Researchers based at Monash University and the Swedish Museum of Natural History have pioneered the use of nuclear imaging techniques at ANSTO’s Australian Centre for Neutron Scattering to resolve long-standing gaps in knowledge of the evolution of plants, including Australian natives, that adapted to depend on fires.
Their work has highlighted the key role of wildfires* in the evolution of floral ecosystems.
Dr Chris Mays, a Postdoctoral Researcher at the Swedish Museum of Natural History and Research Affiliate at Monash University, has used fossils of plant reproductive structures, like pine cones, to show how they have adapted to fire.
Plants are known to have adapted during two pivotal intervals in their evolutionary history: a mass extinction event in the end Permian period (252 million years ago) and the rise of the flowering plants during the mid-Cretaceous hothouse period (120–95 million years ago).
“These extreme warming periods were evolutionary ‘bottlenecks’, through which only fire-adapted plants survived. The evolutionary legacy is all around us in Australia, where a huge proportion of the plants today have fire-adaptive traits,” said Mays.
Using neutron tomography on Dingo, the researchers were able to virtually extract images of amber from within fossils and differentiate plant tissues.
“Neutron tomography is an ideal method for non-destructive, three-dimensional imaging of organically preserved, or ‘coalified’, fossil plants. These are the most common types of plant fossils in the rock record,” said Mays.
Because neutrons can easily penetrate through dense sediments, they can be used to see details of extremely fragile fossils, like those of coalified plants, without the need for meticulous extraction. This minimalist approach to fossil preparation ensures that such delicate fossils remain well-preserved in their protective sediments.
The plant fossils are hydrogen-rich, which means they stand out in contrast to the surrounding rock matrix when imaged with high-resolution neutron tomography.
“Neutrons can successfully differentiate fossil plant tissue that is compositionally similar, where other techniques routinely fail,” said Mays.
Read more on the ANSTO website
Image: Dr Maggie-Anne Harvey (left) and Dr Andrew Langendam preparing fossil plant specimens on Dingo