2006. High-resolution mtDNA stud- ies of the Indian population: implications for palaeolithic settlement of the Indian subcontinent. Ann Hum Genet. 70:42-58.Barnabas S, Shouche Y, Suresh CG. High-resolution mtDNA studies of the Indian population: implications for palaeolithic settlement of the ...
( ) 1. According to the picture,the population of the world reached 6 billion in .A. 1987 B. 1999 C. 2011 D. 2013 ( ) 2. We know that more than 1 billion will live in by 2050. E. sub-Saharan Africa F. Indian subcontinent G. the United States . Indonesia ( ) 3. According ...
52.According to the picture,the population of the world reached 6billion in___.A.1987B.1999C.201153.We know that more than 1billion will live in___ by 2050.A.sub-Saharan AfricaB.Indian subcontinentC.the United States54.According to the picture,___ will have the largest population in...
() 1. According to the picture the population of the world reached 6 billion in . A. 1987 B. 1999 C. 2011 D. 2013 () 2. We know that more than 1 billion will live in by 2050. A. sub-Saharan Africa B. Indian subcontinent C. the United States D. Indonesia () 3. According to...
2007. Population Movements in the Indian Subcontinent during the Protohistoric Period: Physical Anthropological Assessment. In Petraglia. MD and Allchin B (Eds.) The Evolution and History of Human Populations in South Asia: Inter- disciplinary Studies in Archaeology, Biological Anthropology, Li...
() 1. According to the picture,the population of the world reached 6 billion in. A. 1987 B. 1999 C. 2011 D. 2013 () 2. We know that more than 1 billion will live inby 2050. A. sub-Saharan Africa B. Indian subcontinent
Genetic studies of populations from the Indian subcontinent are of great interest because of India's large population size, complex demographic history, an... J Xing,WS Watkins,Y Hu,... - 《Genome Biology》 被引量: 74发表: 2010年 Dietary habits, food consumption and nutrient intake among th...
The most ancient mtDNA expansions we detect, dating close to the early peopling of Eurasia (40–50 KYA), are in the Near and Middle East. This difference in timing of European female and male lineage expansions is mirrored in the Indian subcontinent, where a recent analysis33 shows that ...
The population genetics of the Indian subcontinent is central to understanding early human prehistory due to its strategic location on the proposed corridor of human movement from Africa to Australia during the late Pleistocene. Previous genetic research using mtDNA has emphasized the relative isolation ...
During the historical period (1971–2000), geographic variations in exposure are generally a function of population (given the relatively constant HWD values) and tend to be highest in the Indian subcontinent and parts of China. By the 2071–2100 period, exposure remains high in these regions, ...