ISBN Deadly Companions ( How Microbes Shaped our History ) book English Paperback 272 pages
door Crawford, Dorothy H. (Professor of Medical Microbiology and Assistant Principal for the Public Understanding of Medicine, University of Edinburgh)
Incl. BTW - Gratis verzenden
Vind je dit product leuk? Verspreid het nieuws!
€ 10,98 incl. btw
Alleen 1 items beschikbaar Alleen 4 items beschikbaar
1 Aanbieding voor € 13,71
Verkocht door Dodax EU
€ 13,71 incl. btw
Levering: tussen 2021-05-14 en 2021-05-18
Ever since we started huddling together in communities the story of human history has been inextricably entwined with the story of microbes. They have evolved and spread amongst us shaping our culture through infection disease and pandemic. At the same time our changing human culture has itself influenced the evolutionary path of microbes. Dorothy H. Crawford here shows that one cannot be truly understood without the other. Beginning with a dramatic account of the SARS pandemic at the start of the 21st century she takes us back in time to follow the interlinked history of microbes and man taking an up-to-date look at ancient plagues and epidemics and identifying key changes in the way humans have lived - such as our move from hunter-gatherer to farmer to city-dweller â€” which made us vulnerable to microbe attack. Showing how we live our lives today â€” with increasing crowding and air travel â€” puts us once again at risk Crawford asks whether we might ever conquer microbes completely or whether we need to take a more microbe-centric view of the world. Among the possible answers one thing becomes clear: that for generations to come our deadly companions will continue to shape human history. Oxford Landmark Science books are 'must-read' classics of modern science writing which have crystallized big ideas and shaped the way we think.
Crawford, Dorothy H. (Professor of Medical Microbiology and Assistant Principal for the Public Understanding of Medicine, University of Edinburgh)
21 black & white illustrations
0.194 x 0.128 x 0.022 m; 0.2 kg