Verlag | Oxford University Press |
Auflage | 2022 |
Seiten | 176 |
Format | 11,3 x 0,9 x 17,5 cm |
Print PDF | |
Gewicht | 150 g |
Artikeltyp | Englisches Buch |
Reihe | Very Short Introduction |
EAN | 9780192895240 |
Bestell-Nr | 19289524EA |
This Very Short Introduction explores the nature of bacteria, their origin, evolution, and relationship to the environment to demonstrate the fundamental role they play in our existence. This new edition examines the symbiotic relationship between the human body and bacteria, including their role in disease, wellness, and evolutionary development.
Very Short Introductions: Brilliant, Sharp, Inspiring
Bacteria form a fundamental branch of life. They are the oldest forms of life as we know it, and they are still the most prolific living organisms. They inhabit every part of the Earth's surface, its ocean depths, and even terrains such as boiling hot springs. They are most familiar as agents of disease, but benign bacteria are critical to the recycling of elements and all ecology, as well as to human health.
In this Very Short Introduction, Sebastian G. B. Amyes explores the nature of bacteria, their origin and evolution, bacteria in the environment, and bacteria and disease. In this new edition, he examines the ethical implications of synthetic bacteria, the evolving technologies used to combat antibiotics resistance, and the role bacteria play in the evolutionary development of humans.
ABOUT THE SERIES: The Very Short Introductions series from Oxford University Press contains hundreds of titles in almo st every subject area. These pocket-sized books are the perfect way to get ahead in a new subject quickly. Our expert authors combine facts, analysis, perspective, new ideas, and enthusiasm to make interesting and challenging topics highly readable.
Inhaltsverzeichnis:
Preface
1: Origins
2: Evolution
3: Microbiota and microbiome in man
4: Discovery
5: Environment and civilization
6: Bacterial pathogenesis
7: Antibiotics
8: Antibiotic resistance
9: The future
Further reading
Index