPOLOGY, Issue 1 2009Brian M. Kemp Abstract The Wari empire flourished in the central, highland Peruvian Andes from AD 600,1000, and although the events that led to its demise are unknown, archaeological evidence indicates that Wari control waned at the end of the first millennium. Here, we test the hypothesis that, despite the major shift in social and political organization at the fall of the Wari empire, the mitochondrial DNA (mtDNA) composition of populations from the Ayacucho Basin, the former imperial heartland of the empire, remained essentially unchanged. Results show that mtDNA haplogroup frequencies among the Wari and post-Wari groups differ, but the difference is not statistically significant (,2 = 5.886, df = 3, P = 0.1172). This is the first study in the Andes to use haplotypic data to evaluate the observed genetic distance between two temporally distinct prehispanic populations (FST = 0.029) against modeled expectations of four possible evolutionary scenarios. None of these simulations allowed the rejection of continuity. In total, at both the haplogroup and haplotype levels these data do not allow us to reject the hypothesis that post-Wari individuals sampled in this study are the maternal descendants of those sampled from the Wari era site of Conchopata. However, genetic homogeneity in the mitochondrial gene pool, as seen in the late prehispanic southern Andes, may also characterize our study region. But, prior to this research, this was unknown. If our new data show mtDNA homogeneity, then this could limit the detection of female migration if, in fact, it occurred. Nonetheless, the novel mtDNA data presented here currently do not support the hypothesis that there was an influx of genetically distinct females into the former Wari heartland after the Wari collapse. Am J Phys Anthropol, 2009. © 2009 Wiley-Liss, Inc. [source] A Y-chromosomal comparison of the Madjars (Kazakhstan) and the Magyars (Hungary)AMERICAN JOURNAL OF PHYSICAL ANTHROPOLOGY, Issue 3 2009A.Z. Bíró Abstract The Madjars are a previously unstudied population from Kazakhstan who practice a form of local exogamy in which wives are brought in from neighboring tribes, but husbands are not, so the paternal lineages remain genetically isolated within the population. Their name bears a striking resemblance to the Magyars who have inhabited Hungary for over a millennium, but whose previous history is poorly understood. We have now carried out a genetic analysis of the population structure and relationships of the Madjars, and in particular have sought to test whether or not they show a genetic link with the Magyars. We concentrated on paternal lineages because of their isolation within the Madjars and sampled males representing all extant male lineages unrelated for more than eight generations (n = 45) in the Torgay area of Kazakhstan. The Madjars show evidence of extensive genetic drift, with 24/45 carrying the same 12-STR haplotype within haplogroup G. Genetic distances based on haplogroup frequencies were used to compare the Madjars with 37 other populations and showed that they were closest to the Hungarian population rather than their geographical neighbors. Although this finding could result from chance, it is striking and suggests that there could have been genetic contact between the ancestors of the Madjars and Magyars, and thus that modern Hungarians may trace their ancestry to Central Asia, instead of the Eastern Uralic region as previously thought. Am J Phys Anthropol 2009. © 2009 Wiley-Liss, Inc. [source] High proportion of protected minke whales sold on Japanese markets is due to illegal, unreported or unregulated exploitationANIMAL CONSERVATION, Issue 5 2009V. Lukoschek Abstract Whale meat products sold on Japanese markets originate from two stocks of North Pacific (NP) minke whales Balaenoptera acutorostrata scammoni: the depleted J-stock, which has been protected since 1986 but continues to be killed as fisheries ,bycatch', and the more abundant O-stock, which is hunted under special permit (scientific whaling). We investigated the geographic distribution and temporal changes in stock composition of NP minke whale products sold on Japanese markets between December 1997 and June 2004. From nearly 1200 ,whale meat' products purchased during this time, 250 were identified as NP minke whales by phylogenetic analysis of mitochondrial DNA (mtDNA) sequences. The 250 NP minke whale products were found to represent 201 unique ,market individuals' after exclusion of replicate products using microsatellite genotypes. Market individuals were further classified into four mtDNA haplogroups, three of which are characteristic of the J-stock (J-type) and one characteristic of the O-stock (O-type). There were moderate differences in the proportions of J-type individuals found in coastal prefectures, perhaps reflecting regional differences in the sale of local bycatch, but no significant difference across time. The absence of a change over time was inconsistent with the four- to fivefold increase in reported bycatch, from an average of 25,122 whales year,1, following a 2001 regulation allowing commercial sale of whales taken as bycatch. Using a mixed-stock analysis based on haplogroup frequencies over the entire survey period, we estimated that 46.1% (se, 4.2%) of all market individuals originated from the J-stock. This estimate of illegal, unreported or unregulated (IUU) exploitation is higher than expected from the officially reported bycatch, suggesting either large-scale under-reporting and/or unrecognized takes of J-stock minke whales from Pacific coastal waters by the scientific hunt. Our estimates of the true level of IUU exploitation have important implications for recovery of this depleted coastal stock. [source] Population Structure in Contemporary Sweden,A Y-Chromosomal and Mitochondrial DNA AnalysisANNALS OF HUMAN GENETICS, Issue 1 2009T. Lappalainen Summary A population sample representing the current Swedish population was analysed for maternally and paternally inherited markers with the aim of characterizing genetic variation and population structure. The sample set of 820 females and 883 males were extracted and amplified from Guthrie cards of all the children born in Sweden during one week in 2003. 14 Y-chromosomal and 34 mitochondrial DNA SNPs were genotyped. The haplogroup frequencies of the counties closest to Finland, Norway, Denmark and the Saami region in the north exhibited similarities to the neighbouring populations, resulting from the formation of the Swedish nation during the past millennium. Moreover, the recent immigration waves of the 20th century are visible in haplogroup frequencies, and have led to increased diversity and divergence of the major cities. Signs of genetic drift can be detected in several counties in northern as well as in southern Sweden. With the exception of the most drifted subpopulations, the population structure in Sweden appears mostly clinal. In conclusion, our study yielded valuable information of the structure of the Swedish population, and demonstrated the usefulness of biobanks as a source of population genetic research. Our sampling strategy, nonselective on the current population rather than stratified according to ancestry, is informative for capturing the contemporary variation in the increasingly panmictic populations of the world. [source] | ||||||||||