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This volume highlights new avenues of research in the language sciences, and particularly, in the neurobiology of language. The term “language-ready brain” stresses, on the one hand, the importance of a brain-based description of our species’ linguistic capacity, and, on the other, the need to appreciate the crucial role culture plays in shaping the linguistic systems children acquire and adults use. For this reason, the focus is not put on language per se, but on our learning biases and cognitive pre-dispositions toward language. Both brain and culture are considered at two crucial levels of inquiry: phylogeny and ontogeny. In a fast-growing field like the language sciences and specifically, language evolution studies, this book has tried to capture several of the most exciting topics explored currently, sowing seeds for future investigations.

globularization --- phonology --- brain oscillations --- Brain asymmetry --- language development --- merge --- Speech --- Language production --- language-readiness --- temporal attention --- Retinoic acid --- Communication --- globularization --- phonology --- brain oscillations --- Brain asymmetry --- language development --- merge --- Speech --- Language production --- language-readiness --- temporal attention --- Retinoic acid --- Communication

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This volume highlights new avenues of research in the language sciences, and particularly, in the neurobiology of language. The term “language-ready brain” stresses, on the one hand, the importance of a brain-based description of our species’ linguistic capacity, and, on the other, the need to appreciate the crucial role culture plays in shaping the linguistic systems children acquire and adults use. For this reason, the focus is not put on language per se, but on our learning biases and cognitive pre-dispositions toward language. Both brain and culture are considered at two crucial levels of inquiry: phylogeny and ontogeny. In a fast-growing field like the language sciences and specifically, language evolution studies, this book has tried to capture several of the most exciting topics explored currently, sowing seeds for future investigations.

globularization --- phonology --- brain oscillations --- Brain asymmetry --- language development --- merge --- Speech --- Language production --- language-readiness --- temporal attention --- Retinoic acid --- Communication

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Asymmetry is an inherent characteristic of brain organization in both humans and other vertebrate species, and is evident at the behavioral, neurophysiological, and structural levels. Brain asymmetry underlies the organization of several cognitive systems, such as emotion, communication, and spatial processing. Despite this ubiquity of asymmetries in the vertebrate brain, we are only beginning to understand the complex neuronal mechanisms underlying the interaction between hemispheric asymmetries and cognitive systems. Unfortunately, despite the vast number of empirical studies on brain asymmetries, theoretical models that aim to provide mechanistic explanations of hemispheric asymmetries are sparse in the field. Therefore, this Special Issue aims to highlight empirically based mechanistic models of brain asymmetry. Overall, six theoretical and four empirical articles were published in the Special Issue, covering a wide range of topics, from human handedness to auditory laterality in bats. Two key challenges for theoretical models of brain asymmetry are the integration of increasingly complex molecular data into testable models, and the creation of theoretical models that are robust and testable across different species.

Silbo Gomero --- whistle language --- cerebral lateralization --- brain asymmetry --- dichotic listening task --- situs inversus --- heterotaxy --- visceral asymmetry --- vertebrate asymmetry --- human laterality --- left-right differentiation --- brain torque --- ciliopathy --- parrots --- footedness --- brain mass --- body mass --- nidopallium --- optic tectum --- optic tecta --- Wulst --- lateral asymmetry --- finite element method --- electrical field potential --- dipole moment --- power --- EEG --- bilateria --- cerebral asymmetry --- handedness --- language --- molecular asymmetry --- situs --- primary auditory cortex (A1) --- Doppler-shifted constant frequency (DSCF) --- mustached bat --- sex differences --- amplitude --- spectral --- temporal --- hemispheric specialization --- social communication --- frequency modulation (FM) --- neurodevelopment --- GWAS --- heritability --- quantitative trait --- polygenic scores --- avian brain --- brain asymmetries --- hemispheric lateralization --- ontogeny --- epigenetic --- neuronal plasticity --- visual system --- cerebral polymorphisms --- cerebral dominance --- DC model --- genetics --- polygenic model --- bilateral language --- functional modules --- language evolution --- lateralization --- MRI --- baboon --- development --- language areas --- neuroscience --- brain --- asymmetry --- laterality --- functional hemispheric asymmetries --- structural hemispheric asymmetries --- theoretical models

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A revelatory tale of how the human brain develops, from conception to birth and beyondBy the time a baby is born, its brain is equipped with billions of intricately crafted neurons wired together through trillions of interconnections to form a compact and breathtakingly efficient supercomputer. Zero to Birth takes you on an extraordinary journey to the very edge of creation, from the moment of an egg’s fertilization through each step of a human brain’s development in the womb—and even a little beyond.As pioneering experimental neurobiologist W. A. Harris guides you through the process of how the brain is built, he takes up the biggest questions that scientists have asked about the developing brain, describing many of the thrilling discoveries that were foundational to our current understanding. He weaves in a remarkable evolutionary story that begins billions of years ago in the Proterozoic eon, when multicellular animals first emerged from single-cell organisms, and reveals how the growth of a fetal brain over nine months reflects the brain’s evolution through the ages. Our brains have much in common with those of other animals, and Harris offers an illuminating look at how comparative animal studies have been crucial to understanding what makes a human brain human.An unforgettable chronicle of one of nature’s greatest achievements, Zero to Birth describes how the brain’s incredible feat of orchestrated growth ensures that every brain is unique, and how breakthroughs at the frontiers of science are helping us to decode many traits that only reveal themselves later in life.

SCIENCE / Life Sciences / Neuroscience. --- Action potential. --- Agrin. --- Angiogenesis. --- Antibody. --- Apoptosis. --- Astrocyte. --- Axon guidance. --- Axon. --- Blastula. --- Brain asymmetry. --- Broca's area. --- Cancer cell. --- Cell type. --- Cerebral atrophy. --- Cerebral cortex. --- Charles Darwin. --- Chemical synapse. --- Critical period. --- Cyclopamine. --- Degenerative disease. --- Dendrite. --- Down syndrome. --- Ectoderm. --- Embryo. --- Embryology. --- Endocrinology. --- Eric Knudsen. --- Evolution. --- FOXP2. --- Filopodia. --- Forebrain. --- Ganglion cell. --- Gastrulation. --- Gene. --- Growth cone. --- Hans Spemann. --- Hebbian theory. --- Hindbrain. --- Hirschsprung's disease. --- Homeosis. --- Hox gene. --- Human brain. --- Immortalised cell line. --- John Gurdon. --- Lancelot Hogben. --- Lateralization of brain function. --- Marian Diamond. --- Midbrain. --- Model organism. --- Morphogen. --- Motor neuron. --- Muscle. --- Myocyte. --- Nematode. --- Nervous tissue. --- Neural crest. --- Neural development. --- Neural plate. --- Neural stem cell. --- Neural tube defect. --- Neural tube. --- Neuroblast. --- Neuroblastoma. --- Neuroepithelial cell. --- Neuroglia. --- Neuroimaging. --- Neuron doctrine. --- Neuron. --- Organoid. --- Petri dish. --- Progenitor cell. --- Proneural genes. --- Protein. --- Protocadherin. --- Purkinje cell. --- Reeler. --- Reelin. --- Renshaw cell. --- Reticular theory. --- Retinoic acid. --- Roel Nusse. --- Ross Granville Harrison. --- Sarcoma. --- Sonic hedgehog. --- Spina bifida. --- Spinal cord. --- Spindle apparatus. --- Stem cell. --- Sydney Brenner. --- Synapsis. --- Synaptic plasticity. --- Thomas Hunt Morgan. --- Thrombospondin. --- Torsten Wiesel. --- Transformation (genetics). --- Twin. --- Vertebrate. --- Visual word form area. --- White blood cell. --- Zygote. --- Brain --- Growth. --- Neuronal Plasticity --- SCIENCE / Life Sciences / Neuroscience --- SCIENCE / Life Sciences / Developmental Biology --- growth & development --- embryology --- physiology