Regeneration after bushfires could be compromised by climate change, according to research from the University of Tasmania.
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Professor Steven Smith and Dr Lu Wang from the School of Natural Sciences looked at how certain chemicals, produced by bushfires and crucial to stimulating new plant growth, respond to warming temperatures.
“We found that high temperatures and droughts can inhibit germination,” Professor Smith said.
“Some seeds might be vulnerable.
“We have highlighted an issue that people are not aware of and it may be that ecologists follow up and look at the impact on regeneration.”
Professor Smith and Dr Wang studied karrikins, which are among the most important group of chemicals which stimulate the germination of seeds of many types of plants following a bushfire.
They found that karrikins will only stimulate seed germination under conditions which favour seedling growth and establishment.
Using the study species Arabidopsis thaliana (also known as thale cress), Dr Wang found that if the temperature is too high, or if the seed experiences water deficit during exposure to karrikins, seed germination is inhibited rather than stimulated.
“Despite the scenes of blackened landscapes following bushfires, we know that new plant growth will soon emerge and that before too long the green landscape will return,” Professor Smith said.
“Our study found that even a few degrees above the optimum germination temperatures, karrikins can inhibit seed germination.
“If this discovery holds true for fire-following species more broadly, it could point to serious consequences for landscape recovery after bushfires as we experience more frequent warm periods due to climate change.”
Professor Smith’s latest findings build on his pioneering research in the field, as it was his team who originally discovered the mechanism by which chemicals, produced by bushfires, stimulate germination of dormant seeds.
“We might find that landscapes experiencing warmer weather following a bushfire, might show poor seed germination and reduced species diversity, resulting in less effective landscape regeneration,” he said.
“These findings argue for further research to determine the impact of this response of seeds to karrikins in natural environments, and to find ways to better manage regeneration after fires.”
The research paper, ‘Karrikin-KA12 signalling provides Arabidopsis seeds with tolerance to abiotic stress and inhibits germination under conditions unfavourable to seedling establishment’, has been published in the prestigious journal New Phytologist.