Life's Matrix by Philip Ball

Water is a chemical essential to human life and culture, and it is possibly the oddest common substance. Physicist and science writer Philip Ball describes the nature of water, both scientific and cultural, in Life’s Matrix (originally published in the United Kingdom as H2O: A Biography of Water).

Ball begins at the very beginning—the big bang. Hydrogen, the simplest atom and most abundant element in the universe, appeared early in the universe. Oxygen is forged in stars and has become the third most abundant element. There is water in space. Ice seems to be common in the far reaches of the solar system. It has been found on the moon and stars and a few molecules appear in the cooler spots on the sun.

We have found no worlds yet that have as much liquid water as ours. The water cycle has shaped Earth. Our weather comes largely from the interplay of water and energy. Even the water locked up in the ice of our poles and glaciers shape the land, influence the weather, and affect the movement of heat, water and salt in ocean currents.

Ball tackles all phases of water, including a few exotic forms that only occur in extreme conditions created in laboratories. That water exists as vapor, liquid, and solid within the fairly narrow range of temperatures that are common on Earth make it unique. This is just one of its unusual properties. The structure of the water molecule is described in the book along with the physics that explain its behavior, to the degree that such things are even known.

Our understanding of water as a compound of hydrogen and oxygen is a relatively recent thing. For a long time, water was thought of as an irreducible element. This makes sense on some level. Water is essential to life as we know it. It is irreplaceable. From the perspective of living creatures, and in almost every culture, water is a fundamental material.

In the final chapter, Ball moves away from the hard sciences to culture, economics and policy. Water of the quality needed for drinking, and even the lesser quality needed for other things, is scarce and unevenly distributed on the planet. To take a serious look at water is to be drawn to issues of health and wealth. Growing population and changing climate will put increased demands on the available fresh water, and we need to consider how we are going to manage it. Ball takes a look at some of the hot spots.

The book is intended for a broad audience. I think it is probably more accessible to someone with some education in the sciences, especially chemistry or physics, but someone had a high-school level class in these subjects they should be able to follow along.

In addition, the book is 16 years old, so necessarily out of date in some respects. I suspect that much of the physics, chemistry and biology described is still sound. Similarly, there is unlikely to be discoveries in history that would seriously outdate the book, even in the interesting section on dead ends and “pathology” in water science.

If you’re interested in this book, you may also be interested in

The Big Necessity by Rose George

The Big Thirst by Charles Fishman

Blue Revolution by Cynthia Barnett

Canals and Their Architecture by Robert Harris

Elixir by Brian Fagan

The Ghost Map by Steven Johnson

The Invention of Air by Steven Johnson

Water by Marq de Villiers

Water by Steven Solomon

When the Rivers Run Dry by Fred Pearce

Ball, Philip. Life’s Matrix: A Biography of Water. 1999. New York: Farrar, Straus and Giroux, 2000.

When the Rivers Run Dry by Fred Pearce

I originally posted this review at Infrastructure Watch, where I write about infrastructure and the environment.

Pearce, Fred. When the Rivers Run Dry: Water—The Defining Crisis of the Twenty-first Century. Boston: Beacon, 2006.

Mankind’s attempts to harness rivers have had unintended consequences. Schemes to make land more productive have created deserts. Crops on drained land have produced less food and value than the swamps they displaced. Rivers hemmed in to prevent flooding have flooded more frequently and worse than before.

Pearce isn’t against technology. He sometimes expresses admiration for the dams, canals and other engineering feats about which he writes. However, he’s not impressed when this technology deprives people of the water and wealth it was intended to provide.

Water and wealth is a connection Pearce often makes. For all the lip service paid to the social benefits of grand water schemes, the water tends to go where the money is.

Overall, the world has become more water poor. The poorest have generally lost the most.

In spite of the history, Peace sees hope in the potential of technology that works with the water cycle instead of against it. It is already happening on a small scale where ancient where people are reviving ancient methods of capturing rainwater. Indian farmers are adapting dessert containers for use as a cheap, and more efficient, drip irrigation pipe. On the large scale, river engineers are cutting levees, restoring wetlands and allow river to return to curvy courses. In agriculture, the biggest user and waster of water in much of the world, there is a move to crops that are more appropriate to the locally available rainfall and less dependent on irrigation. Even in Los Angeles, a city known for the lengths it has gone to in order to quench its great thirst in a dry land, activist are seeking to create a more porous city that captures and uses the water that falls there naturally.

To illustrate his points, Pearce travels the world to see the disastrous results of bad water management, the extreme example being the disappearing Aral Sea. He also points out what works, like a restored qanat in Iraq.

You can order this book here.

If you’re interested in this book, you may also be interested in Water by Marq de Villiers.