Book contents
- Frontmatter
- Contents
- Preface
- Chapter 1 The nature of biotechnology
- Chapter 2 Biomass: a biotechnology substrate?
- Chapter 3 Genetics and biotechnology
- Chapter 4 Bioprocess/fermentation technology
- Chapter 5 Enzyme technology
- Chapter 6 Biological fuel generation
- Chapter 7 Environmental biotechnology
- Chapter 8 Plant and forest biotechnology
- Chapter 9 Animal and insect biotechnology
- Chapter 10 Food and beverage biotechnology
- Chapter 11 Biotechnology and medicine
- Chapter 12 Stem cell biotechnology
- Chapter 13 Protection of biotechnological inventions
- Chapter 14 Safety in biotechnology
- Chapter 15 Public perception of biotechnology: genetic engineering – safety, social, moral and ethical considerations
- Chapter 16 Looking to the future
- Glossary
- Further reading
- Index
Chapter 1 - The nature of biotechnology
Published online by Cambridge University Press: 05 June 2012
- Frontmatter
- Contents
- Preface
- Chapter 1 The nature of biotechnology
- Chapter 2 Biomass: a biotechnology substrate?
- Chapter 3 Genetics and biotechnology
- Chapter 4 Bioprocess/fermentation technology
- Chapter 5 Enzyme technology
- Chapter 6 Biological fuel generation
- Chapter 7 Environmental biotechnology
- Chapter 8 Plant and forest biotechnology
- Chapter 9 Animal and insect biotechnology
- Chapter 10 Food and beverage biotechnology
- Chapter 11 Biotechnology and medicine
- Chapter 12 Stem cell biotechnology
- Chapter 13 Protection of biotechnological inventions
- Chapter 14 Safety in biotechnology
- Chapter 15 Public perception of biotechnology: genetic engineering – safety, social, moral and ethical considerations
- Chapter 16 Looking to the future
- Glossary
- Further reading
- Index
Summary
Introduction
Major events in human history have, to a large extent, been driven by technology. Improved awareness of agriculture and metalworking brought mankind out of the Stone Age, while in the nineteenth century the Industrial Revolution created a multitude of machinery together with increasingly larger cities. The twentieth century was undoubtedly the age of chemistry and physics, spawning huge industrial activities such as petrochemicals, pharmaceuticals, fertilisers, the atom bomb, transmitters, the laser and microchips. However, there can be little doubt that the huge understanding of the fundamentals of life processes achieved in the latter part of the twentieth century will ensure that the twenty-first century will be dominated by biology and its associated technologies.
Societal changes are increasingly driven by science and technology. Currently, the impact of new biological developments must be absorbed not just by a minority (the scientists) but by large numbers of people (the general public). If this does not happen, the majority will be alienated. It is increasingly important to ensure a broad understanding of what bioscience and its related technologies will involve, and especially what the consequences will be of accepting or rejecting the new technical innovations.
The following chapters will examine how the new biotechnologists are developing new therapies and cures for many human and animal diseases; designing diagnostic tests for increasing disease prevention and pollution control; improving many aspects of plant and animal agriculture and food production; cleaning-up and improving the environment; designing clean industrial manufacturing processes; exploring the potential for biological fuel generation; and unravelling the power of stem cell technology.
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- Biotechnology , pp. 1 - 18Publisher: Cambridge University PressPrint publication year: 2009