Add to ORKGClimate change is happening faster in the Arctic than almost anywhere else in the world, and Arctic winters are warming especially rapidly. Among the consequences of this is an increase in the frequency of winter extreme events. These include climatic events, such as periods of extreme warmth, and biological events, such as outbreaks of defoliating insects. Such events are already having major impacts on Arctic landscapes, driving vegetation damage and decline across thousands of square kilometres. This loss of biomass and vegetation greenness is termed ‘Arctic browning’. Extreme events which drive Arctic browning are already occurring more frequently and with greater severity: a trend predicted to continue as climate change progresses. ...
The climatic changes on earth may have serious implications for the carbon (C) cycle in the terrestr...
The release of cold temperature constraints on photosynthesis has led to increased productivity (gr...
An assessment of the impacts of changes in climate and UV-B radiation on Arctic terrestrial ecosyste...
The Arctic is experiencing an increased frequency of extreme events which can cause landscape-scale...
Extreme climatic events are among the drivers of recent declines in plant biomass and productivity o...
Rapid climate change in Arctic regions is resulting in more frequent extreme climatic events. These ...
Rapid climate change in Arctic regions is resulting in more frequent extreme climatic events. These ...
Extreme winter events that damage vegetation are considered an important climatic cause of arctic b...
The Arctic is getting warmer and wetter. Here, we document two independent examples of how associate...
The Arctic has become an important region in which to assess the impacts of current climate variabil...
The reduction of cold temperature constraints on photosynthesis in recent decades has led to extende...
Abstract The Arctic is getting warmer and wetter. Here, we document two independent examples of how...
Arctic regions are experiencing faster rates of atmospheric warming than any other biome. Increasing...
As global temperatures rise, vegetation types will change, particularly in the northern high latitud...
The physical environment in the northern high latitudes including the Arctic cryosphere has undergon...
The climatic changes on earth may have serious implications for the carbon (C) cycle in the terrestr...
The release of cold temperature constraints on photosynthesis has led to increased productivity (gr...
An assessment of the impacts of changes in climate and UV-B radiation on Arctic terrestrial ecosyste...
The Arctic is experiencing an increased frequency of extreme events which can cause landscape-scale...
Extreme climatic events are among the drivers of recent declines in plant biomass and productivity o...
Rapid climate change in Arctic regions is resulting in more frequent extreme climatic events. These ...
Rapid climate change in Arctic regions is resulting in more frequent extreme climatic events. These ...
Extreme winter events that damage vegetation are considered an important climatic cause of arctic b...
The Arctic is getting warmer and wetter. Here, we document two independent examples of how associate...
The Arctic has become an important region in which to assess the impacts of current climate variabil...
The reduction of cold temperature constraints on photosynthesis in recent decades has led to extende...
Abstract The Arctic is getting warmer and wetter. Here, we document two independent examples of how...
Arctic regions are experiencing faster rates of atmospheric warming than any other biome. Increasing...
As global temperatures rise, vegetation types will change, particularly in the northern high latitud...
The physical environment in the northern high latitudes including the Arctic cryosphere has undergon...
The climatic changes on earth may have serious implications for the carbon (C) cycle in the terrestr...
The release of cold temperature constraints on photosynthesis has led to increased productivity (gr...
An assessment of the impacts of changes in climate and UV-B radiation on Arctic terrestrial ecosyste...