100 Books Like Cat Zero

This book comes at biology from an unusual angle, ignoring fine details and instead of going for the deepest underlying principles of life as seen by a dyed-in-the-wool theoretician. When I read it, I felt I was like being given 'X-ray specs' - an ability to see beyond the surfaces at which we mostly work to hidden mechanisms of order, control, and evolution. I have never seen biology the same way since, and this book changed my research and teaching immediately and lastingly. The writing is superb but still demands concentration and commitment because the concepts may be alien at first, but any reader willing to give the book time and a bit of effort will be richly rewarded.

We, who live in one clearly delineated body, think we know what an organism is. Social insects challenge this, making us wonder whether the organism is the ant or the anthill. This book, about how individuals add together to make a new being at a larger scale, is fascinating for biology but also nudges us, as readers, to ask questions about what lives are being led within us, by all the cells that make us, and also whether we are ourselves part of a being so much larger than ourselves we cannot see it for what it is any more than one ant can see the colony for what it is. Reading this made me much more open to the idea of multiple, nested levels of being.

This book presents a fascinating theory that life created an atmosphere favorable to life. The sun is much hotter than when life began. Life kept the temperature beneficial to life by removing greenhouse gasses from the air. Organisms created an atmosphere high in oxygen.

The book is exciting and educates the reader on the interaction of life and the geophysical environment. This book is relevant to and influenced my theory that all species increase biodiversity, the theory about which I wrote the two books I am featuring here.

When I was an undergraduate, the editor of Nature called this book "the best candidate for burning there has been for many years". I therefore rushed out to buy a copy to see why, and I have treasured the book and recommended it ever since. Almost every idea between its covers is wrong, but marshalling evidence to refute the ideas makes readers ask the most fundamental questions about biology and why they believe what they do. I am eternally grateful to Sheldrake for making me justify my opinions properly, with evidence, not just because they were what I read or heard in some classroom. And he will do the same for anyone else: heretics like Sheldrake are really important for testing mainstream science.

Of the various books available on this subject, I very much prefer this one because it makes it far easier to do systems biology.

First, it shows you how to view biological regulatory processes as a set of interacting components and their effect on each other. This alone can give clues to the behaviour of the system under different circumstances. However, it then goes on to show how these processes can be defined mathematically, which then enables us to get a quantitative view of what is going on.

When the predicted and observed numbers don’t match, we know that there is a gap in our knowledge and, hence, the place to discover new biology. Using this approach, I have.

The traditional neo-Darwinian view of evolution understands inheritance in genetic terms, as the transmission of DNA from parents to offspring. Jablonka and Lamb argue convincingly that in addition to genetic inheritance, there exist three other inheritance systems in nature – epigenetic, symbolic, and behavioural – all of which play an important role in evolution. The book is not a work of philosophy in the strict sense, but rather a fascinating and conceptually-rich synthesis of a diverse body of empirical findings which, the authors argue, can only be accommodated by going beyond a purely geno-centric view of evolution.

The air we breathe and the water we drink are wild with microbes! This book tells amazing true tales about the personal microbes in our home, and how a space station lacked important microbes because no astronaut was female.

I love how some experiments failed the first time, but then revealed amazing finds. The same epidemiology that showed the cause of cholera now reveals “diseases of absence” of the microbes we need to protect us from asthma and food allergies. And our best drinking water contains microscopic crustaceans.

I learned so much about our body’s live-in microbes.

This book is an engaging treatment of philosophical issues in biology, with a strong though not exclusive focus on evolution. Written by two leading practitioners, the book continues to be an excellent entry point into the subject despite being more than 20 years old. For any reader of my own book who wants more detail, Sterelny and Griffiths’ text is ideal. Chock full of real-life examples, the book offers an excellent model of how philosophy can engage with biology. Topics discussed include function and adaptation, reductionism, levels of selection, the “selfish gene” theory, and more. 

Thomas captured the beauty and mystery of nature and science—how billions of cells in our body work intricately together to form tissues and organs that make us breathe, move, see, think, and fight infections, and how the world itself is analogous to one big cell.

I was amazed to understand the extraordinary complexities of Nature—how ants plan, communicate, and build farms, how our noses smell, how our eyes see and communicate to our brains, and how we hear and appreciate music.

People need less Dawkins in their lives and more Lewontin, whose thought-provoking, accessible writing about evolutionary biology stands in fierce opposition to the trend toward genetic determinism that seems to be the rage nowadays. We are not simply our genes, Lewontin says, because the effects DNA has on our lives are mediated by social and environmental factors, many of which we can influence. While it’s nominally about biology, I also read this as a critique of causal inference, generally. What we consider a “cause” reveals our ideological commitments to certain aspects of the world being maintained, and we should be careful what causal lessons we draw from data.