In the present study, the author has completed an analysis of the DNA sequence of the human bones unearthed from ancient tombs in the vicinity of Linzi City, in the central part of Shandong Province,making clear the d...In the present study, the author has completed an analysis of the DNA sequence of the human bones unearthed from ancient tombs in the vicinity of Linzi City, in the central part of Shandong Province,making clear the distribution and genetic types of human populations on the Shandong Peninsula during different historical periods and their affinity with modern man. The author also introduces an on-going project to examine the bones of Shang Dynasty (1600-1046 BC) people excavated from Yinxu, located in today′s Anyang City, in northern Henan Province, which will reconstruct the population structure,migration patterns and cultural features of the dynasty.展开更多
Traditional zooarchaeological and archaeobotanical methods based on morphological identification of the excavated faunal and floral remains have been broadly used in reconstructing ancient subsistence economies. Howev...Traditional zooarchaeological and archaeobotanical methods based on morphological identification of the excavated faunal and floral remains have been broadly used in reconstructing ancient subsistence economies. However, the accuracy and reliability of these methods rely heavily on the preservation state of the remains. By sequencing the ancient DNA of plants,animals, and microorganisms preserved in sediment, sedimentary ancient DNA(sedaDNA) now offers a novel approach for reconstructing the taxa composition dated back to hundreds of thousands of years. Yet, its application in open-air archaeological sites is rarely reported. In this study, we attempted to apply sedaDNA shotgun metagenomics on the archaeological deposits of the Khog Gzung site(an open-air site dated to 3160–2954 cal yr BP) on the Tibetan Plateau, and then compared the reconstructed taxonomic composition to the unearthed remains. Results showed that most of the crops and domestic animals identified by the two approaches, such as barley(Hordeum vulgare) and sheep(Ovis aries), are in general consistent. Some species, such as foxtail millet(Setaria italica), however, were only detected by sedaDNA. In addition, a variety of microorganisms were also detected by the sedaDNA. The two approaches combined revealed diversified food resources at the Khog Gzung site, which included crops such as millet, barley and wheat, domestic animals such as sheep and cattle, and likely also wild animals from fishing and hunting. Our data proves that sedaDNA has a great potential in reconstructing the faunal and floral compositions from archaeological deposits, therefore laying the foundation for its border applications.展开更多
MtDNA was successfully extracted from ten individual bones (femurs) in the tombs of ancient Jushi in Turfan basin, dated back to the year about 3 000-2 500 years ago. By means of four overlapping primers, we got nucl...MtDNA was successfully extracted from ten individual bones (femurs) in the tombs of ancient Jushi in Turfan basin, dated back to the year about 3 000-2 500 years ago. By means of four overlapping primers, we got nucleotide sequence of the 218bp length. Ancient mtDNA was analyzed by the sequencing of hypervariable region Ⅰ of the mtDNA control region. The result shows that 9 haplotypes with 24 polymorphic sites were obtained. The phylogenetic analysis indicated that Mongolians and Altai are the population genetically closest to the Jushi groups and Jushi mtDNA pool being an admixture of eastern Asian and European lineages. So our preliminary data imply that an ancient mingling of Euro-Asian population had existed in Turfan basin prior to the early Iron Age.展开更多
Rice (Oryza sativa) was first domesticated in the lower and middle Yangtze regions of China, and rice remains have been found in many Chinese archaeological sites. Until now, only phenotypic archeobotanical evidence, ...Rice (Oryza sativa) was first domesticated in the lower and middle Yangtze regions of China, and rice remains have been found in many Chinese archaeological sites. Until now, only phenotypic archeobotanical evidence, such as the spikelet bases of ancient grains, has been used to speculate on the domestication process and domestication rate of rice. In this study, we sequenced 4 genomic segments from rice remains in Tianluoshan, a site of the local Hemudu Neolithic culture in the low Yangtze and two other archaeological sites (~2400 and 1200 BC, respectively). We compared our sequences with those of the current domesticated and wild rice (O. rufipogon) populations. At least two genotypes were found in the remains from each site, suggesting a heterozygotic state of the rice seeds. One ancient genotype was not found in the current domesticated population and might have been lost. The rice remains belonged to the japonica group, and most if not all were japonica-type, suggesting that the remains might be at an early stage of indica-japonica divergence or an indica-japonica mixture. We also identified sequences with significant similarity to those from species of Sapindales, Zygophyllales, and Brassicales, which is consistent with the identification of other plant remains in the Tianluoshan site and the common rice field weeds such as mustards in southern China.展开更多
As the polymerase chain reaction (PCR) technique has been invented since the late1980s, search for the genetic information preserved in organism remains and fossils hascome to be a new highlight in paleontology. Trace...As the polymerase chain reaction (PCR) technique has been invented since the late1980s, search for the genetic information preserved in organism remains and fossils hascome to be a new highlight in paleontology. Trace amounts of ancient DNA have been ex-tracted from plant and animals fossils, mummies and the insects entombed in amber mil-展开更多
文摘In the present study, the author has completed an analysis of the DNA sequence of the human bones unearthed from ancient tombs in the vicinity of Linzi City, in the central part of Shandong Province,making clear the distribution and genetic types of human populations on the Shandong Peninsula during different historical periods and their affinity with modern man. The author also introduces an on-going project to examine the bones of Shang Dynasty (1600-1046 BC) people excavated from Yinxu, located in today′s Anyang City, in northern Henan Province, which will reconstruct the population structure,migration patterns and cultural features of the dynasty.
基金supported by the National Natural Science Foundation of China(Grant Nos.41930323,41988101&42101150)the Second Tibetan Plateau Scientific Expedition and Research Program(Grant No.2019QZKK0601)+3 种基金the Strategic Priority Research Program of Chinese Academy of Sciences(Grant No.XDA2004010103)the Youth Innovation Promotion Association of the Chinese Academy of Sciences(Grant No.2022068)the Open Research Fund of TPESER(Grant No.TPESER202202)Carlsberg Foundation(Grant No.CF18-0024)。
文摘Traditional zooarchaeological and archaeobotanical methods based on morphological identification of the excavated faunal and floral remains have been broadly used in reconstructing ancient subsistence economies. However, the accuracy and reliability of these methods rely heavily on the preservation state of the remains. By sequencing the ancient DNA of plants,animals, and microorganisms preserved in sediment, sedimentary ancient DNA(sedaDNA) now offers a novel approach for reconstructing the taxa composition dated back to hundreds of thousands of years. Yet, its application in open-air archaeological sites is rarely reported. In this study, we attempted to apply sedaDNA shotgun metagenomics on the archaeological deposits of the Khog Gzung site(an open-air site dated to 3160–2954 cal yr BP) on the Tibetan Plateau, and then compared the reconstructed taxonomic composition to the unearthed remains. Results showed that most of the crops and domestic animals identified by the two approaches, such as barley(Hordeum vulgare) and sheep(Ovis aries), are in general consistent. Some species, such as foxtail millet(Setaria italica), however, were only detected by sedaDNA. In addition, a variety of microorganisms were also detected by the sedaDNA. The two approaches combined revealed diversified food resources at the Khog Gzung site, which included crops such as millet, barley and wheat, domestic animals such as sheep and cattle, and likely also wild animals from fishing and hunting. Our data proves that sedaDNA has a great potential in reconstructing the faunal and floral compositions from archaeological deposits, therefore laying the foundation for its border applications.
基金Supported by Fund for the Important Project of the Science and Technology DepartmentMinistry of Education
文摘MtDNA was successfully extracted from ten individual bones (femurs) in the tombs of ancient Jushi in Turfan basin, dated back to the year about 3 000-2 500 years ago. By means of four overlapping primers, we got nucleotide sequence of the 218bp length. Ancient mtDNA was analyzed by the sequencing of hypervariable region Ⅰ of the mtDNA control region. The result shows that 9 haplotypes with 24 polymorphic sites were obtained. The phylogenetic analysis indicated that Mongolians and Altai are the population genetically closest to the Jushi groups and Jushi mtDNA pool being an admixture of eastern Asian and European lineages. So our preliminary data imply that an ancient mingling of Euro-Asian population had existed in Turfan basin prior to the early Iron Age.
基金the National Basic Research Program of China (2011CB109306)the National High Technology Research and Development Program of China (2006AA10A102)+1 种基金partially by a pilot program (2007DKA20Z90)a DAAD Fellowship
文摘Rice (Oryza sativa) was first domesticated in the lower and middle Yangtze regions of China, and rice remains have been found in many Chinese archaeological sites. Until now, only phenotypic archeobotanical evidence, such as the spikelet bases of ancient grains, has been used to speculate on the domestication process and domestication rate of rice. In this study, we sequenced 4 genomic segments from rice remains in Tianluoshan, a site of the local Hemudu Neolithic culture in the low Yangtze and two other archaeological sites (~2400 and 1200 BC, respectively). We compared our sequences with those of the current domesticated and wild rice (O. rufipogon) populations. At least two genotypes were found in the remains from each site, suggesting a heterozygotic state of the rice seeds. One ancient genotype was not found in the current domesticated population and might have been lost. The rice remains belonged to the japonica group, and most if not all were japonica-type, suggesting that the remains might be at an early stage of indica-japonica divergence or an indica-japonica mixture. We also identified sequences with significant similarity to those from species of Sapindales, Zygophyllales, and Brassicales, which is consistent with the identification of other plant remains in the Tianluoshan site and the common rice field weeds such as mustards in southern China.
基金Project supported by the National Natural Science Foundation of China.
文摘As the polymerase chain reaction (PCR) technique has been invented since the late1980s, search for the genetic information preserved in organism remains and fossils hascome to be a new highlight in paleontology. Trace amounts of ancient DNA have been ex-tracted from plant and animals fossils, mummies and the insects entombed in amber mil-