Add to ORKGBiome differences in surface energy balance strongly affect climate. However, arctic vegetation is considered sufficiently uniform that only a single arctic land surface type is generally used in climate models. Field measurements in northern Alaska show large differences among arctic ecosystem types in summer energy absorption and partitioning. Simulations with the Arctic Regional Climate System Model demonstrate that these variations in land surface parameters and ecological processes cause variation in surface fluxes that is sufficiently large to affect the regional climate. Plausible changes in arctic vegetation in response to high-latitude warming would feed back positively to local summer warming. This local warming could extend into ...
An assessment of impacts on Arctic terrestrial ecosystems has emphasized geographical variability in...
Large variations in the composition, structure, and function of Arctic ecosystems are determined by ...
[1] Large variations in the composition, structure, and function of Arctic ecosystems are determined...
Biome differences in surface energy balance strongly affect climate. However, arctic vegetation is c...
Synthesis of results from several Arctic and boreal research programmes provides evidence for the st...
This paper summarizes and analyses available data on the surface energy balance of Arctic tundra and...
Increased greening, higher vegetation productivity, and shrubification have been observed in Arctic ...
One major challenge to the improvement of regional climate scenarios for the northern high latitudes...
The physical environment in the northern high latitudes including the Arctic cryosphere has undergon...
Amplified warming at high latitudes over the past few decades has led to changes in the boreal and A...
Large variations in the composition, structure, and function of Arctic ecosystems are determined by ...
Large variations in the composition, structure, and function of Arctic ecosystems are determined by ...
This paper compares the responses of two contrasting Arctic ecosystems to climate change simulations...
A rise in global air temperatures is expected to increase permafrost thaw and alter ecosystem carbon...
As global temperatures rise, vegetation types will change, particularly in the northern high latitud...
An assessment of impacts on Arctic terrestrial ecosystems has emphasized geographical variability in...
Large variations in the composition, structure, and function of Arctic ecosystems are determined by ...
[1] Large variations in the composition, structure, and function of Arctic ecosystems are determined...
Biome differences in surface energy balance strongly affect climate. However, arctic vegetation is c...
Synthesis of results from several Arctic and boreal research programmes provides evidence for the st...
This paper summarizes and analyses available data on the surface energy balance of Arctic tundra and...
Increased greening, higher vegetation productivity, and shrubification have been observed in Arctic ...
One major challenge to the improvement of regional climate scenarios for the northern high latitudes...
The physical environment in the northern high latitudes including the Arctic cryosphere has undergon...
Amplified warming at high latitudes over the past few decades has led to changes in the boreal and A...
Large variations in the composition, structure, and function of Arctic ecosystems are determined by ...
Large variations in the composition, structure, and function of Arctic ecosystems are determined by ...
This paper compares the responses of two contrasting Arctic ecosystems to climate change simulations...
A rise in global air temperatures is expected to increase permafrost thaw and alter ecosystem carbon...
As global temperatures rise, vegetation types will change, particularly in the northern high latitud...
An assessment of impacts on Arctic terrestrial ecosystems has emphasized geographical variability in...
Large variations in the composition, structure, and function of Arctic ecosystems are determined by ...
[1] Large variations in the composition, structure, and function of Arctic ecosystems are determined...