What killed the patient? Determining causes of tree death during droughts and heatwaves
Image credit: Dr Timothy Brodribb UTAS
Researchers are using advanced imaging technologies similar to those used in hospitals to determine how vulnerable our trees are to drought and heatwaves. A new scientific review published In Nature outlines progress towards understanding the likely risks from droughts and heatwaves that combine to kill millions of trees around the world with spectacular effects on the environment.
Recent drought and heatwave conditions in northern Australia have killed more than 7000ha of mangrove forests, leaving these essential ecosystems stark, grey skeletons of trees. In California, the prolonged drought period has killed more than 100 million trees that increase the intensity of wildfires and impact on the region’s beauty, tourism and environmental health.
Dead trees, of course, cannot store carbon out of the air and the enormous numbers of dead trees release large quantities of stored carbon back into the air as they are burned or decay, further amplifying the effects of rising carbon dioxide.
In this research review released by Western Sydney University’s Hawkesbury Institute for the Environment and its international research team, scientists are using advanced technologies such as Medical Resonance Imaging (MRI) to peer into living trees and map how increasing dehydration of the trees results in the progressive dieback of leaves and branches, eventually causing the trees to be unable to move water through the stems. As the trees weaken, they become susceptible to insect and disease attacks which ultimately can kill the tree outright.
“Climatic changes are expected to increase the frequency and intensity of droughts and the combination of heat and dry really stresses even the hardiest trees”, explains Associate Professor Brendan Choat, lead author on the review.
Image credit: Prof Norman Duke, James Cook University
“If we can work out, using non-invasive methods like MRIs, the point at which trees become too dehydrated to survive then we can establish a dataset that can be used in the field to tell if a tree is reaching the point of no return”, he explains.
Trees are only able to move water to the tops of their branches if there is enough water in the soil and if they can preserve the column of water in their stems without bubbles or breakages. Most trees are able to maintain this flow of water but extreme demand for water during heat coupled with increasing soil dryness can mean that the flow can be interrupted. This can result in the death of leaves, then branches and ultimately the whole tree.
“Knowing the limits of individual tree species puts us in a good position to understand how vulnerable trees are to death”, says Assoc Prof Choat.
“Access to imaging facilities such as the Australian Synchrotron are essential for conserving our environments and play a crucial role in ensuring we are ahead of a rapidly changing world climate”.
Nature Paper: https://www.nature.com/articles/s41586-018-0240-x (opens in a new window)
28 June 2018
Western Sydney University is pleased to announce the appointment of Professor Brian Falzon as its new Dean of the School of Engineering, Design and Built Environment.
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