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UNH researchers study effect of warmer, snowless winters

February 28. 2018 8:26PM

DURHAM — New England’s warmer, snow-free winters may increase carbon dioxide losses in forests, where deciduous trees can’t take advantage of warm temperatures before their leaves emerge, according to University of New Hampshire researchers.

“However, farms cultivating grasses have a greater potential to start growing in the winter ‘dormant season,’ perhaps partially offsetting the increasing winter carbon losses from forests,” states a news release from the New Hampshire Agricultural Experiment Station at UNH.

“New England’s winters are becoming increasingly variable, but the effects on different ecosystems, such as forests and farms, are poorly understood,” said Dr. Rebecca Sanders-DeMott, postdoctoral research associate supported by the experiment station.

“We are trying to determine how changing winter conditions will affect how plants and soils in these ecosystems process carbon. The flow of carbon provides a unique picture of the health and function of ecosystems: uptake of carbon dioxide occurs when plants photosynthesize and grow, while carbon dioxide losses are a result of respiration by both plants and the microscopic organisms that live in soils.”

To evaluate the impact of warmer, more variable winters on New England ecosystems, Sanders-DeMott and her collaborators have been using sophisticated instrumentation since 2014 at the experiment station’s Thompson Farm forest in Durham and Kingman Research Farm hayfield in Madbury to continuously monitor how much carbon dioxide is moving into and out of the ecosystem.

Automated sensors mounted on towers above the vegetation canopy measure wind speed, air temperature, and carbon dioxide concentrations 10 times every second.

“By examining the uptake and loss of carbon at each site across several winters with variable weather conditions, scientists are learning about how winter climate affects ecosystems that are important components of the New England landscape,” the news release states.

Beginning in December, daily measurements of snow and soil frost depth at both Thompson Farm forest and Kingman Farm hayfield are being taken by Emily Wilcox, an undergraduate in earth sciences; Dr. Elizabeth Burakowski, research assistant professor in earth sciences; Dr. Alexandra Contosta, research assistant professor in environmental science and soil science; and Sanders-DeMott.

“These data will help researchers understand how the effect of snow on soil temperatures and frost depth affects the patterns of carbon dioxide uptake and loss from forests and grasslands,” the news release says.

Sanders-DeMott points to the recent variation in winter weather.

“While winter 2014-2015 was quite cold and snowy, winter 2016-2017 was on the warmer side of what we consider normal, and in the winter 2015-2016 we saw the warmest air temperatures ever recorded in New England,” she said.

“Conditions in winter 2015-2016 were so warm that the grasses at the Kingman Research Farm began growing in February and kept growing into the summer. This early growth resulted in the grassland becoming a sink for carbon dioxide — taking up and storing more carbon dioxide than it released in February to April of 2016, whereas in a typical year the grassland would be a carbon dioxide source during this period,”

In contrast to the Kingman Research Farm grasses, she said the Thompson Farm forest showed a more sluggish response to the warm 2015-2016 winter.

Although the evergreen pine trees started to grow earlier than normal in mid-March 2016, the deciduous maples and oaks hadn’t yet produced new leaves and couldn’t capitalize on the warm weather. Instead, the warm temperatures and lack of snow caused unusually high levels of respiration in soils and a very large loss of carbon to the atmosphere from February to April 2016, Sanders-DeMott said.

Although the forest usually loses carbon dioxide to the atmosphere during this time of year, in 2016 the amount of carbon dioxide lost was three times greater than a typical year, she said.

“Changes in winter climate, such as warmer air temperatures and less snow cover, can influence plant and soils in the following growing season,” Sanders-DeMott said. “A better understanding of how winter weather affects ecosystems will help us predict whether our ecosystems will exacerbate or mitigate climate change by taking up or removing carbon dioxide from the atmosphere.”

The research was presented recently at the American Geophysical Union Annual Meeting in New Orleans and at the 11th annual Lamprey River Research Symposium at UNH.

UNH research collaborators also include experiment station researcher Dr. Scott Ollinger, professor of ecosystem ecology and remote sensing; Dr. Andrew Ouimette, research scientist in ecosystem ecology; and Sean Fogarty, field research assistant.

This material is based upon work supported by the NH Agricultural Experiment Station, through joint funding of the National Institute of Food and Agriculture, U.S. Department of Agriculture and state of New Hampshire.

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