This tropical plant builds isolated ‘apartments’ to prevent battles among the aggressive ant tenants it relies on for survival

Researchers have discovered that certain tropical plants, such as Squamellaria, build isolated “apartments” to prevent battles among aggressive ant tenants that rely on them for survival.
The plants’ unique structure, called a domatium, is divided into distinct compartments with thick walls isolating each unit, preventing direct contact between different ant species and reducing deadly conflicts.
The compartmentalized architecture allows multiple aggressive ant species to live side by side inside the plant without ever meeting, maintaining a mutually beneficial relationship between the plants and ants that benefits both parties.
By minimizing conflict and ensuring access to essential nutrients, such as nitrogen and phosphorus, the plants are able to thrive in a competitive environment where other organisms might struggle to survive.
The discovery of compartmentalization in Squamellaria plants sheds new light on how symbiotic relationships between species can maintain stability, particularly in multispecies partnerships involving multiple unrelated partners, and highlights the importance of reinvestigating cooperation between species beyond pairwise interactions.

When aggressive ant species come in contact, deadly conflicts ensue G. Chomicki

In the middle of the South Pacific, a group of Fijian plants have solved a problem that has long puzzled scientists: How can an organism cooperate with multiple partners that are in turn competing for the same resources? The solution turns out to be simple – compartmentalization.

Imagine an apartment building where unfriendly neighbors might clash if they run into each other, but smart design keeps everyone peacefully separated. In our new research published in the journal Science, we show how certain plants build specialized structures that allow multiple aggressive ant species to live side by side inside them without ever meeting.

Ants and plants cooperate in Fijian rainforest

Squamellaria plants are epiphytes – meaning they don’t have roots attached to the ground, and instead grow on another plant for physical support. They live high up in the rainforest canopy, in the South Pacific.

Because they don’t have direct access to the soil’s nutrients, Squamellaria plants have evolved an original strategy to acquire what they need: In a mutually beneficial relationship, they grow structures that appeal to ants looking for a place to live. This kind of long-term relationship between species – whether helpful or harmful – is called symbiosis.

Here’s how it works in this case. The base of the Squamellaria plant stem forms a swollen, hollow structure called a domatium – a perfect place for ants to live. Domatia gradually enlarge to the size of a soccer ball, containing ever more plant-made houses ready for ants to move into. Each apartment can house a colony made up of thousands of ants.

A bulbous plant attached to a branch in a canopy — A multicompartment Squamellaria (*S. tenuiflora*) in its natural habitat: rainforests in Fiji. This large plant likely contains a dozen or more compartments.
G. Chomicki

The relationship between the ants and the plants is mutualistic, meaning both parties benefit. The ants gain a nice sturdy and private nest space, while the plants gain essential nutrients. They obtain nitrogen and phosphorus from the ants’ feces and from detritus – including dead insects, plant bits and soil – that the ants bring inside the domatium.

However, tropical rainforest canopies are battlegrounds for survival. Ants compete fiercely for nesting space, taking over any hollow branch or space under tree bark. Any Squamellaria ant house would thus be at risk of being colonized and taken over by other incoming ants, disrupting the existing partnership.

Until now, it was unclear how the cooperative relationships between ants and plants remain stable in this competitive environment.

Walls keep the peace

Our first hint about what keeps the peace in the Squamellaria real estate came when we discovered several ant species living in the same plant domatium. This finding just didn’t make sense. How could aggressively competing ant species live together?

We investigated the structure of domatia using computed-tomography scanning, which revealed an interesting internal architecture. Each plant domatium is divided into distinct compartments, with thick walls isolating each unit. Independent entrances prevent direct contact between the inhabitants of different units. The walls safeguard the peace as they prevent encounters between different ant species.

A close-up view of the domatium, showing three overlapping regions in different colors — A 3D model of a *Squamellaria tenuiflora* domatiium based on CT-scanning data reveals its compartmentalization. Each color-coded cavity is a distinct ‘ant apartment,’ isolated of the others, but connected to the outside.
S. Renner & G. Chomicki

Back in the lab, when we removed the ant apartments’ walls, placing inhabitants in contact with their neighbors, deadly fights broke out between ant species. The compartmentalized architecture is thus critical in preventing symbiont “wars” and maintaining the stability of the plant’s partnership with all the ants that call it home. By minimizing deadly conflicts that could harm the ants it hosts, this strategy ensures that the plant retains access to sufficient nutrients provided by the ants.

This research reveals a new mechanism that solves a long-standing riddle – the stability of symbioses involving multiple unrelated partners. Scientists hadn’t previously discovered aggressive animal symbionts living together inside a single plant host. Our study reveals for the first time how simple compartmentalization is a highly effective way to reduce conflict, even in the most extreme cases. The ant colonies are living side by side, but not really together.

What’s next

The key to conflict-free living of multipartner symbioses discovered in these Fijian plants – compartmentalization – is likely important in other multispecies partnerships. However, it remains unknown whether compartmentalization is widespread in nature. Research on cooperation between species has long focused on pairwise interactions. Our new insights suggest a need to reinvestigate other multispecies mutualistic symbioses to see how they maintain stability.

Guillaume Chomicki receives funding from UKRI.

Susanne S. Renner received previous funding from the German Research Foundation (DFG)

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Q. What is unique about the way Squamellaria plants build isolated ‘apartments’ for their aggressive ant tenants?

A. The apartments are built to prevent battles among the ants, with thick walls isolating each unit and preventing direct contact between different ant species.

Q. Why do Squamellaria plants need to acquire nutrients from ants?

A. Since they don’t have direct access to the soil’s nutrients, Squamellaria plants rely on a mutually beneficial relationship with ants to obtain essential nutrients like nitrogen and phosphorus.

Q. What is the name of the swollen, hollow structure at the base of the Squamellaria plant stem that forms a home for ants?

A. The structure is called a domatium, which gradually enlarges to house thousands of ants in separate apartments.

Q. How do ants benefit from living in the Squamellaria plants’ domatia?

A. Ants gain a sturdy and private nest space, as well as access to nutrients like nitrogen and phosphorus from the plant’s feces and detritus.

Q. What is the relationship between Squamellaria plants and ants called?

A. The relationship is called symbiosis, specifically mutualistic, meaning both parties benefit from each other’s presence.

Q. Why are tropical rainforest canopies considered battlegrounds for survival?

A. Ants compete fiercely for nesting space, taking over any hollow branch or space under tree bark, which puts the Squamellaria plants’ partnerships at risk.

Q. How do scientists think compartmentalization helps maintain stability in the Squamellaria-ant relationships?

A. By preventing encounters between different ant species and minimizing deadly conflicts that could harm the ants, compartmentalization ensures the plant retains access to sufficient nutrients provided by the ants.

Q. What is a new mechanism discovered by researchers that solves a long-standing riddle about symbioses involving multiple unrelated partners?

A. The discovery is that simple compartmentalization is a highly effective way to reduce conflict in multispecies partnerships, even in extreme cases.

Q. Will compartmentalization be found to be widespread in nature?

A. It remains unknown whether compartmentalization is widespread in nature, and researchers suggest reinvestigating other multispecies mutualistic symbioses to see how they maintain stability.