Future forests facing climate balancing act
Forests can cope in a warming world only if temperatures increase in line with rises in CO2, a study finds. …
Forests can cope with a warming world if – and only if – temperature rises increase in line with increases in atmospheric carbon dioxide.
Increased CO2 allows trees to develop physiological characteristics, such as greater foliage, that can cope with higher temperatures.
But researchers warn that a break in the temperature-CO2 increase ratio could trigger mortality in forests.
The findings appear in the Proceedings of the National Academy of Sciences.
“Nobody had really considered incorporating the ability of trees, the forests, to adjust to novel conditions and to acclimate,” explained co-author John Sperry from the University of Utah.
“So it felt like we were bringing in two new approaches to this longstanding question of whether CO2 or warming were going to play out in the future.”
Delicate balancing act
Higher levels of atmospheric CO2 allow trees to consume relatively less water and photosynthesise more, whereas increased temperatures result in trees consuming more water and photosynthesising less.
Using a unique model that took into account the trees’ physiology, Prof Sperry and his colleagues reached a rather surprising conclusion.
“What’s interesting is that it is not the magnitude of the CO2 increase or the magnitude of the warming, it was the ratio of the two,” he told BBC News.
“For example, it was interesting to see that the low emissions scenario is actually predicted to be closer to the tipping point; closer to the critical ratio than the higher emissions scenario.
“That’s simply because in the lower emissions scenario, the ratio of CO2 increase for warming is lower.”
Co-author Martin Venturas said the team did not find many differences between species in the study, which covered 20 locations across the mainland of the US, and included both deciduous and conifer species.
But Dr Venturas added: “There is still a huge amount of uncertainty, despite the fact that we have reduced uncertainty related to the physiology of the forest.”
One such uncertainty, he explained, was precipitation levels in a changing climate and how this change affected soil moisture levels.
However, the researchers said the study findings helped move the debate forward.
“If you were coming at this naively, you would think the more emissions, the worse the forest was going to be affected because it was going to get warmer,” observed Prof Sperry.
“But it is really the ratio of the two that is important. You can have a massive shift in CO2 and warming but as long as they travel along that neutral ratio, the force is physiologically neutral and you’ll have no response.”