Forest Growth Accelerating In Canada Due To CO2 ‘Fertilizer Effect’

Rising levels of carbon dioxide in the atmosphere are accelerating the growth of B.C.’s forests by one to three per cent a year, enough to cancel out the impact on the climate from the mountain pine beetle outbreak by 2020, according to a new study from the Pacific Institute for Climate Solutions.

Pine trees damaged during the mountain pine beetle infestation near Quesnel. Mark Yuen/Vancouver Sun /

“This turnaround will happen much sooner than we had imagined,” said lead author and Environment Canada climate scientist Vivek Arora.

The pine beetle infestation, which killed countless trees over 18 million hectares, had a double impact — dramatically reducing the ability of western Canadian forests to store carbon, and worse, releasing massive quantities of carbon as dead stands of pine rotted or burned. The combined effect turned B.C. forests from a carbon sink (a reservoir) into a carbon source during the peak years of the outbreak between 2009 to 2011, said co-author Werner Kurz of the Canadian Forest Service.

Computer models estimate that B.C. forests stored 328 million tonnes less carbon dioxide and released in excess of one billion tonnes of CO2 into the atmosphere during the outbreak, which began in 1999.

However, the effects of global warming — rising temperatures, higher rainfall, and an atmosphere richer in carbon dioxide — have created a “fertilization effect” which has accelerated the growth of trees, especially in the high-latitude forests that cover much of Canada, Russia and Europe.

Relatively cool temperatures in Canadian forests typically limit tree growth and carbon uptake to less than half the rate seen in tropical latitudes. But that is beginning to change.

New research suggests that climate change has increased the rate of growth and carbon storage in our forests, so much so that an additional one billion tonnes of carbon dioxide will be stored by our trees between the pine beetle outbreak and 2020.

“We have transitioned from a period at the peak of the mountain pine beetle outbreak, when the forests were a carbon source, to now, where they have become a sink (again),” said Kurz.

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