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Informationen zum Autor Kathryn Asbury is a Lecturer in the Centre for Psychology in Education at the University of York, UK. She has published widely on the influence of home and school environments on children's achievement, behavior, and wellbeing. Robert Plomin is the Professor of Behavioural Genetics at the MRC Social, Genetic and Developmental Psychiatry Centre, King's College London, UK. He is the founder and principal investigator of the Twins' Early Development Study (TEDS), and has published more than 500 papers and a dozen books on behavior genetics. Klappentext In this world of astonishing progress in molecular biology, genome screening is no longer in the realm of science fiction--some believe it may soon become the norm. Yet while most are aware of the powerful role that genetics plays in the learning and development of children, the dialogue between geneticists and educationalists has been sorely lacking. G is for Genes bridges the divide to show how this overdue debate can, in fact, lead to beneficial results in the education of all children--and may also benefit schools, teachers, and society at large. Utilizing an engaging writing style that breaks down complex science for a wide audience, the authors draw on a wealth of behavioural genetic research to show that genetic influence is not the same as genetic determinism and how, in many instances, genes are expressed differently in different environments. The authors also present their vision of what the genetically sensitive school of the near future might look like, along with a series of policy recommendations to facilitate a consideration of genetic influence on learning in the context of schools and classrooms. Of vital interest to parents, educators, and policy makers alike, G is for Genes offers invaluable insights into one of most important pieces of the intricate puzzle that makes up a child's life. Zusammenfassung G is for Genes summariezes the latest research and explores! in a scientific and non-political way! what genetic research means for schools! and for the choices parents have to make about their children's education. Inhaltsverzeichnis Acknowledgements xi Part One In Theory 1 Chapter 1 Genetics! Schools! and Learning 3 The Aims and Assumptions of Education 4 Diverse Opportunities to Draw Out Individual Potential 8 DNA in the Classroom 10 In Summary ... 11 Chapter 2 How We Know What We Know 14 Twins: A Natural Experiment 15 DNA Sequencing 18 Chapter 3 The 3Rs: Reading! wRiting ... 22 From DNA to ABC 24 Environmental Influences on Reading Ability 31 Struggling Readers 34 The Genetics of Writing Ability 38 Chapter 4 ... and Rithmetic 42 So! Why are Some People Better at Math than Others? 43 How does Nurture Affect Mathematical Ability? 52 Chapter 5 Physical Education: Who! What! Why! Where! and How? 57 Genes! Sports! and Smoking 62 Obesity! Genes! and Environment 64 The Heritability of Fitness 67 Gym Class Heroes 69 In Summary ... 74 Chapter 6 Science: A Different Way of Thinking? 78 Differences Between the Sexes 85 In Summary ... 87 Chapter 7 How do IQ and Motivation Fit In? 89 IQ + Genetics = Controversy (and Name-calling) 95 Self-Confidence and Motivation 98 Improving Confidence and Cognition in the Classroom 100 Chapter 8 Special Educational Needs: Ideas and Inspiration 105 The Expansion of Special Educational Needs 110 Personalized Learning in Action 113 In Summary ... 114 Chapter 9 Clones in the Classroom 115 Positivity and Achievement 122 Clones in the Classroom 122 Chapter 10 Mind the Gap: Social Status and School Quality 126 Low SES: What Does It Look Like? 129 What Does the Heritability of SES Mean? 133 School Quality 136 Chapter 11 Genetics and Learning: The Big Ideas 141 Big Idea #1: ...
Auteur
Kathryn Asbury is a Lecturer in the Centre for Psychology in Education at the University of York, UK. She has published widely on the influence of home and school environments on children's achievement, behavior, and wellbeing.
Robert Plomin is the Professor of Behavioural Genetics at the MRC Social, Genetic and Developmental Psychiatry Centre, King's College London, UK. He is the founder and principal investigator of the Twins' Early Development Study (TEDS), and has published more than 500 papers and a dozen books on behavior genetics.
Texte du rabat
In this world of astonishing progress in molecular biology, genome screening is no longer in the realm of science fiction--some believe it may soon become the norm. Yet while most are aware of the powerful role that genetics plays in the learning and development of children, the dialogue between geneticists and educationalists has been sorely lacking. G is for Genes bridges the divide to show how this overdue debate can, in fact, lead to beneficial results in the education of all children--and may also benefit schools, teachers, and society at large.
Utilizing an engaging writing style that breaks down complex science for a wide audience, the authors draw on a wealth of behavioural genetic research to show that genetic influence is not the same as genetic determinism and how, in many instances, genes are expressed differently in different environments. The authors also present their vision of what the genetically sensitive school of the near future might look like, along with a series of policy recommendations to facilitate a consideration of genetic influence on learning in the context of schools and classrooms. Of vital interest to parents, educators, and policy makers alike, G is for Genes offers invaluable insights into one of most important pieces of the intricate puzzle that makes up a child's life.
Résumé
G is for Genes summariezes the latest research and explores, in a scientific and non-political way, what genetic research means for schools, and for the choices parents have to make about their children's education.
Contenu
Acknowledgements xi Part One In Theory 1 Chapter 1 Genetics, Schools, and Learning 3 The Aims and Assumptions of Education 4 Diverse Opportunities to Draw Out Individual Potential 8 DNA in the Classroom 10 In Summary ... 11 Chapter 2 How We Know What We Know 14 Twins: A Natural Experiment 15 DNA Sequencing 18 Chapter 3 The 3Rs: Reading, wRiting ... 22 From DNA to ABC 24 Environmental Influences on Reading Ability 31 Struggling Readers 34 The Genetics of Writing Ability 38 Chapter 4 ... and 'Rithmetic 42 So, Why are Some People Better at Math than Others? 43 How does Nurture Affect Mathematical Ability? 52 Chapter 5 Physical Education: Who, What, Why, Where, and How? 57 Genes, Sports, and Smoking 62 Obesity, Genes, and Environment 64 The Heritability of Fitness 67 Gym Class Heroes 69 In Summary ... 74 Chapter 6 Science: A Different Way of Thinking? 78 Differences Between the Sexes 85 In Summary ... 87 Chapter 7 How do IQ and Motivation Fit In? 89 IQ + Genetics = Controversy (and Name-calling) 95 Self-Confidence and Motivation 98 Improving Confidence and Cognition in the Classroom 100 Chapter 8 Special Educational Needs: Ideas and Inspiration 105 The Expansion of Special Educational Needs 110 Personalized Learning in Action 113 In Summary ... 114 Chapter 9 "Clones" in the Classroom 115 Positivity and Achievement 122 Clones in the Classroom 122 Chapter 10 Mind the Gap: Social Status and School Quality 126 Low SES: What Does It Look Like? 129 What Does the Heritability of SES Mean? 133 School Quality 136 Chapter 11 Genetics and Learning: The Big Ideas 141 Big Idea #1: Achievement and Ability Vary, Partly for Genetic Reasons 141 Big Idea #2: The Abnormal is Normal 142 Big Idea #3: Continuity is Genetic and Change is Environmental 143 Big Idea #4: Genes are Generalists and Environments are Specialists 144 Big Idea #5: Environments are Influenced by Genes 144 Big Idea #6: The Environments that Matter Most are Unique to Individuals 145 Big Idea #7: Equality of Opportunity Requires Diversity of Opportunity 146 Part Two I…