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The Web of Life: A New Scientific Understanding of Living Systems Audible Audiobook – Abridged

Fritjof Capra (Author), Michael Prichard (Narrator), Macmillan Audio (Publisher)
4.6 out of 5 stars 160 ratings

Fritjof Capra's emerging theory of living systems offers a unified view of mind, matter, and life. Over the past 25 years, scientists have challenged conventional views of evolution and the organization of living systems. They've developed revolutionary theories that have profound implications, not only for science and philosophy, but also for business, politics, health care, education, and everyday life. Fritjof Capra, author of The Tao of Physics, has been at the forefront of this revolution and now, in The Web of Life, he offers a brilliant synthesis of these exciting breakthroughs.

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  1. Listening Length
    3 hours and 20 minutes
  2. Author
    Fritjof Capra
  3. Narrator
    Michael Prichard
  4. Audible release date
    March 31, 2000
  5. Language
    English
  6. Publisher
    Macmillan Audio
  7. ASIN
    B0000544T2
  8. Version
    Abridged
  9. Program Type
    Audiobook
Next slide of product details

Product details

Listening Length 3 hours and 20 minutes
Author Fritjof Capra
Narrator Michael Prichard
Audible.com Release Date March 31, 2000
Publisher Macmillan Audio
Program Type Audiobook
Version Abridged
Language English
ASIN B0000544T2
Best Sellers Rank #65,059 in Audible Books & Originals (See Top 100 in Audible Books & Originals)
#105 in Biology (Audible Books & Originals)
#361 in Evolution (Books)
#575 in Biology (Books)

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4.6 out of 5 stars
160 global ratings

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Customers say

Customers find the book highly readable, with one noting its clear presentation. Moreover, the book serves as an excellent introduction to complex systems, making it suitable for both non-experts and classroom use.

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17 customers mention "Readability"17 positive0 negative

Customers find the book readable and well-written, with one customer noting it is clear and another describing it as a landmark work.

"Awesome book! Needed for grad school" Read more

"...He had done it. Capra's very readable presentation of living systems is still the best of its kind...." Read more

"Well written though some of the vitriol in the beginning turned me off. Science has done much to improve the world...." Read more

"...From the beginning, the book is clear, even for the technically underdeveloped, and patently authoritative in delivering the reader into the new..." Read more

9 customers mention "Intelligence"9 positive0 negative

Customers appreciate the book's approach to complex systems, with one customer noting it's great for non-experts to understand breakthroughs in science, while others find it valuable for their classes.

"...Real intelligence is human, and original, not mechanical and artificial! True intelligence is contextual, as language is...." Read more

"...book is founded on revolutionary scientific insights such as quantum physics, system theory, and holistic analysis that will propel the science of..." Read more

"It's a great introduction to complex systems. The new concepts and ideas are given by live systems much more so than by physics...." Read more

"A great book for non-experts to understand breakthroughs in science. I deeply enjoyed reading it twice...." Read more

Top reviews from the United States

  • Tezbah
    5.0 out of 5 stars Great read!
    Reviewed in the United States on February 27, 2025
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    Awesome book! Needed for grad school
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  • Peter Fritz Walter
    5.0 out of 5 stars Capra's Contribution to Ecoliteracy
    Reviewed in the United States on May 22, 2014
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    'The Web of Life' is the book in which Capra defined his approach to ecology, thereby making ecology, or deep ecology, a concept that is part of a new science paradigm, powerfully introduced and promoted by one of the most important science theorists of our times.

    This book’s quest is enormous in that it requires modern science to fundamentally shift its regard upon nature, and upon living! Our regard upon nature has been conditioned by patriarchy since about five thousand years, and it’s a rather defensive, distorted, schizophrenic, and reductionist regard. Capra looked back in history and found amazing early intuitions and truths propagated by our great thinkers, poets and philosophers, such as for example Immanuel Kant, Johann Wolfgang von Goethe or William Blake.

    Capra wondered why our science and technologies are so deeply hostile toward our globe, which we call Mother Earth after all, and so little caring for its preservation? He found conclusive answers in ancient traditions that fostered what we call today a Gaia worldview, a respectful attitude toward the earth, the mother, the yin energy and generally, female values.
    This is how Capra, always grounded in common sense and meaningful retrospection, smoothly introduces the novice reader to the concept of systems research or the systems view of life.

    Post-matriarchal thought, which was naturally systemic, can be traced from the Atomistic Worldview (Democritus), over the Cartesian Worldview (Newton, La Mettrie, René Descartes) and Relativistic Worldview (Einstein, Planck, Heisenberg), to the Systemic Worldview (Bohm, Bateson, Grof, Capra, Laszlo, etc.) and the Holistic Worldview (Talbot, Goswami, McTaggart, etc.).
    In all systems, we have to deal with different levels of complexity that are woven in each other, thus rendering it almost impossible to dissect parts of the system for closer research without disturbing the system. This means that, contrary to earlier vivisectionist science, we need to leave the system intact and focus our research onto the whole of it—which makes it all so complex, but this very complexity renders justice to nature!

    As a result, we had to develop a new mathematics, which today is called the mathematics of complexity, in order to deal with the high complexity levels in living systems. This also means that our chief scientific method—deductive analysis—is inadequate for any inquiry in the functionality of living systems, because they are networks within networks and can only be grasped scientifically through understanding their properties.

    This means that living systems are not, as most of our governmental and societal organization, hierarchical, but network-based, and thus structured not vertically but horizontally by ‘neuronally’ linking segments to larger molecular structures that distribute information instantly over the whole of the network. You can also say that a living network is a system of ‘total information sharing’ where there is not one single molecule that is uninformed at any point in time and space.

    The fact that horizontal networks are nested within other horizontal networks, while the different networks all possess a different level of complexity, makes research so intricate. This is inter alia why high-performance computers have greatly aided in developing systems theory. But the most revolutionary insight here is that our usual habit of dissecting parts from a whole for further scrutiny and scientific investigation does not work with living systems.

    Hence, the whole of our approach to scientific investigation has to shift from an object-based to a relationship-based research approach when we deal with living systems. This requires researchers to change their inner setup which is exactly what quantum physics revealed to us, that is, the observer’s belief system will be reflected in the outcome of the research.

    And there is one more crucial element in systems research that Capra explains and elucidates. It is what we already learnt within the revolutionary reframing of science by quantum physics, the fact namely that in approaching quantum reality, and organic behavior, we have to learn the mathematics of probability. What is probability? It is the approximation of behavior. Dealing with approximations means that we leave the certainty principle and venture into what Heisenberg called the uncertainty principle. Giving up certainty triggers fear. This fear was very vividly described by Max Planck and Werner Heisenberg when the paradigm began to shift and quantum physics slowly but definitely began to undermine traditional physics. When we abandon certainty, we begin to grasp the notion of approximation, and of probability, and accordingly, we will shift our mathematical constructs when we deal with open systems.

    Living systems are open systems, which means that their main characteristic is change and flow, and not continuity and static behavior. And they are far from equilibrium, which is the single most revolutionary discovery of systems research. It means living systems are constantly struggling against decay, and decay means equilibrium. When we extrapolate this insight from organic systems into our metaphysical reality, we see that it applies also to human beings, and even to religions. When we are settled and satiated, we are not alive. This is what it all boils down to. So this profound insight from systems research may help us to survive in a state far from equilibrium, putting our assuredness or false assuredness away, to stay with a beginner’s mind, as it’s so wistfully expressed in Zen. Our universe is a basically patterned universe, so is human intelligence.
    But what are patterns? Capra explains the importance of pattern when he explores the meaning of self-organization, which is one major characteristic of living systems. In order to scientifically explain pattern we need to change or for the least upgrade our basic toolset of scientific investigation.

    The systems view of life really involves a radical change in our scientific thinking because traditional science was quantity-based and measure-oriented, while systemic science is quality-based and relationship-oriented.

    Capra exemplifies this truth by looking at the properties involved in the scientific focus of both static and systemic science theory. In this context, we should look at feedback loops as an important self-regulatory function in living systems. This is important because without feedback loops, living systems could not be self-organizing.

    Another central point in this book is Capra’s focus upon the intrinsic quality of living systems as nonlinear systems that require, to be understood, an equally nonlinear mathematical approach. One early realization of mathematical nonlinearity was the introduction of the fractal in mathematics. In fact, in my exchanges with the Swiss mathematician Peter Meyer who was the collaborator of Terence McKenna for the realization of the Timewave Zero calculus as a part of Novelty Theory, I learnt that time is a fractal.

    After having elucidated that systems research involves a process-based scientific approach rather than an object-based one, Capra presents the perhaps most important research topic in this book: the reinvestigation of cognition based on the insights from systems research.

    In fact, the whole debate about information processing, vividly criticized in the early writings of think tank Edward de Bono, and the even larger debate about cybernetics make it all clear that cognition is currently in a process of reevaluation.

    In my scientific exploration of emotions, I have revisited our scientific grasp of emotions, as it was coined within a fragmented and reductionist science paradigm. Fritjof Capra comprehensively explains that emotions are not singular elements but coherently organized within a patterned system in which cognition and response are intertwined in a self-regulatory and organic whole.
    The most important fact that systems theory teaches us about cognition is that it does not work like a computer processes information. Information processing, already declared years ago ‘an obsession of modern science’ by Edward de Bono, is quite a misnomer because our brain does not ‘process’ information as a computer does.

    Capra then answers to the debate about artificial intelligence and the myths it creates in the minds of masses of people. Real intelligence is human, and original, not mechanical and artificial!

    True intelligence is contextual, as language is. No computer can understand meaning. A rat’s intelligence is a million times closer to that of man than that of the most powerful and sophisticated computer.

    Now, let us look at what sustainability means in systems research. A system is sustainable when it’s not only functional but also well integrated in a greater continuum so that it has a good prognosis for survival, for continuity.
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  • Darryl Freeland
    5.0 out of 5 stars Capra, Web of Life: Living Systems and Chaos Theory
    Reviewed in the United States on February 2, 2011
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    Having taught Psychology and Marital Family Therapy graduate school for many years, I was immersed in that area of systems thinking, which had in my mind become too mechanical in its applications, missing the individual's unique inner life and the unpredictable and uncertain in living human knowing and choosing. I went searching for material that spoke to that void, material that could be consistent with a Humanistic Existential linked to a depth psychology and philosophy of psychology umbrella. I stumbled onto Chaos Theory and its alternative, Complexity Theory and saw its consistency with living systems, which threw me into the question, What is life? Just when I had read enough to imagine writing at least a paper on some of that material, Fritjof Capra published The Web of Life. He had done it. Capra's very readable presentation of living systems is still the best of its kind. Due to my own limitations, I moved slowly through the mathematics of Chaos/Complexity Theory but, with effort, even that section became accessible. Capra's prior works contain an emphasis that in The Web of Life he names "deep ecology," a welcome and clarifying concept that is a real world concern for anyone who wishes to integrate "the feminine principle" and a Tao sensibility (see his early book, The Tao of Physics). I helped years of new grad students access The Web of Life, which consistently became instrumental in their understanding of natural living human systems. With his brother, Capra's "art house" film, Mindwalk is a plus in understanding what Capra is doing here. His work applying this material to teaching systems thinking to kids as well as to more "mature" people, we well as his later work on ecosystems applied to real world, contemporary concerns makes The Web of Life even more important. I have a habit of ordering copies of the book for people like my University of Florida freshman nephew, Caio, who is chasing early Asian and South American history and thought. Read it and pass it on.
    6 people found this helpful
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  • Katherine
    5.0 out of 5 stars Muy buenas condiciones
    Reviewed in the United States on March 21, 2024
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    El libro llegó en buenas condiciones valió la pena la compra
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  • Susan Serfass doTERRA Wellness Advocate
    4.0 out of 5 stars even as I enjoy the potential in every moment for the unexpected
    Reviewed in the United States on January 13, 2015
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    Well written though some of the vitriol in the beginning turned me off. Science has done much to improve the world. I remain thankful for that, even as I enjoy the potential in every moment for the unexpected. Capra does fill the book with a sense of wonder and awe.
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  • Howard J. Vandersluis
    5.0 out of 5 stars "The Web of Life" by Capra.
    Reviewed in the United States on September 3, 2009
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    "The Web of Life" by Fritjof Capra is a book of break-away thinking for anyone who desires to get out of the trap of old science. From the beginning, the book is clear, even for the technically underdeveloped, and patently authoritative in delivering the reader into the new world of scientific discovery. Major changes in science have occurred beyond the recognition of the embedded educators and many scientists. This book is founded on revolutionary scientific insights such as quantum physics, system theory, and holistic analysis that will propel the science of the new century into realms of discovery and application barely dreamed of in the past century.
    One person found this helpful
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  • crobertsjr55
    5.0 out of 5 stars This is a great book for systems thinkers.
    Reviewed in the United States on October 4, 2020
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    I loved it. It does take a little understanding of math, physics, and such but generally it does explain the parts of these used to support the theories in the book very well. It is a little deeper read. I enjoyed the challenge.
    One person found this helpful
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  • Santiago Roel
    5.0 out of 5 stars Great introduction to complex systems
    Reviewed in the United States on August 24, 2012
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    It's a great introduction to complex systems. The new concepts and ideas are given by live systems much more so than by physics. Anyone trying to understand complexity will find this book a very complete introduction. Again, as in The Tao of Physics, Capra shows us his great talent to translate the complex concepts into clear and easy to understand phrases. It is easy to read and very enjoyable.
    One person found this helpful
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  • Richard Heath
    5.0 out of 5 stars Excellent accessible text about exciting advances in Life Sciences, Cybernetics, Chaos, etc.
    Reviewed in the United Kingdom on December 11, 2024
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    Fritjof Capra's *The Web of Life: A New Scientific Understanding of Living Systems* is a well-produced introduction to a fascinating field which all should find exciting. Since writing this, Capra has co-authored a wonderful but more weighty textbook, *The Systems View of Life". Capra route is now mainstream: from Web (popular account) to The Systems View (for a comprehensive and scientific text). Bought another for a friend.
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  • Damon Anderson
    5.0 out of 5 stars Please read this book.
    Reviewed in Canada on April 30, 2024
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    A beautiful and scientific yet spiritual book about possibilities and perspectives of life, if you enjoyed The Tao of Physics you will enjoy this (if you haven't read it you should). My thanks to the author for fascinating perspectives, I very much enjoyed both this and the other mentioned book of his.
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  • Avi
    5.0 out of 5 stars Very attractive topics and unputdownable
    Reviewed in India on June 16, 2024
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    The book contents rear blending of abstract systems to the essence of life..
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    Avi
    5.0 out of 5 stars
    Very attractive topics and unputdownable

    Reviewed in India on June 16, 2024
    The book contents rear blending of abstract systems to the essence of life..
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  • Philippe
    5.0 out of 5 stars super
    Reviewed in France on September 5, 2012
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    un très bon ouvrage

    Un des rares qui réussit avec succès et clarté, à lier science et vision unifiée du monde.
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  • Erich Krug
    5.0 out of 5 stars inorganic life
    Reviewed in Germany on May 3, 2015
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    This book is one of the most important of my books.
    It gives an impression of the importance of the conception of live in nature.
    It should lead to the understanding of the even more important conception of inorganic life in cosmos. [...].
    The universe as a whole is an inorganic living body, with a total livetime of about 28 billion years.
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