ERIK MARTIN WILLÈN
Author of science fiction
Thursday, July 16, 2026
Can Trees Communicate?
The idea that trees talk to each other has become one of those
science-adjacent stories that travels fast and gets simplified faster. Popular
accounts tend toward the lyrical: forests as communities, trees as mothers
feeding their children, a “wood wide web” humming with intention underground.
The reality, as research published in 2025 has made increasingly clear, is
stranger and more interesting than either the romantic version or the skeptical
pushback against it.
What the fungal network actually does
In February
2025, a team led by Toby Kiers at Vrije Universiteit Amsterdam, working with
researchers from six countries, published a study in Nature that
gave the clearest picture yet of how mycorrhizal fungal networks operate
underground. The team built a custom imaging robot capable of tracking over
500,000 individual network nodes and more than 100,000 internal flow paths in a
living fungal mat in real time, far more detail than any previous method could
capture.
What they found was not a passive pipeline. The fungal networks build and
maintain themselves as self-regulating systems, sending exploratory filaments
ahead like advance scouts while sustaining two-way traffic of carbon,
phosphorus, and water along established routes back to plant roots. The flow
was organized as “travelling waves,” rhythmic pulses that helped the network
distribute resources across long distances, responding to local conditions as
they changed.
“The network is not just a pipe. It is actively making decisions about where to send resources and when,” said Kiers. “That is a form of distributed problem-solving.”
Roughly 80% of plant species on Earth maintain these fungal partnerships,
including most trees in temperate and boreal forests. The fungi receive sugars
from plant roots in exchange for minerals the plant cannot extract from soil on
its own. It is a trade relationship that has been running for approximately 450
million years, and the 2025 Nature study is the first to watch it function in
something approaching real time.
Signals, warnings, or eavesdropping?
A separate question is whether trees send deliberate warning signals to
neighbors when attacked by pests or disease. This is the claim that generated
the most popular enthusiasm, and it remains the most contested. The evidence
for chemical signaling through the air, via volatile organic compounds, is
solid. A damaged or infected tree does release compounds that neighboring trees
and fungi demonstrably pick up and respond to, often by increasing their own
chemical defenses.
But a 2025 analysis connected to researchers at Oxford raised a pointed
question: does it matter whether the signaling is intentional? The researchers
argued that framing tree chemical releases as “warnings” imports a concept of
intention that the evidence does not support. A tree releasing compounds when
damaged is doing something more like bleeding than speaking. Neighboring trees
that respond are doing something more like detecting and reacting than
listening and understanding. The word “communication” is being asked to carry
more weight than the biology justifies.
The debate over the wood wide web
The “wood wide
web” framing has attracted significant scientific criticism over the past three
years. A 2023 meta-analysis in Nature Ecology
& Evolution reviewed the experimental evidence for carbon
transfer between trees via fungal networks and found that most studies were
conducted under laboratory conditions or with seedlings, not mature forest
trees. Under natural conditions, it remains genuinely unclear whether older
trees routinely feed younger ones through the network, or whether the carbon
that moves through the fungi primarily feeds the fungi themselves.
What is not in dispute is that the networks exist, that they influence
which trees survive and which don’t, and that disrupting them through
clear-cutting or soil compaction has measurable effects on forest recovery. The
debate is about interpretation, not existence.
What the science actually supports
Strip away the overclaims and what remains is still remarkable. Forests are
metabolically interconnected in ways that were entirely unknown 30 years ago.
Individual trees are not isolated organisms competing for light and water. They
exist inside a dense network of chemical and fungal relationships that shapes
their growth, their immune responses, and their survival. The 2025 Nature
imaging study shows that network operating as a dynamic, self-organizing
system, routing resources where they are needed, withdrawing from failing
branches, exploring new territory.
Whether that constitutes communication depends on where you draw the line
between a signal and a word. But even on the conservative reading, the
underground life of a forest is nothing like what biology textbooks described a
generation ago.
Sources
·
Oyarte Gálvez, L., Kiers, E.T., et
al. (2025). Real-time imaging of mycorrhizal network dynamics. Nature.
·
Flör, V., et al. (2023).
Reappraisal of the evidence for the wood wide web. Nature Ecology & Evolution.
·
Oxford analysis (2025).
Intentionality and chemical signaling in forest ecosystems.

