Here are 100 books that Metazoan Life without Oxygen fans have personally recommended if you like
Metazoan Life without Oxygen.
Shepherd is a community of 12,000+ authors and super readers sharing their favorite books with the world.
Evolution is the most general theory of biology that we have. I seek to employ evolutionary principles to provide a predictive framework for both current ecological interactions and interactions that occurred earlier in the history of life. A generation ago, the study of cooperation was revolutionized by the deceptively simple notion of “follow the genes.” Embracing another simple notion—follow the electrons—can have an equally large effect in illuminating cooperation. Connecting evolutionary biology to biochemistry, however, remains a challenge—many evolutionary biologists dislike biochemistry and are much more comfortable with the informational aspects of life (e.g., genes). The below “best books on bioenergetics” can help to bridge this gap.
A comprehensive and very readable biography of oxygen, its scientific study, and its role in the history of life on Earth.
The “big picture” view is grounded in numerous anecdotes of individual scientists’ work. The relevant scientific history blends nicely with the history of life. Throughout, we see oxygen generated by oxygenic photosynthesis, consumed by oxidative phosphorylation, with leftovers drifting up into the atmosphere to eventually produce the planet that supports human civilization and much else besides.
Oxygen has had extraordinary effects on life. Three hundred million years ago, in Carboniferous times, dragonflies grew as big as seagulls, with wingspans of nearly a metre. Researchers claim they could have flown only if the air had contained more oxygen than today - probably as much as 35 per cent. Giant spiders, tree-ferns, marine rock formations and fossil charcoals all tell the same story. High oxygen levels may also explain the global firestorm that contributed to the demise of the dinosaurs after the asteroid impact. The strange and profound effects that oxygen has had on the evolution of life…
The Victorian mansion, Evenmere, is the mechanism that runs the universe.
The lamps must be lit, or the stars die. The clocks must be wound, or Time ceases. The Balance between Order and Chaos must be preserved, or Existence crumbles.
Appointed the Steward of Evenmere, Carter Anderson must learn the…
Evolution is the most general theory of biology that we have. I seek to employ evolutionary principles to provide a predictive framework for both current ecological interactions and interactions that occurred earlier in the history of life. A generation ago, the study of cooperation was revolutionized by the deceptively simple notion of “follow the genes.” Embracing another simple notion—follow the electrons—can have an equally large effect in illuminating cooperation. Connecting evolutionary biology to biochemistry, however, remains a challenge—many evolutionary biologists dislike biochemistry and are much more comfortable with the informational aspects of life (e.g., genes). The below “best books on bioenergetics” can help to bridge this gap.
So, how is oxygen involved in bioenergetics? Perhaps remarkably, the modern view of bioenergetics only recently emerged in the closing decades of the 20th century.
As related in this volume, the chemiosmotic hypothesis of Peter Mitchell roiled the field of bioenergetics and led to the nearly two-decade “oxphos wars.” In the end, the chemiosmotic hypothesis was triumphant, and bioenergetics became the study of building and harnessing trans-membrane ion gradients.
In this context, oxygen takes its place as a terminal electron acceptor, which by facilitating electron flow through the electron transport chain, helps to build the trans-membrane proton gradient. There are, of course, quite a few other actual or potential terminal electron acceptors, and there is much more in this volume about how organisms move electrons around to convert energy.
Evolution is the most general theory of biology that we have. I seek to employ evolutionary principles to provide a predictive framework for both current ecological interactions and interactions that occurred earlier in the history of life. A generation ago, the study of cooperation was revolutionized by the deceptively simple notion of “follow the genes.” Embracing another simple notion—follow the electrons—can have an equally large effect in illuminating cooperation. Connecting evolutionary biology to biochemistry, however, remains a challenge—many evolutionary biologists dislike biochemistry and are much more comfortable with the informational aspects of life (e.g., genes). The below “best books on bioenergetics” can help to bridge this gap.
Lest we forget, however, oxygen was “missing in action” for most of the history of life and can be scarce in some habitats even today. Hence, even complex eukaryotes, which might usually depend on oxygen as a terminal electron acceptor, must have a “plan B.”
Building on the earlier work by Bryant (1991) and others, this volume outlines in considerable detail how eukaryotes manage their energetics without oxygen. Some of these mechanisms involve building trans-membrane proton gradients in mitochondria anaerobically. This is not something that human cells can do. Rather, our cells rely on lactate formation when anaerobic.
Indeed, some human cancers exhibit the so-called Warburg effect—aerobic glycolysis, diminished oxygen consumption, and lactate secretion. What would this effect look like in some of these organisms that use mitochondria anaerobically?
Mitochondria are sometimes called the powerhouses of eukaryotic cells, because mitochondria are the site of ATP synthesis in the cell. ATP is the universal energy currency, it provides the power that runs all other life processes. Humans need oxygen to survive because of ATP synthesis in mitochondria. The sugars from our diet are converted to carbon dioxide in mitochondria in a process that requires oxygen. Just like a fire needs oxygen to burn, our mitochondria need oxygen to make ATP. From textbooks and popular literature one can easily get the impression that all mitochondria require oxygen. But that is not…
The Guardian of the Palace is the first novel in a modern fantasy series set in a New York City where magic is real—but hidden, suppressed, and dangerous when exposed.
When an ancient magic begins to leak into the world, a small group of unlikely allies is forced to act…
I’ve always been fascinated by the quest to understand how nature works and to find patterns amid complexity. This drew me towards physics, which seemed unparalleled in its ability to uncover general rules. In contrast, biology seemed merely descriptive, and despite a fondness for wildlife, I stayed away from the subject in school. It turns out, however, that physics and biology are perfect companions; a whole field, biophysics, explores how physical principles are central to the workings of living things. I became a biophysicist, researching topics like the organization of gut microbes and teaching and writing about biophysics more broadly, at scales from DNA to ecosystems.
I shouldn't admit this, but I've never found biochemistry at all interesting. I'm a biophysicist and routinely amazed by the versatility of physics and enchanted by the variety of biology. Lists of amino acids or the chemical reactions of the various types of sugars bore me to tears, though; I appreciate their importance, but I couldn't imagine studying them.
Therefore, reading this book was a revelation: Lane makes biochemistry seem sensible, deep, and fundamental, with rules and consequences central to life's origin. As an added bonus, Lane connects all this to vexing current problems, like the nature of cancer.
What brings the Earth to life, and our own lives to an end?
For decades, biology has been dominated by the study of genetic information. Information is important, but it is only part of what makes us alive. Our inheritance also includes our living metabolic network, a flame passed from generation to generation, right back to the origin of life. In Transformer, biochemist Nick Lane reveals a scientific renaissance that is hiding in plain sight -how the same simple chemistry gives rise to life and causes our demise.
Lane is among the vanguard of researchers asking why the Krebs cycle,…
I am an ornithologist who studies the myriad ways in which we affect birds and they, in turn, affect us. I’ve conducted field research for over four decades, focusing mainly on the behavior, ecology, and evolution of corvids—crows, ravens, jays, and their relatives. Through these birds I’ve discovered how our settlements, agriculture, and recreation play into their hands, often to the detriment of less adaptable species. As a professor of wildlife science for 25 years, I’ve mentored many graduate and undergraduate students and written hundreds of technical articles. In my writing for popular audiences I aim to celebrate the successful birds that share our world and raise awareness of those we are driving toward extinction.
I first read this book as a graduate student and it gave me a new appreciation for insects. Heinrich wowed me by describing his discovery of a hot-blooded insect. Bumblebees can increase their body temperatures by shivering and in this way live in our coldest climates. They heat up to fly in search of nectar which they bring back to their nest of developing bees. They even hibernate and survive the winter in cold regions such as Heinrich’s backyard study area in Maine. This book so influenced me that I eventually studied with Heinrich, spending three years in his Maine woods following the lives of ravens with my wife, Colleen.
Here is a brilliant introduction to insect and plant ecology focusing on one of nature's most adaptive creatures, the bumblebee. Survival for the bumblebee depends on its ability to regulate body temperature through a complex energy exchange, and it is this management of energy resources around which Bernd Heinrich enters his discussion of physiology, behavior, and ecological interaction. Along the way, he makes some amusing parallels with the theories of Adam Smith-which, Heinrich observes, work rather well for the bees, however inadequate they may be for human needs.
Bumblebee Economics uniquely offers both the professional and amateur scientist a coherent…
I love the outdoors, and there are so many benefits to playing, imagining, and being outside. I grew up on a fruit farm in Southern Ontario, so I spent much of my growing years playing outdoors and enjoying the natural world. When I became a professional educator, I read the research about the very concrete benefits being outside every day has on young learners. Bring on the recess! Books have a way of sparking action. When we read about how someone else enjoys the outdoors, it makes us want to do the same. Books are inspiring.
The Mushroom Fan Club is a quirky nonfiction book about hunting for mushrooms that will make you laugh! The mushrooms “look like aliens from outer space” and the illustrations prove it. Facts, diagrams, and fun incidents the author has experienced with her children encourage the reader to try mushroom hunting. But even if you don’t want to hunt, mushroom by mushroom, Gravel will convince everyone that mushrooms are indeed very cool.
Elise Gravel is back with a whimsical look at one of her family s most beloved pastimes: mushroom hunting! Combining her love of exploring nature with her talent for anthropomorphizing everything, she takes us on a magical tour of the forest floor and examines a handful of her favorite alien specimens up close. While the beautiful coral mushroom looks like it belongs under the sea, the peculiar Lactarius indigo may be better suited for outer space. From the fun-to-stomp puffballs to the prince of the stinkers?the stinkhorn mushroom?and the musically inclined chanterelles, Gravel shares her knowledge of this fascinating kingdom…
Aury and Scott travel to the Finger Lakes in New York’s wine country to get to the bottom of the mysterious happenings at the Songscape Winery. Disturbed furniture and curious noises are one thing, but when a customer winds up dead, it’s time to dig into the details and see…
27 years of teaching social and cultural theory to undergraduate and graduate students at the University of British Columbia have shaped the way I think about challenging works like Marx’s Capital. I’ve come to approach the classics of sociology not just as systematic scientific treatises, but also as literary works with a beginning, middle, and end, and as political projects designed to seize upon the power of words for practical purposes.
This book rocked my theory-world when I finally settled down to read it, long after it was first published and everybody was talking about it. Besides developing Marx’s idea of the ‘metabolic rift’ in the social-natural metabolism, brought on by the industrial revolution, it also traces Marx’s inspiration in the soil sciences of his day, ancient materialist philosophies of nature, and the disregard or distortion of Marx’s ecology during the Soviet era and in the West.
Progress requires the conquest of nature. Or does it? This new account overturns conventional interpretations of Marx and in the process outlines a more rational approach to the current environmental crisis. Marx, it is often assumed, cared only about industrial growth and the development of economic forces. John Bellamy Foster examines Marx's neglected writings on capitalist agriculture and soil ecology, philosophical naturalism, and evolutionary theory. He shows that Marx, known as a powerful critic of capitalist society, was also deeply concerned with the changing human relationship to nature. Marx's Ecology covers many other thinkers, including Epicurus, Charles Darwin, Thomas Malthus,…
Rex Weyler is a writer and ecologist. His books include Blood of the Land, a history of indigenous American nations, nominated for a Pulitzer Prize; Greenpeace: The Inside Story, a finalist for the BC Book Award and the Shaughnessy-Cohen Award for Political Writing; and The Jesus Sayings, a deconstruction of first-century history, a finalist for the BC Book Award. In the 1970s, Weyler was a co-founder of Greenpeace International and editor of the Greenpeace Chronicles. He served on campaigns to preserve rivers and forests, and to stop whaling, sealing, and toxic dumping.
My all-time favourite ecology book, playfully but rigorously exploring complexity, co-evolution, a living systems language, and knowledge itself. “The major problems in the world,” Bateson warned, “are the result of the difference between how nature works and the way people think.” In Bateson’s world, all divisions of nature are arbitrary. We only witness relationships, not things in themselves. Bateson links our mental process with evolutionary process and urges ecologists to see those patterns that connect the apparent parts of the whole.
A re-issue of Gregory Bateson's classic work. It summarizes Bateson's thinking on the subject of the patterns that connect living beings to each other and to their environment.
It was disappointing comparing the rich diversity of animals on colorful book pages to the reality of forests, where I could only see trees. But as I learned about plants and I became a plant ecologist, I realized that plants have to be extremely tough because they can’t run away from dangers or animals who want to eat them. I studied plants in coastal habitats in California, Central America and Florida, and in forests in the Midwest. I love seeing how they change throughout the season and how they interact. I wish everyone would read as many books about trees as construction trucks!
I love this book because it teaches plant science. How do the trees actually grow so high?
There aren’t a lot of picture books that include how photosynthesis works or how water is transported within a tree’s trunk. This book explains the plant physiology behind tree growth. Trees are, after all, the tallest things on Earth, but I have found that few books explain how they get to be so tall. We sort of take it for granted that tall things were always tall, didn’t we?
This book compares some of the world’s tallest animals and landmarks to the tallest tree species in the world: the coast redwood, giant sequoia, and Sitka spruce. While this text repeats some of the same information as Redwoods by Jason Chin, this book has more explanation on the biology of plant growth.
Magical realism meets the magic of Christmas in this mix of Jewish, New Testament, and Santa stories–all reenacted in an urban psychiatric hospital!
On locked ward 5C4, Josh, a patient with many similarities to Jesus, is hospitalized concurrently with Nick, a patient with many similarities to Santa. The two argue…
My twin passions are science and history, and I try to have it both ways by writing a mix of alternate history and hard SF. I grew up in Yorkshire, England, enjoyed lots of family vacations at Hadrian’s Wall and other Roman-rich areas, and acquired degrees in Physics and Astrophysics from Oxford, but I’ve lived in the US for over half my life and now work for NASA (studying black holes, neutron stars, and other bizarre celestial objects). My novella of a Roman invasion of ancient America, A Clash of Eagles, won the Sidewise Award for Alternate History and formed the starting point for my Clash of Eagles trilogy from Del Rey, and Hot Moon, my alternate-Apollo thriller set entirely on and around the Moon, will be published by CAEZIK SF & Fantasy in 2022.
Finally, expanding outward even further in space and time and going far beyond my Clash of Eagles series source material, Tim Flannery’s book covers the entire geological, ecological, and (yes) human history of the North American continent, from its formative years 65 million years ago through to its “discovery” by Europeans, and the effects those colonizing influences had on the peoples, flora, and fauna. I learned so much from this book that I still think about it almost daily, and especially so when I travel around today’s US in all its depth, breadth, and glory.
In The Eternal Frontier, world-renowned scientist and historian Tim Flannery tells the unforgettable story of the geological and biological evolution of the North American continent, from the time of the asteroid strike that ended the age of dinosaurs 65 million years ago, to the present day. Flannery describes the development of North America's deciduous forests and other flora, and tracks the immigration and emigration of various animals to and from Europe, Asia, and South America, showing how plant and animal species have either adapted or become extinct. The story takes in the massive changes wrought by the ice ages and…
