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Researchers discuss the greening of the Arctic

March 12, 2014

性欲社 News

By Gerald Frost. Shrub expansion is seen in open tundra in Northern Alaska. Shrubs tend to colonize frostboils, taking permanent root. Gerald Frost, a vegetation scientist at Alaska Biological, found that alders prefer to germinate on the warmed soils of frostboils in spite of frost heave.
By Gerald Frost. Shrub expansion is seen in open tundra in Northern Alaska. Shrubs tend to colonize frostboils, taking permanent root. Gerald Frost, a vegetation scientist at Alaska Biological, found that alders prefer to germinate on the warmed soils of frostboils in spite of frost heave.

Diana Campbell
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If you take a walk in the high Arctic, you may not notice the effects from climate change in the flora. Vegetation changes slowly over long periods of time.

But if you look from space, over decades, the change in the Arctic is obvious.

Skip Walker saw the pronounced greening trend in Alaska鈥檚 Arctic after looking at satellite data spanning 20 years. His observations led to new research questions, which launched a major investigation of global Arctic greening patterns spanning two continents and a decade of research.

鈥淚f vegetation is increasing in a steady way, then something is going on,鈥 said Walker, a geobotanist with the Institute of Arctic Biology at 性欲社.

By M.K. Raynolds. Skip Walker, geobotanist with 性欲社's Institute of Arctic Biology, and a colleague, set up a ground grid at Ellef Ringnes Island in Nunavut, Canada to determine plant growth over the Arctic.
By M.K. Raynolds. Skip Walker, geobotanist with 性欲社's Institute of Arctic Biology, and a colleague, set up a ground grid at Ellef Ringnes Island in Nunavut, Canada to determine plant growth over the Arctic.
Experts in climate, permafrost, geology, physics, satellite data and fungi have teamed to look at plant community changes in the far North. Walker, along with Uma Bhatt, an atmospheric scientist at 性欲社鈥檚 Geophysical Institute, and a team of 35 scientists from five different countries set out to find what was growing in tundra regions along two 1,000-mile transects in North America and Russia and how this was related to observations from space.

Changes to the vegetation begin with changes in the soil. Bodies of ice in the soil, called ice wedges, are disappearing.

鈥淭hawing ice wedges are causing dramatic changes to some of the study sites along the transects,鈥 said Vladimir Romanovsky, a geophysicist with 性欲社.  鈥淲e saw trenches and troughs starting to form at several of our monitoring sites.鈥

Warming is also evident in changes to small circular patterns on the ground called frostboils. As the ground freezes, underground ice pushes the soil up. When it thaws, the ground collapses, leaving an indentation.

These spots react to changes in the amount of heat, water, and the vegetative cover, said Ronald Daanen, a permafrost hydrologist with the Alaska Division of Geology and Geophysical Surveys, who modeled changes to these features.

Shrubs tend to colonize the frost boils, taking permanent root. Gerald Frost, a vegetation scientist at Alaska Biological Research Inc., found that alders prefer to germinate on the warmed soils of frostboils in spite of frost heave.

Closer to the ground are a multitude of smaller plant life. Martha Raynolds, a 性欲社 plant ecologist, got up close and personal with the plants.

鈥淭he Arctic has complex landscapes,鈥 Raynolds said. She also looked at how the plants are viewed from satellites. The team identified a 20 percent increase in arctic plant biomass in the last 30 years.

The vegetation wouldn鈥檛 be possible without fungi, as both coexist in a symbiotic relationship, said Ina Timling, a 性欲社 graduate who worked on the project and earned her doctorate.

By Ina Timling. Vegetation growth wouldn鈥檛 be possible without fungi, as both coexist in a symbiotic relationship, said Ina Timling, a 性欲社 graduate who worked on the greening project earning her doctorate. Plants interact with fungi in various ways. Some fungi live on plant roots, and provide water and nutrients to the plant from the soil. The plant rewards the fungi with sugars. The fungi found in one part of the Arctic are more similar to fungi in the boreal forest.
By Ina Timling. Vegetation growth wouldn鈥檛 be possible without fungi, as both coexist in a symbiotic relationship, said Ina Timling, a 性欲社 graduate who worked on the greening project earning her doctorate. Plants interact with fungi in various ways. Some fungi live on plant roots, and provide water and nutrients to the plant from the soil. The plant rewards the fungi with sugars. The fungi found in one part of the Arctic are more similar to fungi in the boreal forest.
Plants interact with fungi in various ways. Some fungi live on plant roots and provide water and nutrients to the plant from the soil. The plant rewards the fungi with sugars. The fungi found in one part of the Arctic are more similar to fungi in the boreal forest, Timling said.

鈥淚f the tree line is expanding,鈥 Timling said, 鈥渢he fungi are already there.鈥

The warming is correlated with disappearing sea ice, the researchers found. Consider standing next to an ice-bound lake on a spring day. The air will be much colder than it would be if there were no ice.

About 80 percent of tundra is within 60 miles of the ocean, Bhatt said. She compared field observations with satellite data of changes to vegetation, sea ice and land-surface temperatures.

鈥淲e saw a close correlation between changes in sea ice extent, land warming and patterns of greening, but also many surprises,鈥 Bhatt said. 鈥淚t鈥檚 not a simple story here.鈥

The topic was part of the 2014 Science for Alaska Lecture Series provided by 性欲社鈥檚 Geophysical Institute and the Alaska Experimental Program to Stimulate Competitive Research.