Peter Forster FRSB (born 27 June 1967) is a geneticist researching the prehistoric origins and ancestry of mankind. In addition to archaeogenetics, he has published on the reconstruction and spread of prehistoric languages and in the field of forensic genetics.
Peter Forster studied chemistry at the Christian-Albrechts-University in Kiel and the University of Hamburg. At the Heinrich-Pette-Institut for Virology and Immunology in Hamburg, he specialised in genetics and obtained his PhD degree in 1997 in biology on the topic of "Dispersal and differentiation of modern Homo sapiens analysed with mitochondrial DNA". After postdoctoral research at the Institute for Legal Medicine at the Westphalian Wilhelms-University in Münster, he was appointed Research Fellow at the McDonald Institute for Archaeological Research in Cambridge University in 1999, and furthermore a Fellow at Murray Edwards College at the University of Cambridge. He is on the editorial board of the International Journal of Legal Medicine, and a director of Roots for Real. Peter Forster was elected a life member of the German Academy of Sciences Leopoldina. In January 2016 the Royal Society of Biology elected Peter Forster as a Fellow.
Modern humans have existed in Africa for around 200,000 years. Peter Forster discovered on the basis of modern and ancient DNA that there has only been a single successful migration out of Africa during prehistory, and he dated this emigration to around 60,000 years ago. The size of this emigrant group, according to his estimate, was less than 200 people (BBC 2009: African tribe populated rest of the world). Their descendants travelled on average about 200 to 1,000 metres per year and reached Europe and Australia just over 40,000 years ago, and America around 20,000 years ago. Due to the small numbers of founders, and due to their subsequent isolation on separate continents, differences between populations accumulated, yielding the distinctive sets of features that are perceived today as human races. [1] On the basis of geographic DNA patterns, Forster discovered that the current language areas on all continents arose primarily through the prehistoric spread of culturally or militarily dominant men, whose languages were evidently favoured by the local women and passed on to their children. Hence, there is a statistical relationship today between the language and the Y chromosome types of modern males, but no such relationship between mtDNA and language in females today. [2] Peter Forster has also applied his statistical evolutionary approach on languages directly and has calculated that the Celtic languages spread in the Bronze Age from about 3000 BC, and that the Germanic languages spread during the Iron Age from about 600 BC, as far as Britain. [3]
To obtain these results, Forster has compiled, proofread and corrected DNA- and language databases, and developed, in collaboration with his colleagues, phylogenetic network analysis of mitochondrial DNA, Y-chromosomal DNA, and linguistic data, as well as the concept of the mtDNA- and Y-chromosomal "clock". He has developed practical applications of his research in the shape of DNA ancestry tests, geographical ancestry tests and relationship tests for casework in genealogy, family research and forensics.
Elisabeth Hamel (2007) Das Werden der Völker in Europa. Tenea-Verlag, Berlin.
Andrew Colin Renfrew, Baron Renfrew of Kaimsthorn, is a British archaeologist, paleolinguist and Conservative peer noted for his work on radiocarbon dating, the prehistory of languages, archaeogenetics, neuroarchaeology, and the prevention of looting at archaeological sites.
A number of hypotheses exist on many of the key issues regarding the domestication of the horse. Although horses appeared in Paleolithic cave art as early as 30,000 BCE, these were wild horses and were probably hunted for meat.
Archaeogenetics is the study of ancient DNA using various molecular genetic methods and DNA resources. This form of genetic analysis can be applied to human, animal, and plant specimens. Ancient DNA can be extracted from various fossilized specimens including bones, eggshells, and artificially preserved tissues in human and animal specimens. In plants, Ancient DNA can be extracted from seeds and tissue. Archaeogenetics provides us with genetic evidence of ancient population group migrations, domestication events, and plant and animal evolution. The ancient DNA cross referenced with the DNA of relative modern genetic populations allows researchers to run comparison studies that provide a more complete analysis when ancient DNA is compromised.
Toomas Kivisild is an Estonian population geneticist. He graduated as a biologist and received his PhD in Genetics, from University of Tartu, Estonia, in 2000. Since then he has worked as a postdoctoral research fellow in the School of Medicine, at Stanford University (2002-3), Estonian Biocentre, as the Professor of Evolutionary Biology, University of Tartu (2005-6), and as a Lecturer and Reader in Human Evolutionary Genetics in the Department of Archaeology and Anthropology at the University of Cambridge (2006-2018). From 2018 he is a professor in the Department of Human Genetics at KU Leuven and a senior researcher at the Institute of Genomics, University of Tartu.
Haplogroup J is a human mitochondrial DNA (mtDNA) haplogroup. The clade derives from the haplogroup JT, which also gave rise to haplogroup T. In his book The Seven Daughters of Eve, Bryan Sykes named the originator of this mtDNA haplogroup Jasmine. Within the field of medical genetics, certain polymorphisms specific to haplogroup J have been associated with Leber's hereditary optic neuropathy.
Haplogroup P also known as P-P295 and K2b2 is a Y-chromosome DNA haplogroup in human genetics. P-P295 is a branch of K2b, which is a branch of Haplogroup K2 (K-M526).
The Anatolian hypothesis, also known as the Anatolian theory or the sedentary farmer theory, first developed by British archaeologist Colin Renfrew in 1987, proposes that the dispersal of Proto-Indo-Europeans originated in Neolithic Anatolia. It is the main competitor to the Kurgan hypothesis, or steppe theory, which enjoys more academic favor.
In human mitochondrial genetics, haplogroup E is a human mitochondrial DNA (mtDNA) haplogroup typical for the Malay Archipelago. It is a subgroup of haplogroup M9.
The Genetic history of Europe deals with the formation, ethnogenesis, and other DNA-specific information about populations indigenous, or living in Europe.
Steven Mithen, is a Professor of Archaeology at the University of Reading. He has written a number of books, including The Singing Neanderthals and The Prehistory of the Mind: The Cognitive Origins of Art, Religion and Science.
Mark G. Thomas is a human evolutionary geneticist, Professor of Evolutionary Genetics at the Research Department of Genetics, Evolution and Environment at University College London since 2009. Prior to this, he was Cancer Research Campaign Postdoctoral Research Fellow at King's College London and then Wellcome Trust postdoctoral researcher in the department of Biological Anthropology at the University of Cambridge. He has acted as Editor-in-chief of the journal Annals of Human Genetics from 2015 to 2019 and Oct 2020 to Jan 2021.
Peter Stafford Bellwood is Emeritus Professor of Archaeology in the School of Archaeology and Anthropology at the Australian National University (ANU) in Canberra. He is well known for his Out of Taiwan model regarding the spread of Austronesian languages.
The Afroasiatic Urheimat is the hypothetical place where speakers of the proto-Afroasiatic language lived in a single linguistic community, or complex of communities, before this original language dispersed geographically and divided into separate distinct languages. This speech area is known as the Urheimat. Afroasiatic languages are today mostly distributed in parts of Africa, and Western Asia.
The peopling of India refers to the migration of Homo sapiens into the Indian subcontinent. Anatomically modern humans settled India in multiple waves of early migrations, over tens of millennia. The first migrants came with the Coastal Migration/Southern Dispersal 65,000 years ago, whereafter complex migrations within south and southeast Asia took place. West-Asian (Iranian) hunter-gatherers migrated to South Asia after the Last Glacial Period but before the onset of farming. Together with a minor number of ancient South Asian hunter-gatherers they formed the population of the Indus Valley civilisation (IVC).
Y-DNA haplogroups in populations of South Asia are haplogroups of the male Y-chromosome found in South Asian populations.
Listed here are notable ethnic groups and native populations from the Oceania and East Indonesia by human Y-chromosome DNA haplogroups based on relevant studies.
The Father Tongue hypothesis proposes that humans tend to speak their father's language. It is based on the discovery, in 1997, of a closer correlation between language and Y-chromosomal variation than between language and mitochondrial DNA variation. The initial work was performed on African and European samples by a team of population geneticists led by Laurent Excoffier. On the basis of these and similar findings by other geneticists, the hypothesis was elaborated by historical linguist George van Driem in 2010 that the teaching by a mother of her spouse's tongue to her children is a mechanism by which language has preferentially been spread over time.
Haplogroup C-B477, also known as Haplogroup C1b2, is a Y-chromosome haplogroup. It is one of two primary branches of Haplogroup C1b, one of the descendants of Haplogroup C1.
The farming/language dispersal hypothesis proposes that many of the largest language families in the world dispersed along with the expansion of agriculture. This hypothesis was proposed by archaeologists Peter Bellwood and Colin Renfrew. It has been widely debated and archaeologists, linguists, and geneticists often disagree with all or part of the hypothesis.