Palaeogenetic evidence supports a dual model of Neolithic spreading into Europe

The peopling of Europe is a complex process. One of the most dramatic demographic events, the Neolithic agricultural revolution, took place in the Near East roughly 10000 years ago and then spread through the European continent. Nevertheless, the nature of this process (either cultural or demographic) is still a matter of debate among scientists. We have retrieved HVRI mitochondrial DNA sequences from 11 Neolithic remains from Granollers (Catalonia, northeast Spain) dated to 5500 years BP. We followed the proposed authenticity criteria, and we were also able, for the first time, to track down the pre-laboratory-derived contaminant sequences and consequently eliminate them from the generated cloning dataset. Phylogeographic analysis shows that the haplogroup composition of the Neolithic population is very similar to that found in modern populations from the Iberian Peninsula, suggesting a long-time genetic continuity, at least since Neolithic times. This result contrasts with that recently found in a Neolithic population from Central Europe and, therefore, raises new questions on the heterogeneity of the Neolithic dispersals into Europe. We propose here a dual model of Neolithic spread: acculturation in Central Europe and demic diffusion in southern Europe.     

Estimating the impact of prehistoric admixture on the genome of Europeans

We inferred past admixture processes in the European population from genetic diversity at eight loci, including autosomal, mitochondrial and Y-linked polymorphisms. Admixture coefficients were estimated from multilocus data, assuming that most current populations can be regarded as the result of a hybridization process among four or less potential parental populations. Two main components are apparent in the Europeans' genome, presumably corresponding to the contributions of the first, Paleolithic Europeans, and of the early, Neolithic farmers dispersing from the Near East. In addition, only a small fraction of the European alleles seems to come from North Africa, and a fourth component reflecting gene flow from Northern Asia is largely restricted to the northeast of the continent. The estimated Near Eastern contribution decreases as one moves from east to west, in agreement with the predictions of a model in which (Neolithic) immigrants from the Near East contributed a large share of the alleles in the genome of current Europeans. Several tests suggest that probable departures from the admixture models, due to factors such as choice of the putative parental populations and more complex demographic scenarios, may have affected our main estimates only to a limited extent.     

草鱼中国土著群体与欧美日移居群体遗传差异的线粒体序列分析

草鱼是中国的土著鱼类,自20世纪60年代以来已被移居到100多个国家和地区,主要用来控制水草或水产养殖。本研究通过线粒体D-Loop区（764bp)和COII＋tRNA基因(719bp)序列分析,了解草鱼的中国土著群体（长江、珠江、黑龙江）和国外移居群体（匈牙利多瑙河、美国密西西比河、日本利根川河）之间以及各地方群体间的遗传差异。结果表明,中国土著草鱼群体的遗传变异高于国外移居群体;分子方差分析（AMOVA）表明,不同草鱼群体的遗传变异主要来自群体内,而不同地域间的差异极少;群体两两间Fst值比较表明,大多数群体之间遗传差异极显著;由TCS构建的单倍型网络结构图显示,长江草鱼群体是最原始的群体,其他水系草鱼均由长江群体演化而来;通过基因流分析发现,匈牙利多瑙河群体和日本利根川河群体来自长江和黑龙江群体,美国密西西比河群体除引自长江、黑龙江水系外,还有部分引自于珠江水系。     

Has the transition to agriculture reshaped the demographic structure of prehistoric populations? New evidence from the Levant

This paper presents the demographic changes that followed the transition from a hunting-gathering way of life (Natufian) to an agricultural, food-producing economy (Neolithic) in the southern Levant. The study is based on 217 Natufian (10,500-8,300 BC) skeletons and 262 Neolithic (8,300-5,500 BC) skeletons. Age and sex identification were carried out, and life tables were constructed. A five-parameter competing hazard model developed by Siler ([1979] Ecology 60:750-757) was used to smooth life-table data. No indication of increased mortality with the advent of agriculture was noted. On the contrary, both life expectancy at birth (24.6 vs. 25.5 years) and adults' mean age at death (31.2 vs. 32.1 years) increased slightly from the Natufian to the Neolithic period (assuming stationary populations). Yet the transition to agriculture affected males and females differently: mean age at death in the Natufian was higher for adult females compared to adult males, while in the Neolithic, it was the reverse. One interpretation given to the distribution of female ages at death is that with the onset of the Neolithic period, maternal mortality increased as a result of a concomitant increase in fertility. If the adoption of agriculture in the Levant increased the rate of population growth at the beginning of the Neolithic, expectation of life may have increased dramatically.     

Bringing together linguistic and genetic evidence to test the Bantu expansion

The expansion of Bantu languages represents one of the most momentous events in the history of Africa. While it is well accepted that Bantu languages spread from their homeland (Cameroon/Nigeria) approximately 5000 years ago (ya), there is no consensus about the timing and geographical routes underlying this expansion. Two main models of Bantu expansion have been suggested: The 'early-split' model claims that the most recent ancestor of Eastern languages expanded north of the rainforest towards the Great Lakes region approximately 4000 ya, while the 'late-split' model proposes that Eastern languages diversified from Western languages south of the rainforest approximately 2000 ya. Furthermore, it is unclear whether the language dispersal was coupled with the movement of people, raising the question of language shift versus demic diffusion. We use a novel approach taking into account both the spatial and temporal predictions of the two models and formally test these predictions with linguistic and genetic data. Our results show evidence for a demic diffusion in the genetic data, which is confirmed by the correlations between genetic and linguistic distances. While there is little support for the early-split model, the late-split model shows a relatively good fit to the data. Our analyses demonstrate that subsequent contact among languages/populations strongly affected the signal of the initial migration via isolation by distance.     

Craniometric data support a mosaic model of demic and cultural Neolithic diffusion to outlying regions of Europe

The extent to which the transition to agriculture in Europe was the result of biological (demic) diffusion from the Near East or the adoption of farming practices by indigenous hunter-gatherers is subject to continuing debate. Thus far, archaeological study and the analysis of modern and ancient European DNA have yielded inconclusive results regarding these hypotheses. Here we test these ideas using an extensive craniometric dataset representing 30 hunter-gatherer and farming populations. Pairwise population craniometric distance was compared with temporally controlled geographical models representing evolutionary hypotheses of biological and cultural transmission. The results show that, following the physical dispersal of Near Eastern/Anatolian farmers into central Europe, two biological lineages were established with limited gene flow between them. Farming communities spread across Europe, while hunter-gatherer communities located in outlying geographical regions adopted some cultural elements from the farmers. Therefore, the transition to farming in Europe did not involve the complete replacement of indigenous hunter-gatherer populations despite significant gene flow from the Southwest Asia. This study suggests that a mosaic process of dispersal of farmers and their ideas was operating in outlying regions of Europe, thereby reconciling previously conflicting results obtained from genetic and archaeological studies.     

河鲈养殖与野生群体遗传多样性比较分析

正河鲈(Perca fluviatilis),又名五道黑,五彩斑鱼,于比利牛斯半岛以外的全欧洲,以及黑海、里海和咸海等水系广泛分布,是我国乌伦古河水系及额尔齐斯河的主要土著鱼类。为鲈形目(Perciformes)、鲈亚目(Percoidei)、鲈科(Percidae)、鲈属(Perca)的一种名贵肉食性冷温带淡水鱼~[1]。     

河南长葛石固早期新石器时代人骨的研究(续)

四、头骨形态观察我们把形态观察的结果列于表7中。     

Anthropological structure and culture adaptive strategies of the Neolithic Populations in Central Europe

The present work is the outcome of both biological anthropology and prehistoric research. The theses of cultural ecology became the basis for research on biological and cultural changes of human groups. More than 80 human bones series from the Neolithic cultures of Central Europe have been used here. The role of economic processes (ie: the additional role of cultural system) within the general picture of a given system has been stressed here. As far as anthropological analysis is concerned, the estimation of biological population state and dynamics and the morphological characteristics including the skull morphology, have been used in the present work. In order to observe the mutual interrelations 2 developmental systems for 2 cultural units, the Linear Pottery Culture and the Corded Ware Culture have been constructed. As we think there 2 systems present 2 different adaptational strategies in the Neolithic in Central Europe. The adaptational strategy is understood as socially generated concept of the creation of man-and-environment relation.