Termites are often a nightmare in human habitats, devouring wooden structures and ravaging crops and trees. But within their own homes, some of these farmer termites have sneaky tricks for pest control. The pests in question are an unwelcome variety of fungi that infiltrate the termite nest mounds.
Seemingly innocuous and tiny, termites that farm beneficial fungus (Odontotermes obesus) in their nest mounds, have a pretty disquieting practice to defend their fungal farms from the invasion of weedy, parasitic fungi (Pseudoxylaria). Researchers at the Indian Institute of Science, Bengaluru, have documented that these blind insects sniff out the infiltrant in their mounds and selectively bury them alive.
This behaviour, reported by Renee Borges's lab at the institute, also has implications for agricultural practices.
"Fungus-farming termites grow a fungus, Termitomyces, in carbon dioxide-rich environments of their nest mounds. In order to maintain a sustainable supply of cultivated fungi, termites must control weedy parasitic fungi and make sure that such fungi do not grow inside their nests," Borges told Mongabay-India.
The live burial creates an oxygen-deficient environment locally (hypoxia) in the vicinity of the parasitic fungus which affects their survival. "The burying behaviour, directed primarily at the parasitic weed, is coupled with an antifungal activity which, in part, appears to be due to the effect of local hypoxic conditions," the study said.
Several fungus-growing termite species build mounds, or termitaria, that are conspicuous features of African and Asian landscapes. Odontotermes obesus, belonging to the Macrotermitinae subfamily, is a major mound-building termite found across the Indian subcontinent.
Mound-building Macrotermitinae termites are major ecosystem engineers in the tropics and subtropics and maintain fungal gardens of Termitomyces, in their massive nest mounds, which are like organised greenhouses.
The termites offer a protected environment for the Termitomyces fungus to thrive while, in turn, the fungus is an important food resource for the insects. Essentially, the wood-eating termites "outsource" lignin (a component of wood) breakdown to the farmed fungus.
"It is amazing how natural colonies of fungus-growing termites seem to be able to control Pseudoxylaria: We have done many experiments with fungus gardens. In the absence of termites, very quickly those are completely overgrown with Pseudoxylaria, just in a few days," observed Duur Aanen, an evolutionary geneticist at the Netherlands' Wageningen University. "...Nevertheless, in the presence of the termites, those fungi are never seen, so apparently, the termites suppress them."
When the weedy fungus invades termite mounds, they take advantage of the same carbon sources and grow faster than the crop fungi, thereby competing with Termitomyces (crop fungi) for nutrition, said, Borges. Therefore, as soon as the termites sniff out the presence of the weedy fungus, they act to nip the problem in the bud.
In a matter of minutes, it is game over for the weedy parasitic fungus.
"The termites make a ball of soil, carry it in their mandible and round it up with saliva and dump the ball on the parasitic mass. This behaviour of termites to bury live fungi is in contrast to humans who bury dead bodies," Borges said.
This also explains why Pseudoxylaria grows within the termite mound environment only in the absence of contact with termites. For example, in mounds abandoned by termites or when incubated within termite-proof enclosures within active mounds that allow circulation of mound air, said Borges.
While chemical antifungal compounds have been reported in termite farms, live burial per se as an antifungal activity has never been investigated. To probe this dimension, the researchers carried out laboratory experiments using a locally prevalent fungus-farming termite, Odontotermes obesus, as their model system.
They offered farmer termites minuscule amounts of fungi in small Petri-dishes filled with garden soil. When the researchers arrived in their laboratory the next morning, they found that worker termites had buried the weedy fungus with soil completely.
However, what surprised the researchers the most, were the results of their next investigation. "We found that this live burial of fungi by worker termites led to greater decrease in the survival of the weedy fungus compared to the crop fungus, even after controlling for the varying amount of soil deposition," Borges observed.
To answer this, the researchers designed an artificial burial experiment. They mimicked the termite behaviour of burying the fungi by covering the fungi in small enclosures. This enabled the researchers to look at the effect of hypoxia alone on the fungal survival.
"Our results show that fungus-growing termites bury the weedy Pseudoxylaria to a significantly greater extent than the Termitomyces crop which results in relatively lowered survival of the former compared to the latter," the study said.
In fact, any Pseudoxylaria sprouting inside a termite mound will experience hypoxia not only due to burying but also because of the hypoxic surroundings, since mounds are known to have high (but variable) ambient carbon dioxide levels.
"We cannot rule out the additional presence of antifungal chemicals in the burial materials. It is also possible that antibiotic-producing bacteria and their products are deposited along with soil on the weedy fungi. Thus, further studies using soil deposited by termite workers to isolate antifungal compounds are warranted and are underway," Borges said.
(With inputs from agencies.)