Long-term data from the Hubbard Brook Experimental Forest in New Hampshire show that air temperature has increased by about 1°C over the last half century. The warmer climate has caused significant declines in snow depth, snow water equivalent and snow cover duration. Paradoxically, it has been suggested that warmer air temperatures may result in colder soils and more soil frost, as warming leads to a reduction in snow cover insulating soils during winter. Hubbard Brook has one of the longest records of direct field measurements of soil frost in the United States. Historical records show no long-term trends in maximum annual frost depth, which is possibly confounded by high interannual variability and infrequency of major soil frost events....
Permafrost soils store huge amounts of organic carbon, which could be released if climate change pro...
The freeze-thaw process controls several hydrologic processes including infiltration, runoff, and so...
Climate of the northern hardwood forests of North America will become significantly warmer in the co...
Long‐term data from the Hubbard Brook Experimental Forest in New Hampshire show that air temperature...
Depth and duration of seasonal snow cover has important effects on temperate forest ecosystems. In t...
At global and regional scales, long-term changes in climate have been observed. Several studies have...
Climate models project an increase in mean annual air temperatures and a reduction in the depth and ...
Climate models project an increase in mean annual air temperatures and a reduction in the depth and ...
The freeze–thaw process controls several hydrologic processes, including infiltration, runoff, and s...
Forests of the northeastern U.S. help maintain water and air quality by reducing losses of nitrogen ...
In terrestrial high-latitude regions, observations indicate recent changes in snow cover, permafrost...
Freezing and thawing of soil is a common occurrence throughout the world. Indeed, approximately 50% ...
Frozen soil water is important in hydrologic events because it reduces water infiltration. The prese...
Winter soil respiration at midlatitudes can comprise a substantial portion of annual ecosystem carbo...
ABSTRACT: A changing climate may bring about more precipitation but less snowfall to Northeastern N...
Permafrost soils store huge amounts of organic carbon, which could be released if climate change pro...
The freeze-thaw process controls several hydrologic processes including infiltration, runoff, and so...
Climate of the northern hardwood forests of North America will become significantly warmer in the co...
Long‐term data from the Hubbard Brook Experimental Forest in New Hampshire show that air temperature...
Depth and duration of seasonal snow cover has important effects on temperate forest ecosystems. In t...
At global and regional scales, long-term changes in climate have been observed. Several studies have...
Climate models project an increase in mean annual air temperatures and a reduction in the depth and ...
Climate models project an increase in mean annual air temperatures and a reduction in the depth and ...
The freeze–thaw process controls several hydrologic processes, including infiltration, runoff, and s...
Forests of the northeastern U.S. help maintain water and air quality by reducing losses of nitrogen ...
In terrestrial high-latitude regions, observations indicate recent changes in snow cover, permafrost...
Freezing and thawing of soil is a common occurrence throughout the world. Indeed, approximately 50% ...
Frozen soil water is important in hydrologic events because it reduces water infiltration. The prese...
Winter soil respiration at midlatitudes can comprise a substantial portion of annual ecosystem carbo...
ABSTRACT: A changing climate may bring about more precipitation but less snowfall to Northeastern N...
Permafrost soils store huge amounts of organic carbon, which could be released if climate change pro...
The freeze-thaw process controls several hydrologic processes including infiltration, runoff, and so...
Climate of the northern hardwood forests of North America will become significantly warmer in the co...
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