The revolutionary genius of plants A new understanding of plant intelligence and behavior

Stefano Mancuso

Book - 2018

"Do plants have intelligence? Do they have memory? Are they better problem solvers than people? Plants make up 80 percent of the weight of all living things on earth, and yet it is easy to forget that these innocuous, beautiful organisms are responsible for not only the air we breathe, but for many of our modern comforts: our medicine, food, even our fossil fuels. Now, Stefano Mancuso, one of the world's foremost experts on plant neurobiology, reveals the surprisingly sophisticated ability of plants to innovate, to remember, and to learn, highlighting the creative solutions plants offer to the most vexing technological and ecological problems that face us today. Despite not having brains or central nervous systems, plants perceive... their surroundings with an even greater sensitivity than animals. They efficiently explore and react promptly to potentially damaging external events thanks to their cooperative, shared systems; without any central command centers, they are able to remember prior catastrophic events and to actively adapt to new ones. [This book] is packed with eye-opening research that makes it more and more clear how remarkable our fellow inhabitants on this planet really are. on this planet really are. Consider the Victoria amazonica, whose leaf arrangement allows it to grow to more than two feet in diameter while floating on water, a unique construction that has inspired the design of numerous landmark human structures, from Victorian London's Crystal Palace to Eero Saarinen's graceful Terminal 5 at New York's JFK airport. Or, the tree genus Acacia in Africa and Latin America, which uses its addictive extrafloral nectar to mobilize an army of ants in its defense against predators, even those as large as an elephant. Or, the Boquila trifoliolata--the most accomplished mimic in nature--a vine that can change the size, shape, and color of its leaves to copy the leaves of the host species it climbs, even mimicking two or three other types of leaves at the same time. Making the complicated science of plants wonderfully accessible, The Revolutionary Genius of Plants opens our minds to a new understanding of life on earth."--Jacket.

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Subjects
Published
New York : Atria Books, an imprint of Simon & Schuster, Inc 2018.
Language
English
Italian
Main Author
Stefano Mancuso (author)
Other Authors
Vanessa Di Stefano (translator)
Edition
First Atria books hardcover edition
Item Description
"Originally published in Italy in 2017 by Giunti Editore S.p.A. as Plant Revolution : le piante hanno già inventato il nostro futuro."
Physical Description
xii, 225 pages : illustrations (chiefly color) ; 24 cm
Bibliography
Includes bibliographical references (pages 205-212) and index.
ISBN
9781501187858
  • Preface
  • Chapter 1. Memories Without A Brain
  • Chapter 2. Moving Without Muscles
  • Chapter 3. The Sublime Art of Mimesis
  • Chapter 4. Green Democracies
  • Chapter 5. The Capsicophagous and Other Slaves of Plants
  • Chapter 6. Archiplants
  • Chapter 7. Living Without Freshwater
  • Chapter 8. From Plants To Plantoids
  • Chapter 9. Space Plants
  • References And Sources
  • Photo Credits
  • Index
Review by Library Journal Review

People tend to dismiss plants as stationary and unaware things, but this book offers plenty of proof that they are fascinating, intelligent beings. Mancuso (director, International Laboratory of Plant Neurobiology; Rhythms in Plants) summarizes various research in this translated work. It is difficult to compare a human body to a plant body because of our obvious differences, such as a plant does not have a central brain. Yet, plants have continued to thrive and evolve throughout time by communicating in ways that we're still discovering. Mancuso explains these complexities in comprehensive examples. The chapter on "Green Democracies" is particularly helpful, as the author relates a plant's decision-making process to that of bees selecting a new hive location or people voting. The text is full of optimism despite population and environmental concerns: Mancuso demonstrates how necessary plants are for our future survival as well as how researchers are harnessing that power now, even in the ocean and outer space. Those in the science field should feel encouraged, if not excited, by the possibilities. VERDICT This quick, accessible read will appeal to anyone with an interest in how plants continue to surprise us.-Elissa Cooper, Helen Plum Memorial Lib., Lombard, IL © Copyright 2018. Library Journals LLC, a wholly owned subsidiary of Media Source, Inc. No redistribution permitted.

(c) Copyright Library Journals LLC, a wholly owned subsidiary of Media Source, Inc. No redistribution permitted.
Review by Kirkus Book Review

An entertaining introduction to the wonderful world of plants, which "exhibit unmistakable attributes of intelligence."Although lacking a brain and immobile, plants are smart, flexible, durable, and innovative, writes Mancuso (Plant Neurobiology/Univ. of Florence; Measuring Roots: An Update Approach, 2011, etc.) in this lively, enthusiastic, expert, and convincing overview. Animals move fast and possess highly efficient specialized organsheart, lungs, brainbut, according to the author, these are overrated. "We have discovered that plants breathe with their whole body, feel with their whole body, and evaluate with their whole body. Spreading each function over the entire organism as much as possible is the only way to survive predation, and plants do it so well that they can even withstand removal of much of their body without losing functionality." A sheep can survive the loss of its hair but not its heart or kidneys; losing its legs would likely be fatal, yet we mow our lawns and prune our trees without a thought. Sixty percent of the calories humans consume come from wheat, corn, and rice. We believe that we have domesticated plants, but Mancuso suggests that they have domesticated us. Even our concept of an "individual" makes little sense when applied to plants, whose reiterated architectural units resemble a colony. Splitting a plant often produces two plants, but no one would think of doing that to an animal. Mancuso has not written a popular textbook on botany but rather a series of unconnected portraits (both textual and visual) of often amazingly wacky plants and their behavior, accompanied by essays on the equally impressive ways in which they deal with their environment (some have eyes, and they display a "clear capacity of memory"), defend themselves, and flourish despite being stuck in one place.A pleasantly persuasive argument that plants are no less fascinating than animals. Copyright Kirkus Reviews, used with permission.

Copyright (c) Kirkus Reviews, used with permission.

The Revolutionary Genius of Plants Preface It is my impression that most people don't really understand how important plants are for human existence. Of course, everyone knows--or at least I hope they do--that we are able to breathe because of the oxygen produced by plants and that the entire food chain, and thus the food that nourishes all animals on earth, relies on plants. But how many people realize that oil, coal, gas, and all the so-called nonrenewable energy resources are nothing more than another form of energy from the sun that was trapped by plants millions of years ago? Or that the active ingredients in many of our most important medicines come from plants? Or that wood, with all its amazing characteristics, is still the most widely used building material in much of the world? Our lives, as well as those of every other animal on this planet, depend upon the plant world. You might think that we would already have discovered everything there is to know about organisms that are so important to the survival of mankind and on which a large part of our economy depends, but we're nowhere near that point. For example, in 2015 alone, 2,034 new plant species were discovered, and they were not microscopic plants that had somehow escaped the eyes of botanists. One of them, the Gilbertiodendron maximum, is a tree native to the Gabonese rain forest that is about 150 feet tall, with a trunk that can stretch to 5 feet in diameter, and that can weigh over 100 tons. And 2015 was not unusual; over the past decade, the number of new plant species discovered has exceeded 2,000 each year. Uses for more than 31,000 different species have been documented, including nearly 18,000 that have medicinal applications; 6,000 in our food supply; 11,000 in textile fibers and building materials; 1,300 for social purposes (including in religious rites and as recreational drugs); 1,600 as energy sources; 4,000 as food for animals; 8,000 for environmental purposes; and 2,500 as poisons. The sums soon add up: about a tenth of all plant species have an immediate use for humankind. Even if we recognize the central role plants play in our everyday lives--from the coffee in our cups to this book in your hands--the things that plants can teach us are less well understood. From materials to energy autonomy, from resistance capacity to adaptation strategies, from time immemorial plants have already provided the best solutions to most of the problems that afflict humanity. Between four hundred million and one billion years ago, unlike animals, which had to move around to find their food, plants took an evolutionarily opposite direction: they remained in place, getting all the energy necessary to survive from the sun and adapting their bodies to resist predation and outmaneuver the other innumerable constraints arising from being rooted to the ground. That was no easy task. Think how difficult it would be to stay alive in a hostile environment without the ability to move. Imagine you are a plant, surrounded by insects, herbivorous animals, and predators of all kinds, unable to escape from them. The only way to survive would be to become virtually indestructible. To counteract the problems associated with predation, plants have evolved in unique and unusual ways, developing solutions so different from those of animals that they have become the very epitome of diversity (indeed, plant species are so diverse that they might as well be aliens). Many of the survival solutions developed by plants are the exact opposite of those developed by the animal world. What is white for animals is black for plants and vice versa. Animals move, plants do not; animals are fast, plants are slow; animals consume, plants produce; animals make CO2, plants use CO2. But the most decisive contrast is also the least known: the difference between concentration and diffusion. Any function that in animals is concentrated in specialized organs is spread throughout the entire body of plants. This is a fundamental structural reason for why plants appear so different from us. Our approach to engineering and design has typically been to replace, expand, or improve existing human functions. Humans have always attempted to replicate the basics of animal organization in the construction of their instruments. Take the computer, for example. It is based on ancestral schemata: a processor, which represents the brain and has the function of governing the hardware, plus hard drives, RAM for speeding access to memory, video, and sound cards. Everything that man designs tends to have, in a more or less overt way, a similar structure: a central brain that governs the organs that perform its commands. Even our societies are based on this same centralized, hierarchic, and archaic design, a model whose only advantage is to provide quick responses--not always correct ones--but that is very fragile and, as we shall see, not innovative or always effective. Even though they have nothing akin to a central brain, plants exhibit unmistakable attributes of intelligence. They are able to perceive their surroundings with a greater sensitivity than animals do. They actively compete for the limited resources in the soil and atmosphere; they evaluate their circumstances with precision; they perform sophisticated cost-benefit analyses; and, finally, they define and then take appropriate adaptive actions in response to environmental stimuli. Plants embody a model that is much more durable and innovative than that of animals; they are the living representation of how stability and flexibility can be combined. Their modular, diffused construction is the epitome of modernity: a cooperative, shared structure without any command centers, able to flawlessly resist repeated catastrophic events without losing functionality and adapt very quickly to huge environmental changes. The complex anatomic organization and key features of plants require a well-developed sensory system that enables the organism to efficiently explore the environment and react promptly to potentially damaging events. In order to exploit environmental resources, plants make use of, among other things, a refined root system made up of apexes able to detect and monitor concurrently and continuously at least fifteen different chemical and physical parameters in the soil. It is no coincidence that the Internet, the very symbol of modernity, is built like a root system. When it comes to robustness and innovation, nothing can compete with plants. Their way of functioning is a useful model, especially in an age when the ability to perceive change and find innovative solutions has become a requirement for success. We would do well to bear this in mind when planning for our future as a species. Excerpted from Revolutionary Genius of Plants: How Plants Have Already Invented Our Future by Stefano Mancuso All rights reserved by the original copyright owners. Excerpts are provided for display purposes only and may not be reproduced, reprinted or distributed without the written permission of the publisher.