Add to ORKGSeasonal variations in high-latitude terrestrial carbon (C) fluxes are predominantly driven by air temperature and radiation. At present, high-latitude net C uptake is largest during the summer. Recent observations and modeling studies have demonstrated that ongoing and projected climate change will increase plant productivity, microbial respiration, and growing season lengths at high-latitudes, but impacts on high-latitude C cycle seasonality (and potential feedbacks to the climate system) remain uncertain. Here we use ecosys, a well-tested and process-rich mechanistic ecosystem model that we evaluate further in this study, to explore how climate warming under an RCP8.5 scenario will shift C cycle seasonality in Alaska throughout the 21st ...
The large magnitude of predicted warming at high latitudes and the potential feed-back of ecosystems...
Warming during late winter and spring in recent decades has been credited with increasing high north...
International audienceMost studies of the northern hemisphere carbon cycle based on atmospheric CO 2...
Seasonal variations in high-latitude terrestrial carbon (C) fluxes are predominantly driven by air t...
International audienceCarbon balance of terrestrial ecosystems in the northern high latitudes (NHL) ...
Carbon balance of terrestrial ecosystems in the northern high latitudes (NHL) is sensitive to climat...
International audienceOngoing spring warming allows the growing season to begin earlier, enhancing c...
Climate warming is occurring fastest at high latitudes. Based on short-term field experiments, this ...
Ongoing spring warming allows the growing season to begin earlier, enhancing carbon uptake in northe...
Abstract In the northern high latitudes, warmer spring temperatures generally lead to earlier leaf o...
Recent observed shifts in Arctic tundra shrub cover have uncertain impacts on 21st century net ecosy...
The large magnitude of predicted warming at high latitudes and the potential feed-back of ecosystems...
Warming during late winter and spring in recent decades has been credited with increasing high north...
International audienceMost studies of the northern hemisphere carbon cycle based on atmospheric CO 2...
Seasonal variations in high-latitude terrestrial carbon (C) fluxes are predominantly driven by air t...
International audienceCarbon balance of terrestrial ecosystems in the northern high latitudes (NHL) ...
Carbon balance of terrestrial ecosystems in the northern high latitudes (NHL) is sensitive to climat...
International audienceOngoing spring warming allows the growing season to begin earlier, enhancing c...
Climate warming is occurring fastest at high latitudes. Based on short-term field experiments, this ...
Ongoing spring warming allows the growing season to begin earlier, enhancing carbon uptake in northe...
Abstract In the northern high latitudes, warmer spring temperatures generally lead to earlier leaf o...
Recent observed shifts in Arctic tundra shrub cover have uncertain impacts on 21st century net ecosy...
The large magnitude of predicted warming at high latitudes and the potential feed-back of ecosystems...
Warming during late winter and spring in recent decades has been credited with increasing high north...
International audienceMost studies of the northern hemisphere carbon cycle based on atmospheric CO 2...