Civil Emergency Service says its operations in Jabalia, Beit Lahiya and Beit Hanoun have been hit by fuel shortages
world1 day ago
Justine Karst, a mycologist at the University of Alberta, feared things had gone too far when her son got home from eighth grade and told her he had learned that trees could talk to each other through underground networks.
Her colleague, Jason Hoeksema of the University of Mississippi, had a similar feeling when watching an episode of Ted Lasso in which one soccer coach told another that trees in a forest cooperated rather than competed for resources.
Few recent scientific discoveries have captured the public’s imagination quite like the wood-wide web — a wispy network of fungal filaments hypothesised to shuttle nutrients and information through the soil and to help forests thrive. The idea sprouted in the late 1990s from studies showing that sugars and nutrients can flow underground between trees. In a few forests, researchers have traced fungi from the roots of one tree to those of others, suggesting that mycelial threads could be providing conduits between trees.
These findings have challenged the conventional view of forests as a mere population of trees: Trees and fungi are, in fact, coequal players on the ecological stage, scientists say. Without both, forests as we know them wouldn’t exist.
Scientists and nonscientists alike have drawn grand and sweeping conclusions from this research. They have posited that shared fungal networks are ubiquitous in forests around the world, that they help trees talk to each other and, as Coach Beard on Ted Lasso articulated, that they make forests fundamentally cooperative places, with trees and fungi united in common purpose — a dramatic departure from the usual Darwinian picture of interspecies competition.
The concept has been featured in numerous media reports, TV shows and bestselling books, including a Pulitzer Prize winner. It even shows up in Avatar, the highest-grossing movie of all time.
And the theory could be starting to influence what happens in real forests. Some scientists, for example, have suggested managing forests explicitly to protect fungal networks.
But as the wood-wide web has gained fame, it has also inspired a backlash among scientists. In a recent review of published research, Karst, Hoeksema and Melanie Jones, a biologist at the University of British Columbia, Okanagan, found little evidence that shared fungal networks help trees to communicate, swap resources or thrive. Indeed, the trio said, scientists have yet to show that these webs are widespread or ecologically significant in forests.
For some of their peers, such a reality check is long overdue. “I think this is a very timely talk,” said Kabir Peay, a mycologist at Stanford University, about a presentation Karst recently gave. He hoped it could “reorient the field.”
Others, however, maintain that the wood-wide web is on firm ground and are confident that further research will confirm many of the hypotheses proffered about fungi in forests. Colin Averill, a mycologist at ETH Zurich, said that the evidence Karst marshaled is impressive. But, he added, “the way I interpret the totality of that evidence is completely different.”
Most plant roots are colonised by mycorrhizal fungi, forming one of Earth’s most widespread symbioses. The fungi gather water and nutrients from the soil; they then swap some of these treasures with plants in exchange for sugars and other carbon-containing molecules.
David Read, a botanist then at the University of Sheffield, showed in a 1984 paper that compounds labeled with a radioactive form of carbon could flow via fungi between lab-grown plants. Years later, Suzanne Simard, then an ecologist with the British Columbia Ministry of Forests, demonstrated two-way carbon transfer in a forest between young Douglas fir and paper birch trees.
When Simard and her colleagues shaded Douglas firs to reduce how much they photosynthesised, the trees’ absorption of radioactive carbon spiked, suggesting that underground carbon flow could boost young trees’ growth in the shady understory.
Simard and colleagues published their results in 1997 in the journal Nature, which splashed it on the cover and christened the discovery the ‘wood-wide web.’ Soon after, a group of senior researchers criticised the study, saying it had methodological flaws that confounded the results. Simard responded to the critiques, and she and her colleagues designed additional studies to address them.
Over time, the criticisms faded, and the wood-wide web gained adherents. Simard’s 1997 paper has garnered almost 1,000 citations and her 2016 TED Talk, “How trees talk to each other,” has been viewed more than 5 million times.
In his book The Hidden Life of Trees, which has sold more than 2 million copies, Peter Wohlleben, a German forester, cited Simard when describing forests as social networks and mycorrhizal fungi as “fiber-optic internet cables” that help trees inform each other about dangers such as insects and drought.
Subterranean forest research has continued to grow, too. In 2016, Tamir Klein, a plant ecophysiologist then at the University of Basel and now at the Weizmann Institute of Science in Israel, extended Simard’s research into a mature Swiss forest of spruce, pine, larch and beech trees. His team tracked carbon isotopes from one tree to the roots of other nearby trees, including different species, in an experimental forest plot. The researchers attributed most of the carbon movement to mycorrhizal fungi but acknowledged they had not proven it.
Simard, who has been at the University of British Columbia since 2002, has led further studies showing that large, old “mother” trees are hubs of forest networks and can send carbon underground to younger seedlings. She has argued in favour of the view that trees communicate via mycorrhizal networks and against a long-held idea that competition between trees is the dominant force shaping forests. In her TED Talk, she called trees “super-cooperators.”
But as the wood-wide web’s popularity has soared both inside and outside scientific circles, a skeptical reaction has evolved. Last year, Kathryn Flinn, an ecologist at Baldwin Wallace University in Ohio, argued in Scientific American that Simard and others had exaggerated the degree of cooperation among trees in forests. Most experts, Flinn wrote, believe that groups of organisms whose members sacrifice their own interests on behalf of the community rarely evolve, a result of the powerful force of natural selection among competing individuals.
ALSO READ:
Instead, she suspects, fungi most likely distribute carbon according to their own interests, not those of trees. “That, to me, seems like the simplest explanation,” she said in an interview.
Even some who once promoted the idea of shared fungal networks are rethinking the hypothesis. Jones, one of Simard’s co-authors in 1997, says she regrets that she and her colleagues wrote in the paper that they had evidence for fungal connections between trees. In fact, Jones says, they did not examine whether fungi mediated the carbon flows.
For their recent literature review, Karst, Hoeksema and Jones rounded up all the studies they could find that made claims about either the structure or the function of such underground fungal networks. The researchers focused on field studies in forests, not lab or greenhouse experiments.
In an August presentation based on the review at the International Mycorrhiza Society conference in Beijing, Karst argued that much of the evidence used to support the wood-wide web hypothesis could have other explanations. For example, in many papers, scientists assumed that if they found a particular fungus on multiple tree roots or that resources moved between trees the trees must be directly linked. But few studies ruled out alternate possibilities, for instance that resources could travel part of the way through the soil.
Some experimenters, including Karst and her colleagues, have installed fine meshes and have sometimes added trenches or air gaps between seedlings to disrupt hypothesised fungal networks and then tested whether those changes altered growth. But those tactics also reduce how much soil a seedling can directly gather nutrients or water from, or they alter the mix of fungi growing inside the meshes, making it difficult to isolate the effect of a fungal network, Karst said.
The researchers also found a growing number of unsupported statements in the scientific literature about fungal networks connecting and helping trees. Frequently, papers such as Klein’s are cited by others as providing proof of networks in forests, Karst and colleagues found, with caveats that appeared in the original work left out of the newer studies.
“Scientists,” Karst concluded in her presentation, “have become vectors for unsubstantiated claims.” Several recent papers, she notes, have called for changes in how forests are managed, based on the wood-wide web concept.
Karst said “it’s highly likely” that shared fungal networks do exist in forests. In a 2012 study, Simard’s team found identical fungal DNA on the roots of nearby Douglas fir trees. The researchers then sampled soil between the trees in thin slices and found the same repeating DNA segments known as “microsatellites” in each slice, confirming that the fungus bridged the gap between the roots. But that study did not examine what resources, if any, were flowing through the network, and few other scientists have mapped fungal networks with such rigor.
Even if intertree fungal networks exist, however, Karst and her colleagues say common claims about those networks don’t hold up. For example, in many studies, the putative networks appeared to either hinder tree growth or to have no effect. No one has demonstrated that fungi distribute meaningful amounts of resources among trees in ways that increase the fitness of the receiving trees, Hoeksema said. Yet nearly all discussions of the wood-wide web, scientific or popular, have described it as benefiting trees.
Others, however, remain convinced that time will vindicate the wood-wide web.
While how ubiquitous shared fungal networks are and how important they are to tree growth remain open questions, Averill of ETH Zurich said the title of Karst’s presentation — “The decay of the wood-wide web?” — incorrectly suggests that the very concept is faulty. Instead, he hopes scientists will build on the tantalising clues gathered so far by looking for networks in more forests. Indeed, members of Karst’s team have generated what Averill considers some of the most compelling evidence for the wood-wide web.
“It’s very clear that in some forests in some places, different trees are absolutely connected by fungi,” he said.
Klein of the Weizmann Institute said his team has placed its speculation about a network on firmer ground by using DNA sequences to map fungi in a 2020 follow-up study of the same Swiss forest and a 2022 lab study using forest soil. (Karst and her colleagues said that in their view, even those studies did not truly map fungal networks in a forest.)
And while Klein agrees that scientists still need to improve their understanding of why trees and fungi are moving all that carbon around, he is more optimistic than the Karst team that some of the bolder claims will be borne out.
“If you ask me if in the future, we will be showing that trees actually can communicate, I would not be surprised,” he said.
Simard agreed that few real-world fungal networks have been mapped using DNA microsatellites because of the difficulty in doing such studies. Kevin Beiler, the graduate student who led the field work for the 2012 study with Simard, “spent five years of his life mapping out these networks,” Simard said. “It’s very time consuming.”
Despite those challenges, she said, studies published on other forests using other methods have convinced her that shared fungal networks are common.
“The field of mycorrhizal networks has been sort of plagued by having to keep going back and redoing these experiments,” Simard said. “At some point you have to move to the next step.”
Comprehensive field studies of the type Hoeksema seeks would be a heavy lift for most university scientists working on typical grant timelines, Simard said. “None of these studies can do everything all at once, especially when you’re working with graduate students,” she said. “You have to piece it together.”
And while Simard has for years called for forest managers to consider her findings, she said she was not aware of any forest being managed solely on behalf of fungal networks. Neither was Wohlleben.
The new critique is the latest flare-up in a decades-old debate about the role of fungi in forest ecosystems, said Merlin Sheldrake, an independent mycologist whose book Entangled Life was referenced in the Ted Lasso episode that alarmed Hoeksema. Scientists have long struggled to interpret intriguing but fragmentary shreds of evidence from the invisible underground realm.
Since Karst gave her talk, she, Hoeksema and Jones have submitted a paper to a peer-reviewed journal. And lest you worry that a less webby woods could feel a tad drab, the researchers maintain that there’s plenty of intrigue even if it turns out that trees aren’t whispering secrets to one another via subterranean fungal channels.
“The true story is very interesting without this narrative put on it,” Karst said. The forest “is still a very mysterious and wonderful place.”
This article originally appeared in The New York Times.
Civil Emergency Service says its operations in Jabalia, Beit Lahiya and Beit Hanoun have been hit by fuel shortages
world1 day ago
It will have authority on matters related to the economy, education, health, humanitarian aid and reconstruction
world1 day ago
Study indicates the planet has never had habitable conditions; atmospheric composition signals substantially dry interior
world1 day ago
A proposed formula suggests India and Pakistan play their ICC matches in Dubai
world2 days ago
Gregg Wallace has denied making 'inappropriate' sexual jokes and comments after more than a dozen people came forward last week with allegations spanning a 17-year period
world2 days ago
Russia's military confirmed it was helping Syrian government forces repel terrorist aggression in the provinces of Idlib, Hama and Aleppo
world2 days ago
Gaza now has the highest number of children amputees per capita anywhere in the world, says Guterres
world2 days ago
The call came after Syrian rebels and their Turkish-backed allies launched their biggest offensive in years, seizing control of Syria's second-largest city Aleppo
world2 days ago