
Oxygen has had extraordinary effects on life. Three hundred million years ago, in Carboniferous times, dragonflies grew as big as seagulls, with wingspans of nearly a metre. Researchers claim they could have flown only if the air had contained more oxygen than today - probably as much as 35 per cent. Giant spiders, tree-ferns, marine rock formations and fossil charcoals all tell the same story. High oxygen levels may also explain the global firestorm that contributed to the demise of the dinosaurs after the asteroid impact. The strange and profound effects that oxygen has had on the evolution of life pose a riddle, which this book sets out to answer. Oxygen is a toxic gas. Divers breathing pure oxygen at depth suffer from convulsions and lung injury. Fruit flies raised at twice normal atmospheric levels of oxygen live half as long as their siblings. Reactive forms of oxygen, known as free radicals, are thought to cause ageing in people. Yet if atmospheric oxygen reached 35 per cent in the Carboniferous, why did it promote exuberant growth, instead of rapid ageing and death? Oxygen takes the reader on an enthralling journey, as gripping as a thriller, as it unravels the unexpected ways in which oxygen spurred the evolution of life and death. The book explains far more than the size of ancient insects: it shows how oxygen underpins the origin of biological complexity, the birth of photosynthesis, the sudden evolution of animals, the need for two sexes, the accelerated ageing of cloned animals like Dolly the sheep, and the surprisingly long lives of bats and birds. Drawing on this grand evolutionary canvas, Oxygen offers fresh perspectives on our own lives and deaths, explaining modern killer diseases, why we age, and what we can do about it. Advancing revelatory new ideas, following chains of evidence, the book ranges through many disciplines, from environmental sciences to molecular medicine. The result is a captivating vision of contemporary science and a humane syn
This book investigates the paradoxical role of oxygen as both the essential driver of biological complexity and a primary agent of cellular toxicity and aging. Nick Lane, a biochemist and writer, synthesizes geological history, evolutionary biology, and molecular medicine to argue that oxygen levels have dictated the trajectory of life on Earth. He presents a framework where the metabolic demands of oxygen explain phenomena ranging from the gigantism of ancient insects to the fundamental mechanisms of human senescence.
What You Will Find
Scope Limits
Experts and readers recognize this work as a highly accessible synthesis of complex biochemical and evolutionary concepts. The prose is noted for its clarity, effectively bridging the gap between academic research and general scientific interest.
Page Count:
385
Publication Date:
2002-01-01
Publisher:
OUP Oxford
ISBN-10:
0191500690
ISBN-13:
9780191500695
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