Animals that regulate their body temperature through the external environment may be resilient to some climate change but not keep pace with rapid change, leading to potentially disastrous outcomes for biodiversity.
The study by The University of Queensland and the University of Sydney showed many animals can modify the function of their cells and organs to compensate for changes in the climate and have done so in the past.
But the researchers warned that the current rate of climate change could outpace animals' capacity for compensation (or acclimation).
It may also leave many species vulnerable to the current rapid changes.
Study co-author Professor Craig Franklin from UQ’s School of Biological Sciences said adapting to climate change would not only require animals to cope with higher temperatures.
“Climate change is predicted to increase fluctuations in temperature as well as overall temperature, requiring animals to function across a broader range of conditions,” Professor Franklin said.
“This is particularly important for ectotherms which are animals that rely on external sources of heat to control body temperature, and are therefore more influenced by environmental temperatures.”
The research showed that many groups of ectotherms, which make up more than 90 per cent of all animals, are able to change their physiological function to cope with an altered environment, but the rapid pace and fluctuations of human-induced climate change present serious challenges to acclimation.
The researchers studied 40 years of published data to assess how biological functions change in response to a sudden fluctuations in environmental temperatures.
Co-author, Professor Frank Seebacher from University of Sydney’s School of Biological Science said the study found that the physiological rates of ectothermic animals, such as heart rate, metabolism and locomotion, had increased already over the past 20 years with increasing average temperatures.
“It is important that animals maintain the right balance between the large number of physiological functions required for their survival despite environmental fluctuations,” Professor Seebacher said.
“An increase in temperature that leads to changes in physiological reaction rates can upset that balance and thereby cause the decline of individuals and species.
“For example, movement requires energy and oxygen to be delivered to muscles.
“However, if metabolism or the cardiovascular system can't cope with increased temperatures, animals can no longer move to forage, migrate or interact with each other,” he said.
“The overall trend in the last 20 years has been to increased physiological rates, and we predict that this would continue to increase with increasing temperature.
“Even if animals are able to maintain the balance of their physiological functions in a warmer climate, increased metabolism leads to increases in the food resources needed and could upset the balance in ecosystems, particularly if predator and prey populations respond very differently to the environmental temperature change."
The research has been published in Nature Climate Change (Letter).
Media: Professor Craig Franklin, c.franklin@uq.edu.au, 0434 602 327, Professor Frank Seebacher, frank.seebacher@sydney.edu.au, 0456 892 824