# Termite mounds harness diurnal temperature oscillations for ventilation

**Authors:** Hunter King, Samuel A. Ocko, L. Mahadevan

arXiv: 1703.08067 · 2017-03-24

## TL;DR

This study demonstrates that termite mounds use daily temperature oscillations, combined with their structure, to naturally ventilate and regulate internal conditions without external energy input.

## Contribution

It provides the first direct measurement showing how termite mounds harness diurnal temperature changes for ventilation through their geometry and thermal properties.

## Key findings

- Termite mounds exhibit cyclic airflow driven by daily temperature oscillations.
- The mound's structure creates a convection cell that ventilates the colony.
- Diurnal temperature variations are sufficient to induce effective ventilation.

## Abstract

Many species of millimetric fungus-harvesting termites collectively build uninhabited, massive mound structures enclosing a network of broad tunnels which protrude from the ground meters above their subterranean nests. It is widely accepted that the purpose of these mounds is to give the colony a controlled micro-climate in which to raise fungus and brood by managing heat, humidity, and respiratory gas exchange. While different hypotheses such as steady and fluctuating external wind and internal metabolic heating have been proposed for ventilating the mound, the absence of direct in-situ measurement of internal air flows has precluded a definitive mechanism for this critical physiological function. By measuring diurnal variations in flow through the surface conduits of the mounds of the species Odontotermes obesus, we show that a simple combination of geometry, heterogeneous thermal mass and porosity allows the mounds to use diurnal ambient temperature oscillations for ventilation. In particular, the thin outer flute-like conduits heat up rapidly during the day relative to the deeper chimneys, pushing air up the flutes and down the chimney in a closed convection cell, with the converse situation at night. These cyclic flows in the mound flush out $\text{CO}_2$ from the nest and ventilate the colony, in a novel example of deriving useful work from thermal oscillations.

## Full text

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## Figures

20 figures with captions in the complete paper: https://tomesphere.com/paper/1703.08067/full.md

## References

28 references — full list in the complete paper: https://tomesphere.com/paper/1703.08067/full.md

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Source: https://tomesphere.com/paper/1703.08067