How cathedral termites got to Australia to build their 'sky-scrapers'
Mounds equivalent to 4 Burj Khalifas, the world's tallest building
- Date:
- February 21, 2017
- Source:
- University of Sydney
- Summary:
- They build among the tallest non-human structures (proportionately speaking) in the world and now a pioneering study has found the termites that live in Australia's remote Top End originated from overseas -- rafting vast distances and migrating from tree-tops to the ground, as humans later did. They adapted to significant environmental changes, including increasingly arid conditions and changed from wood- to grass-eaters, with their ground-based fortresses are now a prominent feature of remote areas 'Down Under'.
- Share:
They build among the tallest non-human structures (proportionately speaking) in the world and now it's been discovered the termites that live in Australia's remote Top End originated from overseas -- rafting vast distances and migrating from tree-tops to the ground, as humans later did.
Referred to as "cathedral" termites, the Nasutitermes triodiae build huge mounds up to eight metres high in the Northern Territory, Western Australia and Queensland -- representing some of the tallest non-human animal structures in the world.
DNA sequencing found the forebearers, called nasute termites, colonised Australia three times in the past 20 million years or so and evolved from wood to grass-feeding as they adapted to significant environmental changes, including increasingly arid conditions and the conversion of woodlands to grassland habitats in subtropical savannahs and central Australia.
Now a prominent feature of the arid landscape "Down Under," the mounds house millions of termites; this study is the first comprehensive investigation of the evolution of the nesting and feeding of the extended family of termites, through the Australian refugee descendants.
The findings of the international research are published in the Royal Society journal Biology Letters.
Co-lead author of the paper from the University of Sydney, Associate Professor Nathan Lo, said although much was known about the functions of termite mounds -- which include protection from predators -- little had been known about their evolutionary origins.
"We found that the ancestors of Australia's fortress-building termites were coastal tree-dwellers, which arrived in Australia by rafting long distances over the oceans from either Asia or South America," Associate Professor Lo said.
"Once in Australia, they continued to build their nests in trees, but later descended and began building mounds on the ground instead, paralleling the evolution of the other great architects of the world -- human beings, whose ancestors lived in the tree tops some millions of years ago."
Associate Professor Lo, from the University of Sydney's School of Life and Environmental Sciences, said the mounds are an engineering feat when considered in comparison to the tallest structure on Earth -- Dubai's skyscraper the Burj Khalifas.
"Given that a worker termite stands about 3mm in height, these mounds are in human terms the equivalent of four Burj Khalifas stacked on top of each other," he said.
The paper, "Parallel evolution of mound-building and grass-feeding in Australian nasute termites," said ancestral wood feeders would likely have lost the ability to feed on wood as they transitioned to feeding on litter and grass.
"This group is one of the most ecologically successful groups of termites in Australia," the paper reads.
"We have shown that its capacity to disperse over oceans -- and to repeatedly evolve the ability to build mounds and feed on novel substrates in the face of significant environmental change -- appears to have been important in promoting this success."
Story Source:
Materials provided by University of Sydney. Note: Content may be edited for style and length.
Journal Reference:
- Daej A. Arab, Anna Namyatova, Theodore A. Evans, Stephen L. Cameron, David K. Yeates, Simon Y. W. Ho, Nathan Lo. Parallel evolution of mound-building and grass-feeding in Australian nasute termites. Biology Letters, 2017; 13 (2): 20160665 DOI: 10.1098/rsbl.2016.0665
Cite This Page: