ebook img

The World’s Greatest Fix: A History of Nitrogen and Agriculture PDF

430 Pages·2004·1.988 MB·English
by  LeighG.J.
Save to my drive
Quick download
Download
Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.

Preview The World’s Greatest Fix: A History of Nitrogen and Agriculture

THE WORLD’S GREATEST FIX 2 THE WORLD’S GREATEST FIX A History of Nitrogen and Agriculture G. J. LEIGH 2004 3 Oxford New York Auckland Bangkok Buenos Aires Cape Town Chennai Dar es Salaam Delhi Hong Kong Istanbul Karachi Kolkata Kuala Lumpur Madrid Melbourne Mexico City Mumbai Nairobi São Paulo Shanghai Taipei Tokyo Toronto Copyright © 2004 by Oxford University Press, Inc. Published by Oxford University Press, Inc. 198 Madison Avenue, New York, New York 10016 www.oup.com Oxford is a registered trademark of Oxford University Press All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior permission of Oxford University Press. Library of Congress Cataloging-in-Publication Data Leigh, G. J. The world’s greatest fix : a history of nitrogen and agriculture / G. J. Leigh. p. cm. Includes bibliographical references ISBN 0-19-516582-9 4 1. Nitrogen fertilizers—History. I. Title. S651.L55 2004 631.8′4—dc22 2003021366 5 To Amelia for all her patience and support, and to Daniel and Hannah, who should never cease to ask why 6 PREFACE Most of my professional life, for about thirty years, was concerned with the chemistry of nitrogen fixation. My involvement began in early 1965 when I received a letter from Joseph Chatt asking me whether I would care to apply for a position in the new Unit of Nitrogen Fixation, which by then had just settled at the first of what was then the latest generation of British universities, at Brighton in Sussex. This Unit was funded by the then Agricultural Research Council (ARC), and its remit was to discover the mechanism of biological nitrogen fixation. This had been perplexing scientists for about 100 years. The intention was to explain how it was possible for bacteria living in temperate or tropical environments to mobilise atmospheric nitrogen when industrially this seemed to require catalysts, temperatures of the order of 400 degrees Centigrade, and pressures of some hundreds of atmospheres. The Unit assembled a multi-disciplinary group of scientists, ranging from inorganic chemists to microbiologists. The Unit developed rapidly, both in size and in the scope of its activities. In time it became a unique establishment where scientists of many different kinds were able to talk to each other, and even to understand one another. Visiting scientists came from all over the world in order to experience the unique atmosphere of the laboratory, the foremost in the world. For 30 years a stream of innovative, fundamental discoveries poured from its researches. 7 It was only towards the end of this period that the funding authorities began to question the value of this research. In the initial stages, the attitude of the ARC was very relaxed: here they had in the Unit some good chaps doing good work, many acknowledged as world authorities, producing a wide range of new knowledge, from inorganic chemistry to biochemistry, molecular biology, and bacterial physiology. During the 1980s and 1990s this laissez-faire attitude changed. The successors to the ARC asked questions about the economic benefits and agricultural applications of our work. It has to be admitted that these were very few, not only from the work in Brighton but also from nitrogen fixation work anywhere else in the world. The Sussex laboratory was wound down and disappeared during the decade of the 1990s. It goes without saying that I personally regretted this change, and I believe that my opinion is due only in part to my advancing age. In the current world, knowledge is rarely valued for itself, and much more often for its commercial potential. Nevertheless, for nearly 30 years my colleagues and I had the immense privilege of studying a challenging problem with a minimum of bureaucratic interference. During this time, I became aware that we were all members of a long line of investigators that stretched back for thousands of years. Each of us saw the problem of soil fertility, expressed for us as the conundrum of biological nitrogen fixation, in a different way, and each of us added a small brick to the imposing edifice that is modern agricultural science. What I have attempted to show in this book is how human beings have solved the problems relating to soil fertility using imagination, ingenuity, and an understanding of how the world works. I also discovered that the story of this work is not just a dry retailing of scientific facts and discoveries. It 8 also shows those involved as real human beings with all the faults, sometimes considerable, of human beings, including jealousy, greed, and even war. This book is dedicated to all of them: maybe their names are beyond recall, but their work remains, with wise use to the benefit of all humankind. We do not yet know how biological nitrogen fixation works at the atomic level. I used to think that with the knowledge of nitrogen chemistry accumulated by inorganic chemists, then, once we knew the structure of typical nitrogenase enzymes, we could simply extrapolate from the chemistry to the structure and say: that’s how it works. We now have all this information, and it is still not obvious how nitrogenases work. Nature is more complex than we imagined. Nevertheless, I hope that this book will show the general reader how challenging, rewarding, and beautiful is science, and will convince them of the vital importance that even lay people should have informed opinions about the impact of science on society. I also hope that the book will stimulate a new generation of researchers to take up the challenge of understanding the beautiful world of biological and chemical science. The benefits to the individuals involved and to human knowledge will be immense. The economic benefits may not yet be evident or measurable, but they are bound, in the course of time, to be considerable. 9 ACKNOWLEDGMENTS I would like to acknowledge the unstinting help of the individuals and institutions listed below. Without their assistance, this book would not have been possible. Any errors in the text are my responsibility alone. I have tried correctly to acknowledge and respect all my sources and copyright obligations, both in the text and in the list below, and I apologise if I have inadvertently ignored or misrepresented anything or anyone. American Cancer Society American Geographical Society Dr. S. Becker, BASF Unternehmensarchiv, Ludwigshafen, Germany Professor R. A. Berner, Yale University, New Haven CT, USA Professor O. Bøckmann, Norsk Hydro A/S, Porsgrunn, Norway Bodleian Library, Oxford, UK Brighton and Hove Local Studies Library, Brighton, UK British Association for the Advancement of Science British Museum, London, UK 10

See more

The list of books you might like

Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.