Add to ORKGRapid warming in northern ecosystems over the past four decades has resulted in earlier spring, increased precipitation, and altered timing of plant–animal interactions, such as herbivory. Advanced spring phenology can lead to longer growing seasons and increased carbon (C) uptake. Greater precipitation coincides with greater cloud cover possibly suppressing photosynthesis. Timing of herbivory relative to spring phenology influences plant biomass. None of these changes are mutually exclusive and their interactions could lead to unexpected consequences for Arctic ecosystem function. We examined the influence of advanced spring phenology, cloud cover, and timing of grazing on C exchange in the Yukon–Kuskokwim Delta of western Alaska for three...
High-latitude ecosystems are experiencing the most rapid climate changes globally, and in many areas...
Seasonal variations in high-latitude terrestrial carbon (C) fluxes are predominantly driven by air t...
Climate warming is a primary driver of observed increases in shrub growth and productivity across th...
Abstract Rapid warming in northern ecosystems over the past four decades has resulted in earlier sp...
Abstract The advancement of spring and the differential ability of organisms to respond to changes ...
Climate change is rapidly warming the Arctic, especially at lower latitudes. Warmer temperatures and...
The ongoing disproportionate increases in temperature and precipitation over the Arctic region may g...
An understudied aspect of climate change-induced phenological mismatch is its effect on ecosystem fu...
Arctic air temperatures have increased at two to three times the global rate over the past century. ...
Includes bibliographical references.2015 Summer.Altered seasonality is one of the many consequences ...
Abstract High latitude ecosystems are prone to phenological mismatches due to climate change- drive...
High latitude ecosystems are prone to phenological mismatches due to climate change- driven advances...
International audienceOngoing spring warming allows the growing season to begin earlier, enhancing c...
Increased photosynthetic activity and enhanced seasonal CO2 exchange of northern ecosystems have bee...
Climate change is expected to continue to cause large increases in temperature in Arctic and sub-Arc...
High-latitude ecosystems are experiencing the most rapid climate changes globally, and in many areas...
Seasonal variations in high-latitude terrestrial carbon (C) fluxes are predominantly driven by air t...
Climate warming is a primary driver of observed increases in shrub growth and productivity across th...
Abstract Rapid warming in northern ecosystems over the past four decades has resulted in earlier sp...
Abstract The advancement of spring and the differential ability of organisms to respond to changes ...
Climate change is rapidly warming the Arctic, especially at lower latitudes. Warmer temperatures and...
The ongoing disproportionate increases in temperature and precipitation over the Arctic region may g...
An understudied aspect of climate change-induced phenological mismatch is its effect on ecosystem fu...
Arctic air temperatures have increased at two to three times the global rate over the past century. ...
Includes bibliographical references.2015 Summer.Altered seasonality is one of the many consequences ...
Abstract High latitude ecosystems are prone to phenological mismatches due to climate change- drive...
High latitude ecosystems are prone to phenological mismatches due to climate change- driven advances...
International audienceOngoing spring warming allows the growing season to begin earlier, enhancing c...
Increased photosynthetic activity and enhanced seasonal CO2 exchange of northern ecosystems have bee...
Climate change is expected to continue to cause large increases in temperature in Arctic and sub-Arc...
High-latitude ecosystems are experiencing the most rapid climate changes globally, and in many areas...
Seasonal variations in high-latitude terrestrial carbon (C) fluxes are predominantly driven by air t...
Climate warming is a primary driver of observed increases in shrub growth and productivity across th...