201 202
202 203
203 204
204 205
205 206
206 207
207 208
208 209
209 210
210 211
211 212
212 213
213 214
214 215
215 216
216 217
217 218
218 219
219 221
220 222
221 223
222 224
223 225
224 226
225 227
226 228
227 229
228 230
229 231
230 232
231 233
232 234
233 235
234 236
235 237
236 238
237 239
238 240
239 241
SCIENCES
Biology, Field Director – Marie-Christine Maurel
Xenobiology, Exobiology, Astrobiology, Origins of Life, Subject Heads – Marie-Christine Maurel and Marc Ollivier
The Explosion of Life Forms
Living Beings and Morphology
Coordinated by
Georges Chapouthier
Marie-Christine Maurel
First published 2020 in Great Britain and the United States by ISTE Ltd and John Wiley & Sons, Inc.
Apart from any fair dealing for the purposes of research or private study, or criticism or review, as permitted under the Copyright, Designs and Patents Act 1988, this publication may only be reproduced, stored or transmitted, in any form or by any means, with the prior permission in writing of the publishers, or in the case of reprographic reproduction in accordance with the terms and licenses issued by the CLA. Enquiries concerning reproduction outside these terms should be sent to the publishers at the undermentioned address:
ISTE Ltd
27-37 St George’s Road
London SW19 4EU
UK
John Wiley & Sons, Inc.
111 River Street
Hoboken, NJ 07030
USA
© ISTE Ltd 2020
The rights of Georges Chapouthier and Marie-Christine Maurel to be identified as the authors of this work have been asserted by them in accordance with the Copyright, Designs and Patents Act 1988.
Library of Congress Control Number: 2020937596
British Library Cataloguing-in-Publication Data
A CIP record for this book is available from the British Library ISBN 978-1-78945-005-7
ERC code:
LS8 Ecology, Evolution and Environmental Biology
LS8_6 Phylogenetics, systematics, comparative biology
LS8_7 Macroevolution, paleobiology
Introduction
Georges CHAPOUTHIER1 and Marie-Christine MAUREL2
1 ICM-CNRS, Paris, France
2 ISYEB-CNRS-MNHN, Sorbonne University, Paris, France
One of the essential characteristics of living beings, perhaps the most important, is an explosion of their forms, linked to the extreme diversity of environments to which they have been able to adapt. It is precisely the multiplicity of these astonishing morphologies, in all its facets, that this book aims to explore.
Of course, this diversity is rooted in the very origin of life itself, as Marie-Christine Maurel relates. The diversity of physical and chemical conditions on Earth during the Hadean period, as well as the diversity of planets and the multiple bodies of the solar system, may have led to the formation of molecules, organizations and protocells with a wide variety of shapes and metabolisms. The different chemical elements of the primitive ocean and fossil traces from the first stromatolites could provide evidence of this. Thus, biodiversity is original and current research is discovering multiple ways of “existing”, far from a standardized vision of life.
These considerations lead, of course, to the great founding question: what is life? This is what Andreas Losch tries to answer. If it is clear that, in the final analysis, living matter can be summed up as creations of physics and chemistry, and if it is true that there is no such thing as a mysterious “vital principle”, would life not then find its specificity precisely in the very explosion of its forms? But then a question of language arises. What we call “life” in everyday language, what we have an existential experience of, is not necessarily what life is at the scientific level, where material bases matter more than forms. As with other complex concepts, “life” is in fact an ill-defined combination of properties that mineral substances do not possess, where form plays a key role, and “words to describe it” are still missing. Indeed, how will “robots” and other machines describe it in a few decades?
In living beings that are already constituted, form becomes, as Jean-Pierre Gasc shows, a means of knowledge. From Aristotle to Cuvier, function is interpreted in relation to morphology. Nowadays, more emphasis is placed on the weight of the physical framework, which suggests that form is an adaptation to environmental constraints, as evidenced for example by the symmetry of bilaterians, the appearance of even appendages (allowing “‘appendicular’ movement on land”) or the “cephalization” of mobile animals. In the second chapter, Jean-Pierre Gasc recalls the central role of the theses of the Scottish zoologist D’Arcy Wenworth Thompson, in his famous book On Growth and Form, which holds “an almost legendary place in scientific literature” and which makes