Nav: Home

Siberian larch forests are still linked to the ice age

June 24, 2016

Bremerhaven/Germany, 24 June 2016. The Siberian permafrost regions include those areas of the Earth, which heat up very quickly in the course of climate change. Nevertheless, biologists are currently observing only a minimal response in forest composition. In the places where, when considering the air temperature, pine and spruce forests should be growing, Siberian larch trees are still thriving. The cause of this paradox has been tracked using million-year-old bee pollen by scientists at the Alfred Wegener Institute, the University of Cologne, and international partner institutions. The results suggest that the intensity of the ice ages determined how quick the vegetation adapted to warmer climate periods. In our case, that means: Because the last ice age was very cold, the vegetation of the Taiga lags behind the climate by many thousands of years. A surprisingly long period, as the researchers in the open access journal Nature Communications report.

The Potsdam scientist Ulrike Herzschuh knows the Siberian larch woods almost as well as the park on Telegrafenberg where her institute is located. Almost every summer the permafrost expert from the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research (AWI) spends time in the endless forests of Siberia, collecting plant samples, determining growth boundaries and collecting sediment cores from lakes. "Based on the temperature increase in the last century the larch forests should have displaced in the tundra in the Northern Siberia and should have been invaded by pines and spruces from the south. But studies so far have shown only very small changes in the vegetation - and we were wondering why," the AWI researcher says.

Searching for the cause, Ulrike Herzschuh and her international team travelled back 2.1 to 3.5 million years - to the Pliocene and Pleistocene periods. The scientists examined pollen that were preserved in sediments of Lake El'gygytgyn (region of Chukotka, in the Russian Far East). The scientists compared these traces of vegetation with reconstructed climate values of the warm and cold periods of that time.

The statistical analysis of the pollen data revealed a distinct pattern. Ulrike Herzschuh: "Our data shows that the vegetation in the past took up to several thousand years to adapt to climate change when there was a change from a cold period to a warm period. This is really new. Up until now, us climate researchers considered that there was a lag of decades or few hundreds of years, but not thousands."

A look into the past indicates: The colder the ice age was, the longer the vegetation needed to adapt afterwards to the new climate of the warmer period. "In analogy to these results, this means: Due to the fact that the most recent ice age, about 20,000 years ago, was extremely cold, the permafrost spread over a large area, and forced deep rooted trees such as pines and spruces far to the south. The shallow-rooted Siberian larch trees - which only require a summer thawing of the permafrost soils of 20 to 30 centimetres - were able to survive in protected areas in the region," explained Ulrike Herzschuh.

The larch forest however, with its dense carpet of roots protects the ice underneath from thawing. "We have observed many times in regions where the larch forest was cut down, that the permafrost melted faster than in other forested areas," according to the AWI researcher.

The insulating effect of the larch forest could therefore be one of the reasons why it always took several thousands of years in the past, after a particularly cold ice age that the permafrost vanished and pine and spruce trees displaced the larch.

The scientific community now faces a major challenge due to the new findings about the time-delayed adaptation of vegetation: "In the wake of sustained warming of the Arctic, pines and spruces are now slowly coming to the Siberian Taiga. This means that the forests will become denser and thus also darker so they will save more heat than before. This fact in turn implies that the temperature in Siberia will rise in the distant future. Even if mankind manages to stabilise the carbon dioxide levels in the atmosphere in the near future," says Ulrike Herzschuh. The implementation of these long-term vegetation processes is therefore urgently needed in climate models.
-end-
Ulrike Herzschuh presents her study at the 11th International Permafrost Conference (ICOP) organised by AWI from the 20 - 24th June 2016 in Potsdam. More information on this permafrost research community conference, which takes place every four years, can be found at http://www.icop2016.org.

Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research

Related Climate Change Articles:

Fairy-wrens change breeding habits to cope with climate change
Warmer temperatures linked to climate change are having a big impact on the breeding habits of one of Australia's most recognisable bird species, according to researchers at The Australian National University (ANU).
Believing in climate change doesn't mean you are preparing for climate change, study finds
Notre Dame researchers found that although coastal homeowners may perceive a worsening of climate change-related hazards, these attitudes are largely unrelated to a homeowner's expectations of actual home damage.
Older forests resist change -- climate change, that is
Older forests in eastern North America are less vulnerable to climate change than younger forests, particularly for carbon storage, timber production, and biodiversity, new research finds.
Could climate change cause infertility?
A number of plant and animal species could find it increasingly difficult to reproduce if climate change worsens and global temperatures become more extreme -- a stark warning highlighted by new scientific research.
Predicting climate change
Thomas Crowther, ETH Zurich identifies long-disappeared forests available for restoration across the world.
More Climate Change News and Climate Change Current Events

Best Science Podcasts 2019

We have hand picked the best science podcasts for 2019. Sit back and enjoy new science podcasts updated daily from your favorite science news services and scientists.
Now Playing: TED Radio Hour

Rethinking Anger
Anger is universal and complex: it can be quiet, festering, justified, vengeful, and destructive. This hour, TED speakers explore the many sides of anger, why we need it, and who's allowed to feel it. Guests include psychologists Ryan Martin and Russell Kolts, writer Soraya Chemaly, former talk radio host Lisa Fritsch, and business professor Dan Moshavi.
Now Playing: Science for the People

#537 Science Journalism, Hold the Hype
Everyone's seen a piece of science getting over-exaggerated in the media. Most people would be quick to blame journalists and big media for getting in wrong. In many cases, you'd be right. But there's other sources of hype in science journalism. and one of them can be found in the humble, and little-known press release. We're talking with Chris Chambers about doing science about science journalism, and where the hype creeps in. Related links: The association between exaggeration in health related science news and academic press releases: retrospective observational study Claims of causality in health news: a randomised trial This...