Australopithecines, dinosaurs, trilobites--such fossils conjure up images of lost worlds filled with vanished organisms. But in the full history of life, ancient animals, even the trilobites, form only the half-billion-year tip of a nearly four-billion-year iceberg. Andrew Knoll explores the deep history of life from its origins on a young planet to the incredible Cambrian explosion, presenting a compelling new explanation for the emergence of biological novelty.
The very latest discoveries in paleontology--many of them made by the author and his students--are integrated with emerging insights from molecular biology and earth system science to forge a broad understanding of how the biological diversity that surrounds us came to be. Moving from Siberia to Namibia to the Bahamas, Knoll shows how life and environment have evolved together through Earth's history. Innovations in biology have helped shape our air and oceans, and, just as surely, environmental change has influenced the course of evolution, repeatedly closing off opportunities for some species while opening avenues for others.
Readers go into the field to confront fossils, enter the lab to discern the inner workings of cells, and alight on Mars to ask how our terrestrial experience can guide exploration for life beyond our planet. Along the way, Knoll brings us up-to-date on some of science's hottest questions, from the oldest fossils and claims of life beyond the Earth to the hypothesis of global glaciation and Knoll's own unifying concept of ''permissive ecology.''
In laying bare Earth's deepest biological roots, Life on a Young Planet helps us understand our own place in the universe--and our responsibility as stewards of a world four billion years in the making.
In a new preface, Knoll describes how the field has broadened and deepened in the decade since the book's original publication.
Andrew H. Knoll is the Fisher Professor of Natural History at Harvard University and a member of the National Academy of Sciences. A paleontologist by training, he has spent more than two decades working to integrate geological and biological perspectives on early life.
"A fascinating book. . . . The catastrophic surface narrative of this impressive and intriguing book would surely have pleased Stephen Jay Gould; but I think its deterministic subtext would have pleased Charles Darwin still more."--Matt Cartmill, Times Literary Supplement
"In a book so well written that nonspecialists and specialists alike will find much to savor, [Knoll] captures both the excitement of scientific discovery and the intricacies of scientific interpretation. . . . Readers interested in substance will certainly not be disappointed."--Publishers Weekly
"Andrew Knoll is an ideal guide through this early phase of life's history on the Earth. . . . [O]ne of the strengths of Knoll's book is that it presents science as the open-ended endeavor that it is.... Life on a Young Planet . .. expresses better than most the bumptious vitality and sheer fun of open-minded research."--Stefan Bengtson, Nature
"Life on a Young Planet stands apart from it predecessors in two fundamental respects. First, Knoll is perhaps the most qualified person to write such an epic: a renaissance man whose text is filled with insightful quotes from authors ranging from Darwin to Dickins to Dyson. . . . Second . . . this book describes the coevolution of life on Earth as an integrated biochemical system that has profoundly and irrevocably changed over time."--Guy M. Narbonne, Science
Table of Contents:
Preface to the New Paperback Edition xi
Chapter 1. In the Beginning? 6
Chapter 2. The Tree of Life 16
Chapter 3. Life's Signature in Ancient Rocks 32
Chapter 4. The Earliest Glimmers of Life 50
Chapter 5. The Emergence of Life 72
Chapter 6. The Oxygen Revolution 89
Chapter 7. The Cyanobacteria, Life's Microbial Heroes 108
Chapter 8. The Origins of Eukaryotic Cells 122
Chapter 9. Fossils of Early Eukaryotes 139
Chapter 10. Animals Take the Stage 161
Chapter 11. Cambrian Redux 179
Chapter 12. Dynamic Earth, Permissive Ecology 206
Chapter 13. Paleontology ad Astra 225
Further Reading 247