Who We Are and How We Got Here
Who We Are and How We Got Here is a 2018 book on the contribution of genome-wide ancient DNA research to human population genetics by the geneticist David Reich. He describes discoveries made by his group and others, based on analysis and comparison of ancient and modern DNA from human populations around the world. Central to these is the finding that almost all human populations are mixtures resulting from multiple population migrations and gene flow.
Scientists and critics have praised the book for clearly describing pioneering work in a cutting-edge field of study. It has been criticized by some commentators for its handling of race, though other reviewers observe that nothing it says should give racists any comfort.
Context
is a geneticist who has studied ancient human genomes, comparing their patterns of mutations to discover which populations migrated and mixed throughout prehistory. He was mentored by the population geneticist Luca Cavalli-Sforza, who from 1960 pioneered the attempt to match the study of human prehistory by archaeology and linguistics, using the limited genetic data available at that time.Book
Publication
Who We Are and How We Got Here was published by Oxford University Press in 2018,. It is credited to David Reich alone, but he explains in the Acknowledgements that the book grew from a detailed collaboration with his wife, Eugenie Reich.The book is illustrated with monochrome maps, diagrams, and timelines. There are no photographs.
Summary
Since 2010, population geneticists have been able to sequence ancient human DNA, recovering complete genomes, in contrast to earlier approaches which relied on the far more abundant mitochondrial DNA, which is present in many copies in each cell, and transmitted only via the maternal line. That early work gave what Reich calls the "exciting" result that all modern humans are related to "Mitochondrial Eve", a woman who lived in Africa only about 160,000 years ago.The whole genome recovery technique, using the especially hard bone from the inner ear of ancient skeletons —- along with the genomes of modern people from different parts of the world, including especially some isolated populations — has made it possible to reconstruct prehistoric migrations and mixing of populations in the past 5,000 years, and to make reliable inferences about mixtures from much further back in time. The new knowledge from genomics has overthrown many old assumptions about human origins.
Much of the work has focussed on Western Eurasia, where in 1786 Sir William Jones discovered that Sanskrit and ancient Greek were related languages. Linguists came to recognise the Indo-European family of languages, spanning Germanic, Celtic, Italic, Iranian and northern Indian languages, but without explaining how these came to be. Reich showed that modern populations in Europe and north India derive from mixing of native populations with Yamnaya people from the steppes north of the Black Sea and the Caspian Sea some 5,000 years ago, in separate migrations to the west and the east. Corded ware culture described by archaeology corresponds to a stage in the westward migration.
Reich observes that similar migrations and population mixtures characterise human prehistory on all continents. Reich shows that people in Japan and Korea share some 80% of their DNA, implying migration; Polynesians migrated relatively recently, in just the past few thousand years, from the region of Taiwan. The evidence can upset long-held beliefs: Native American skeletons from 10,000 years ago do not appear to be related to the tribes living in those regions today who have been asking for the ancient bones to be returned to them for burial.
The Neanderthals are extinct, but part of their genome survives: Reich notes that all present-day non-Africans have at least 2% of Neanderthal ancestry. Reich explains that somewhere between 100,000 and 50,000 years ago, modern humans mated with Neanderthals, and their descendants carried those genes all over the world. An ancient skeleton from Romania had up to 9% Neanderthal DNA, so natural selection has been removing Neanderthal genes since those matings.
Reception
, in the New York Times, notes that geneticists can now go far beyond studying the personal ancestries of participants in National Geographic's Genographic Project, which looked at small sections of their parents' DNA, namely their mother's mitochondrial DNA and their father's Y chromosome. By looking at DNA from ancient bones, Reich can recover whole genomes. Diamond warns readers not to expect an oversimplified story:Peter Forbes, in The Guardian, calls the book "thrilling in its clarity and its scope." In Forbes's view, Reich handles racist abuses of human origin stories, such as Nazi ideology, "commendably". Forbes writes that Reich explains how ancient DNA teaches a single general lesson, that the human population of any particular place has repeatedly changed since the last ice age; any supposed "mystical, longstanding" link between some people and a place, based on some kind of racial purity, is in Reich's words "flying in the face of hard science".
Clive Cookson, in the Financial Times, writes that one of the first and most surprising impacts of genomics is in human prehistory, and Reich is the first leading practitioner to write a popular book about this. Cookson calls the book
Cookson notes that Reich dismisses worries that DNA evidence of differences between populations is "racism in genetic clothing", and that on the contrary, the "unsuspected degree of mixing" in every part of human history makes old ideas of racial purity "absurd".
The archaeologist and geneticist Turi King, in Nature, writes that Reich's laboratory "has developed some of the most sophisticated statistical and bioinformatics techniques available. Using computers, they painstakingly reconstruct genomic information from fragments of DNA from ancient individuals. They then drill down in search of a new understanding of human history." King notes that Reich's group helped to show that "Neanderthals interbred with the ancestors of all modern humans descended from Europeans, Asians and other non-Africans." Their work is showing the "tremendous degree to which populations globally are blended, repeatedly, over generations." King notes, too, that Reich reflects on the dangers of misinterpretation by racists, who "pick and choose results", or others who opt to "sweep differences under the carpet". But, King argues, echoing Reich, we do need "a non-loaded way to talk about genetic diversity and similarities in populations", and Reich has begun to do that.
The economist Tyler Cowen calls the book "truly excellent, readable and informative". Cowen insists it is "a science book, not a 'race book'", stating that although it has engendered "some public controversy", he is confident that no attentive reader could feel "affirmed in racist beliefs".
The educator Darcy Moore of the University of Wollongong calls the book "highly recommended" but finds some of Reich's conclusions "puzzling and in need of much more research and explanation." A case in point is Reich's statement that the population of Britain was 90% replaced by the incoming Indo-Europeans at the start of the Beaker period. Moore comments that he and the archaeologist Barry Cunliffe agreed in an email discussion that such a radical change was difficult to understand.
An open letter "by a group of 67 scientists and researchers" including anthropologists, sociologists, historians, and others takes Reich to task for his book, under the heading "How Not To Talk About Race And Genetics".
The group welcomes Reich's challenge to the "misrepresentations about race and genetics" made by the science writer Nicholas Wade and the molecular biologist James Watson, but warns that his skill with genomics "should not be confused with a mastery of the cultural, political, and biological meanings of human groups." The group argues that Reich's understanding of "race" "is seriously flawed", and that "biological traits" like sickle cell anaemia have "nothing to do with" race, but are simply found in parts of the world, in this case where malaria is common. The same goes, the group argues, for other distinctions that Reich makes in the book.
The paleogenomics researcher Maria C. Avila Arcos reviewed the book in Science magazine, arguing that "troubling traces of biocolonialism undermine an otherwise eloquent synthesis of ancient genome research." She calls Reich's account graceful, combining his personal opinions with "hard science". She accepts that the book is "scientifically solid and comprehensive", but argues that it "raises some concerns", since in her view Reich overlooks the conflict of interest between the needs of researchers to gather ancient human DNA specimens and the rights of the often marginalised populations that descend from those ancestors.
A review by Razib Khan, who is cited in the book, recommends the book to a wide audience as it "catches up to the state-of-the-art knowledge that we have in terms of human history, deep and prehistoric." He includes experts in that audience: "I’ve talked to plenty of people who work in evolutionary genomics who are not totally up-to-speed on the ancient DNA revolution. They too would benefit from reading Who We Are and How We Got Here front to back. I know people who work in the field of cultural evolution, who would also benefit from reading Who We Are and How We Got Here. I know behavior geneticists who would benefit from reading Who We Are and How We Got Here. And so forth." Khan concedes that the book "is not rich with the same stylistic flourish and engagement as one might find in a popularization by Steven Pinker or Richard Dawkins" but that it's okay because it is a "serious book that is earnest in focusing on the substance of the science first."
The anthropologist John Hawks, writing in the Wall Street Journal, observes that Reich was surprised that the "concordance of near-mythological history with genetic fact" in the migrations in India was "a potential political bombshell"; he notes that Reich avoided it by not talking about "Indo-European invaders at all", writing only that "No group in India can claim genetic purity". In Hawks's view, Reich "seems a contradiction: Rising to the pinnacle of human genetics, he nonetheless exhibits incredible naiveté" in affairs such as when German scientists withdrew from a paper that seemed to them "uncomfortably close to pre-Nazi racial theories", or when Native American specimen donors wished to limit the use of their DNA. Hawks argues that science needs to help people to see the humanity of the dead ancestors, and finds Reich's approach potentially dehumanizing.