Research Brief: Shifting tundra vegetation spells change for arctic animals

Piece of a shrub magnified under a microscope.

Microscopic imaging reveals the pattern of annual rings in shrub stems, which the researchers used to determine that shrub growth is controlled by temperatures in June, the first month of the brief arctic growing season. Image courtesy of Daniel Ackerman.

For nearly two decades, scientists have noted dramatic changes in arctic tundra habitat. Ankle-high grasses and sedges have given way to a sea of woody shrubs growing to waist- or neck-deep heights. This shrubification of the tundra challenges animals like caribou that are adapted to low-stature arctic vegetation.

Pinpointing a cause has been difficult. However, new UMN research published in Environmental Research Letters found that regardless of soil fertility or rainfall amounts, the single variable that was by far the strongest determinant of how much a shrub grew in a given year was the temperature in June. A warmer June means faster shrub growth.

“It was a surprising result,” said Daniel Ackerman, a Ph.D. candidate in the Department of Ecology, Evolution and Behavior in the College of Biological Sciences. He led the UMN research team that traveled to the tundra in northern Alaska to investigate why the habitat was changing. “Other variables, including temperatures during the rest of the growing season in July and August, barely had an impact on shrub growth.”

Like trees at lower latitudes, shrubs in the tundra form a concentric ring around their stem each growing season. Ackerman's team used these annual rings to their advantage, collecting hundreds of shrub stems across a range of soil conditions. They measured the size of each annual ring in their samples—no easy task given that these shrubs can contain more than 50 rings in a stem with the diameter of a pencil.

After painstakingly measuring 20,000 individual shrub rings through a microscope, the team created records of historic shrub growth from across northern Alaska. Next, before coming to their findings, the team compared these growth records to climate observations, examining factors like precipitation, temperature, and solar radiation.

“Our new understanding of the link between June temperature and shrub growth means that we can expect shrubification to continue throughout northern Alaska,” said Ackerman. “With this study and others like it, we're beginning to understand the causes of shrubification. However, we still have a ways to go in predicting its effects. It seems like larger shrubs will benefit some animals, like moose and ptarmigan, while other animals, like caribou, could be harmed.”

Funding for this study was provided by the University of Minnesota’s Department of Ecology, Evolution, and Behavior; The Bell Museum of Natural History; The Explorers Club; and the National Science Foundation.

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University of Minnesota, Twin Cities
03/15/2018