Entangled life : how fungi make our worlds, change our minds and shape our futures / Merlin Sheldrake.

By:

Sheldrake, Merlin [author.]

Material type: Text

TextPublisher: London : The Bodley Head, 2020Description: 358 pages ; 24 cmContent type:

text

Media type:

unmediated

Carrier type:

volume

ISBN:

9781847925190 (hbk.) :

Subject(s):

Fungi

DDC classification:

579.5 SHE 23

Holdings
Item type	Current library	Call number	Status	Date due	Barcode
Standard Loan	Thurles Library Main Collection	579.5 SHE (Browse shelf(Opens below))	Available		39002100644278

Enhanced descriptions from Syndetics:

A mind-altering adventure through the world of fungi for readers of Robert Macfarlane and Other Minds

*THE SUNDAY TIMES BESTSELLER*

'A dazzling, vibrant, vision-changing book. I ended it wonderstruck at the fungal world. A remarkable work by a remarkable writer' Robert Macfarlane

The more we learn about fungi, the less makes sense without them.

Neither plant nor animal, they are found throughout the earth, the air and our bodies. They can be microscopic, yet also account for the largest organisms ever recorded. They enabled the first life on land, can survive unprotected in space and thrive amidst nuclear radiation. In fact, nearly all life relies in some way on fungi.

These endlessly surprising organisms have no brain but can solve problems and manipulate animal behaviour with devastating precision. In giving us bread, alcohol and life-saving medicines, fungi have shaped human history, and their psychedelic properties have recently been shown to alleviate a number of mental illnesses. Their ability to digest plastic, explosives, pesticides and crude oil is being harnessed in break-through technologies, and the discovery that they connect plants in underground networks, the 'Wood Wide Web', is transforming the way we understand ecosystems. Yet over ninety percent of their species remain undocumented.

Entangled Life is a mind-altering journey into a spectacular and neglected world, and shows that fungi provide a key to understanding both the planet on which we live, and life itself.

'One of those rare books that can truly change the way you see the world around you. Astounding' Helen MacDonald, author of H Is for Hawk

'Reads like an adventure story ... wondrous ... beguilingly weaves together lived experience and scientific research' Sunday Times

'An astonishing book that could alter our perceptions of fungi for ever. It seems somehow to tip the natural world upside down' Observer

'After this book, nothing will seem the same again ... beautifully written and illustrated ... dazzling ... reveals a world that's both more extraordinary and more delicate than could be imagined' Daily Mail

'The lives of fungi alone are fascinating, but the questions and wider implications that Sheldrake teases out from them are often truly astounding ... an engrossing, captivating journey' Spectator

'Brilliant ... entrancing ... when we look closely at fungi , we meet large, unsettling questions ... Merlin Sheldrake ... carries us easily into these questions with ebullience and precision ... challenging some of our deepest assumptions' Guardian

'Mind-boggling... Sheldrake is nothing if not a participatory researcher into his subject and one with a winning sense of humour ... It's tempting ... to see fungi as the biological model for a better world' Telegraph *****

Excerpt provided by Syndetics

1. A Lure Who's pimping who?--Prince A heap of Piedmont white truffles (Tuber magnatum) sat on the scales on a check-patterned rag. They were scruffy, like unwashed stones; irregular, like potatoes; socketed, like skulls. Two kilograms: e12,000. Their sweet funk filled the room, and in this aroma was their value. It was unabashed and quite unlike anything else: a lure, thick and confusing enough to get lost in. It was early November, the height of truffle season, and I had traveled to Italy to join two truffle hunters working out of the hills around Bologna. I was lucky. A friend of a friend knew a man who dealt truffles. The dealer had agreed to set me up with his two best hunters, who in turn had consented to let me go out with them. White-truffle hunters are famously secretive. These fungi have never been domesticated and can only be found in the wild. Truffles are the underground fruiting bodies of several types of mycorrhizal fungi. For most of the year, truffle fungi exist as mycelial networks, sustained in part by the nutrients they obtain from the soil and also by the sugars they draw from plant roots. However, their subterranean habitat confronts them with a basic problem. Truffles are spore-producing organs, analogous to the seed-producing fruit of a plant. Spores evolved to allow fungi to disperse themselves, but underground their spores can't be caught by air currents and are invisible to the eyes of animals. Their solution is to smell. But to smell above the olfactory racket of a forest is no small task. Forests are crisscrossed with smells, each a potential fascination or distraction to an animal nose. Truffles must be pungent enough for their scent to penetrate the layers of soil and enter the air, distinctive enough for an animal to take note amid the ambient smellscape, and delicious enough for that animal to seek it out, dig it up, and eat it. Every visual disadvantage that truffles face--being entombed in the soil, difficult to spot once unearthed, and visually unappealing once spotted--they make up for with smell. Once eaten, a truffle's job is done: An animal has been lured into exploring the soil and recruited to carry the fungus's spores off to a new place and deposit them in its feces. A truffle's allure is thus the outcome of hundreds of thousands of years of evolutionary entanglement with animal tastes. Natural selection will favor truffle fungi that match the preferences of their finest spore dispersers. Truffles with better "chemistry" will attract animals more successfully than those with worse. Like the orchids that mimic the appearance of sexually receptive female bees, truffles provide a depiction of animal tastes--an evolutionary portrait in scent of animal fascination. I was in Italy because I wanted to be drawn underground by a fungus into the chemical world in which it lived. We are ill-equipped to participate in the chemical lives of fungi, but ripe truffles speak a language so piercing and simple that even we can understand it. In doing so, these fungi include us for a moment within their chemical ecology. How should we think about the torrents of interaction that occur between organisms underground? How should we understand these spheres of more-than-human communication? Perhaps running after a dog hot on the trail of a truffle and burying my face in the soil was as close as I could get to the chemical tug and promise that fungi use to conduct so many aspects of their lives. The human sense of smell is extraordinary. Our eyes can distinguish several million colors, our ears can distinguish half a million tones, but our noses can distinguish well over a trillion different odors. Humans can detect virtually all volatile chemicals ever tested. We outperform rodents and dogs in detecting certain odors, and we can follow scent trails. Smells feature in our choice of sexual partners and in our ability to detect fear, anxiety, or aggression in others. And smell is woven into the fabric of our memories; it is common for people suffering from post-traumatic stress disorder to have olfactory flashbacks. Noses are finely tuned instruments. Your olfactory sense can split complex mixtures into their constituent chemicals, just as a prism can split white light into its constituent colors. To do this, it must detect the precise arrangement of atoms within a molecule. Mustard smells mustardy because of bonds between nitrogen, carbon, and sulfur. Fish smells fishy because of bonds between nitrogen and hydrogen. Bonds between carbon and nitrogen smell metallic and oily. The ability to detect and respond to chemicals is a primordial sensory ability. Most organisms use their chemical senses to explore and make sense of their environment. Plants, fungi, and animals all use similar types of receptors to detect chemicals. When molecules bind to these receptors, they trigger a signaling cascade: One molecule triggers a cellular change, which triggers a bigger change, and so on. In this way, small causes can ripple into large effects: Human noses can detect some compounds at as low a concentration as thirty-four thousand molecules in one square centimeter, the equivalent of a single drop of water in twenty thousand Olympic swimming pools. For an animal to experience a smell, a molecule must land on their olfactory epithelium. In humans, this is a membrane up and behind the nose. The molecule binds to a receptor, and nerves fire. The brain gets involved as chemicals are identified or trigger thoughts and emotional responses. Fungi are equipped with different kinds of bodies. They don't have noses or brains. Instead, their entire surface behaves like an olfactory epithelium. A mycelial network is one large chemically sensitive membrane: A molecule can bind to a receptor anywhere on its surface and trigger a signaling cascade that alters fungal behavior. Fungi live their lives bathed in a rich field of chemical information. Truffle fungi use chemicals to communicate to animals their readiness to be eaten; they also use chemicals to communicate with plants, animals, other fungi--and themselves. It isn't possible to understand fungi without exploring these sensory worlds, but they are hard for us to interpret. Perhaps it doesn't matter. Like fungi, we spend much of our lives being drawn toward things. We know what it is to be attracted or repelled. Through smell, we can participate in the molecular discourse fungi use to organize much of their existence. In human history, truffles have long been associated with sex. The word for truffle in many languages translates to "testicle," as in the old Castilian turmas de tierra, or earth's testicles. Truffle fungi have evolved to make animals giddy because their lives depend on it. As I spoke with Charles Lefevre, a truffle scientist and cultivator in Oregon, about his work with the Périgord black truffle, he broke off: "Funny--as I'm saying this I am 'bathing' in the virtual aroma of Tuber melanosporum. It's as if a cloud of it is filling my office, but there are currently no truffles here. These olfactory flashbacks are common with truffles in my experience. They can even include visual and emotional memories." In France, Saint Anthony--the patron saint of lost objects--is regarded as the patron saint of truffles, and truffle masses are celebrated in his honor. Prayers do little to stop the skulduggery. Cheap truffles are stained or flavored to pass them off as their more valuable cousins. Prized truffle forests are targeted by truffle poachers. Expertly trained dogs worth thousands of euros are stolen. Poisoned meat is strewn around woods to kill the dogs of rival hunters. In 2010, in a crime of passion, a French truffle farmer, Laurent Rambaud, shot dead a truffle thief he encountered while patrolling his truffle orchards during the night. Following his arrest, two hundred and fifty supporters marched in support of Rambaud's right to defend his crop, angry at the rise in thefts of both truffles and truffle dogs. The deputy head of the Tricastin truffle growers' union told La Provence newspaper that he had advised fellow producers never to patrol their fields with a gun because "the temptation is too high." Lefevre put it well: "Truffles bring out the dark side of people. It's like money lying on the ground, but it's perishable and mercurial." Excerpted from Entangled Life: How Fungi Make Our Worlds, Change Our Minds and Shape Our Futures by Merlin Sheldrake 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.

Author notes provided by Syndetics

Merlin Sheldrake is a biologist and a writer. He received a Ph.D. in Tropical Ecology from Cambridge University for his work on underground fungal networks in tropical forests in Panama, where he was a predoctoral research fellow of the Smithsonian Tropical Research Institute. He is a musician and keen fermenter. Entangled Life is his first book.
www.merlinsheldrake.com
Find Merlin on Twitter @MerlinSheldrake
And on Instagram @merlin.sheldrake