Add to ORKGRapid warming and changes in water availability at high latitudes alter resource abundance, tree competition, and disturbance regimes. While these changes are expected to disrupt the functioning of boreal forests, their ultimate implications for forest composition are uncertain. In particular, recent site-level studies of the Alaskan boreal forest have reported both increases and decreases in productivity over the past few decades. Here, we test the idea that variations in Alaskan forest growth and mortality rates are contingent on species composition. Using forest inventory measurements and climate data from plots located throughout interior and south-central Alaska, we show significant growth and mortality responses associated with compet...
Pervasive forest mortality is expected to increase in future decades as a result of increasing tempe...
Background: Considerable changes in vegetation structure and distribution are predicted in high lati...
Climate change and natural disturbances are catalysing forest transitions to different vegetation ty...
Rapid warming and changes in water availability at high latitudes alter resource abundance, tree com...
The boreal biome represents approximately one third of the world\u27s forested area and plays an imp...
Abstract Climate change‐driven droughts and insect outbreaks are becoming more frequent and widespre...
There has been a recent increase in the frequency and extent of wildfires in interior Alaska, and th...
Unprecedented rates of climate change have increased forest stress and mortality worldwide. Previous...
High-latitude regions have experienced rapid warming in recent decades, and this trend is projected ...
Climate change is expected to impact forests worldwide, and yellow-cedar decline has been used as an...
Warming during late winter and spring in recent decades has been credited with increasing high north...
Understanding interactions between competition and climate in relation to their effects on individua...
We investigated the influence of landscape factors on the distribution and life stage stability of c...
International audience"Since the mid 1970s, Interior Alaska white spruce trees experienced markedly ...
High latitude regions are warming rapidly with important ecological and societal consequences. Utili...
Pervasive forest mortality is expected to increase in future decades as a result of increasing tempe...
Background: Considerable changes in vegetation structure and distribution are predicted in high lati...
Climate change and natural disturbances are catalysing forest transitions to different vegetation ty...
Rapid warming and changes in water availability at high latitudes alter resource abundance, tree com...
The boreal biome represents approximately one third of the world\u27s forested area and plays an imp...
Abstract Climate change‐driven droughts and insect outbreaks are becoming more frequent and widespre...
There has been a recent increase in the frequency and extent of wildfires in interior Alaska, and th...
Unprecedented rates of climate change have increased forest stress and mortality worldwide. Previous...
High-latitude regions have experienced rapid warming in recent decades, and this trend is projected ...
Climate change is expected to impact forests worldwide, and yellow-cedar decline has been used as an...
Warming during late winter and spring in recent decades has been credited with increasing high north...
Understanding interactions between competition and climate in relation to their effects on individua...
We investigated the influence of landscape factors on the distribution and life stage stability of c...
International audience"Since the mid 1970s, Interior Alaska white spruce trees experienced markedly ...
High latitude regions are warming rapidly with important ecological and societal consequences. Utili...
Pervasive forest mortality is expected to increase in future decades as a result of increasing tempe...
Background: Considerable changes in vegetation structure and distribution are predicted in high lati...
Climate change and natural disturbances are catalysing forest transitions to different vegetation ty...