Genetics and the Language Sciences

Fisher, Simon E.; Vernes, Sonja C.

doi:10.1146/annurev-linguist-030514-125024

Cited by 42 publications

(32 citation statements)

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“…For understanding language evolution in particular, the genes involved in brain development and the vocal organs are of course especially interesting but, unfortunately, linking molecular genetics to language and speech is an extremely complex endeavor [18,19]. Thus, there has been only slow progress in understanding the functional implications of the non-coding differences between modern and archaic humans in the 'star' gene FOXP2 (such as the POU3F2 putative binding site in intron 8 [20]), but it seems likely that non-coding changes in this and other language-implicated genes such as ROBO1, ROBO2, and CNTNAP2 rose to high frequency after the separation of AMH from archaic hominins [21].…”

Section: The Human Treementioning

confidence: 99%

“…For example, some of these genes with fixed changes are expressed in the developing neocortex [16], other are involved in skin, hair and bone structure, while others affect the immune and reproductive systems [11,17 ]. Nevertheless, it is now possible to explore the function and evolutionary fate of archaic introgressions in a 'fossil-free' manner by examining the introgressions in modern populations [17].For understanding language evolution in particular, the genes involved in brain development and the vocal organs are of course especially interesting but, unfortunately, linking molecular genetics to language and speech is an extremely complex endeavor [18,19]. Thus, there has been only slow progress in understanding the functional implications of the non-coding differences between modern and archaic humans in the 'star' gene FOXP2 (such as the POU3F2 putative binding site in intron 8 [20]), but it seems likely that non-coding changes in this and other language-implicated genes such as ROBO1, ROBO2, and CNTNAP2 rose to high frequency after the separation of AMH from archaic hominins [21].…”

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confidence: 99%

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Neanderthal language revisited: not only us

Dediu

Levinson

2018

Current Opinion in Behavioral Sciences

113

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Here we re-evaluate our 2013 paper on the antiquity of language (Dediu and Levinson, 2013) in the light of a surge of new information on human evolution in the last half million years. Although new genetic data suggest the existence of some cognitive differences between Neanderthals and modern humans -fully expected after hundreds of thousands of years of partially separate evolution, overall our claims that Neanderthals were fully articulate beings and that language evolution was gradual are further substantiated by the wealth of new genetic, paleontological and archeological evidence briefly reviewed here. IntroductionIn 2013 we published a paper [1] arguing that vocal language has had a long and gradual evolution in the 1.5 my since Homo erectus, and that Neanderthals were articulate humans, not very different from us. We marshaled paleontological, archeological and genetic evidence against the saltationist view that language evolved abruptly within the last 100 ky (e.g. [2]). Since then there has been a flurry of new evidence from paleontology, archeology and ancient DNA that, we argue here, largely supports our views of a much deeper antiquity and gradualism. The human treeOne striking finding is that many human lineages were coexisting just 300 kya (including Homo naledi, Homo floresiensis, Denisovans, Neanderthals and even anatomically modern humans [3 ]), another being the degree of reticulation in the human tree evidenced by genetics. Recent data suggests that at least 50 ky of interactions on a vast geographic scale from the Levant to Siberia and Western Europe gave plenty of scope for interbreeding; Figure 1 shows some of the gene flow across the Neanderthals, Denisovans and ourselves.The ancestors of Neanderthals and Denisovans left Africa c. 650 kya, and by 450 kya had diverged into these two lineages, and there are indications of early Neanderthal and Denisovan interbreeding [4], and of interbreeding between Denisovans and yet another archaic hominin. The Neanderthals then interbred with anatomically modern humans (AMH) on at least three occasions, likely when AMH first came into the Levant 100-120 kya [5 ,6], and also during AMH's move into glacial Europe (c. 50 kya [7]). For example, a Siberian Neanderthal has AMH genes introgressed c. 110 kya [7], and an early AMH with Neanderthal anatomical features c. 40 kya from Romania [8] had Neanderthal ancestry just 4-6 generations before [9]. Recent data suggests that while Neanderthals and Denisovans clearly form a clade, the mtDNA groups the former with AMH due to their original mtDNA being replaced by an AMH-like lineage probably through interbreeding before c. 270 kya [10]. It is now clear that such interbreeding did leave traces in contemporary modern humans outside Africa at the level of a few percent of the genome, with regional and inter-individual variation probably due to repeated interbreeding with Neanderthals and Denisovans [5 ,11 ,12 ]. Contact between human lineages is also revealed by other lines of evidence including the oral commen...

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Section: The Human Treementioning

confidence: 99%

mentioning

confidence: 99%

Neanderthal language revisited: not only us

Dediu

Levinson

2018

Current Opinion in Behavioral Sciences

113

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“…I end with a brief discussion of the genetic basis for speech (for more detail, see Fisher 2017, Fisher & Vernes 2015, Pääbo 2014. Nothing is currently known about the physiological or genetic determinants of laryngeal descent or air sac loss, so I focus on the genetic determinants of neural mechanisms, where exciting progress has been made in the last two decades.…”

Section: Genetic Underpinnings Of Speechmentioning

confidence: 99%

The Biology and Evolution of Speech: A Comparative Analysis

Fitch

2018

Annu. Rev. Linguist.

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I analyze the biological underpinnings of human speech from a comparative perspective. By first identifying mechanisms that are evolutionarily derived relative to other primates, we obtain members of the faculty of language, derived components (FLD). Understanding when and why these evolved is central to understanding the evolution of speech. There is little evidence for human-specific mechanisms in auditory perception, and the hypothesis that speech perception is "special" is poorly supported by comparative data. Regarding speech production, human peripheral vocal anatomy includes several derived characteristics (permanently descended larynx, loss of air sacs), but their importance has been overestimated. In contrast, the central neural mechanisms underlying speech production involve crucial derived characteristics (direct monosynaptic connections from motor cortex to laryngeal motor neurons, derived intracortical dorsal circuitry between auditory and motor regions). Paleo-DNA from fossil hominins provides an exciting new opportunity to determine when these derived speech production mechanisms arose during evolution.

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“…The significance of inter-individual variation in linguistic abilities in the non-language-impaired population has only recently come to the fore in linguistics research, which has tended to focus on identifying those aspects of language acquisition and processing that are universal (Fisher and Vernes 2015). Some of this variation is due to environmental factors, and to stochastic effects in neurodevelopment, but multiple studies using twins and adoptees have shown that a large proportion of the variation is heritable (Stromswold 2001;Christopher et al 2013).…”

Section: Normal Variation and Exceptional Abilitiesmentioning

confidence: 99%

Insights into the Genetic Foundations of Human Communication

2015

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The human capacity to acquire sophisticated language is unmatched in the animal kingdom. Despite the discontinuity in communicative abilities between humans and other primates, language is built on ancient genetic foundations, which are being illuminated by comparative genomics. The genetic architecture of the language faculty is also being uncovered by research into neurodevelopmental disorders that disrupt the normally effortless process of language acquisition. In this article, we discuss the strategies that researchers are using to reveal genetic factors contributing to communicative abilities, and review progress in identifying the relevant genes and genetic variants. The first gene directly implicated in a speech and language disorder was FOXP2. Using this gene as a case study, we illustrate how evidence from genetics, molecular cell biology, animal models and human neuroimaging has converged to build a picture of the role of FOXP2 in neurodevelopment, providing a framework for future endeavors to bridge the gaps between genes, brains and behavior.

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Genetics and the Language Sciences

Cited by 42 publications

References 128 publications

Neanderthal language revisited: not only us

Neanderthal language revisited: not only us

The Biology and Evolution of Speech: A Comparative Analysis

Insights into the Genetic Foundations of Human Communication

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