This highly praised textbook and reference work examines the basic elements of living systems: energy, chemistry, solvents, and habitats in crucial depth. These elements define the opportunities and limitations for life on other worlds. The book argues that life forms we would recognize may be more common in our solar system than many assume. It also considers, however, the possibility of exotic forms of life based on chemistries other than carbon, liquids other than water, and energy other than light. The authors offer an operational definition of life and summarize prevailing thoughts on plausible pathways for its origin on Earth and other worlds. They discuss remarkable adaptations to extreme environments, the nature and detection of biosignatures and possible technosignatures, the future and fate of living systems, and suggestions for the optimization of future exploratory space missions.
The entire text has been thoroughly updated in this fourth edition, with special focus on exoplanets, robotic exploration, synthetic life, detection of life, and life in extreme environments. New sections have been added on international space initiatives, updated plans for human missions to the Moon and Mars, the Fermi Paradox, and current controversies in astrobiology.
The growing impact of artificial intelligence on robotic exploration of the universe and the coevolution of organic and mechanical forms of life in the future are considered. While informed speculation in this emerging field cannot be avoided, the authors have clearly distinguished between known facts and reasonable expectations. They present an objective assessment of the plausibility of life on other worlds that is broad and deep enough for advanced students and experts in astrobiology, while avoiding scientific jargon as much as possible to make this intrinsically interdisciplinary subject understandable to a broad range of readers.
This highly praised textbook and reference work examines the basic elements of living systems: energy, chemistry, solvents, and habitats in crucial depth. These elements define the opportunities and limitations for life on other worlds. The book argues that life forms we would recognize may be more common in our solar system than many assume. It also considers, however, the possibility of exotic forms of life based on chemistries other than carbon, liquids other than water, and energy other than light. The authors offer an operational definition of life and summarize prevailing thoughts on plausible pathways for its origin on Earth and other worlds. They discuss remarkable adaptations to extreme environments, the nature and detection of biosignatures and possible technosignatures, the future and fate of living systems, and suggestions for the optimization of future exploratory space missions.
The entire text has been thoroughly updated in this fourth edition, with special focus on exoplanets, robotic exploration, synthetic life, detection of life, and life in extreme environments. New sections have been added on international space initiatives, updated plans for human missions to the Moon and Mars, the Fermi Paradox, and current controversies in astrobiology.
The growing impact of artificial intelligence on robotic exploration of the universe and the coevolution of organic and mechanical forms of life in the future are considered. While informed speculation in this emerging field cannot be avoided, the authors have clearly distinguished between known facts and reasonable expectations. They present an objective assessment of the plausibility of life on other worlds that is broad and deep enough for advanced students and experts in astrobiology, while avoiding scientific jargon as much as possible to make this intrinsically interdisciplinary subject understandable to a broad range of readers.
Dirk Schulze-Makuch
astrobiology textbook astrobiology reference book exobiology book search for extraterrestrial life biosignatures of life origin of life definition of life extremophilic life exotic types of life synthetic life artificial life adaptation to environment evolution of life life detection Planetary Habitability