1. Species distribution shifts in response to climate change require that recruitment increase beyond current range boundaries. For trees with long lifespans, the importance of climate-sensitive seedling establishment to the pace of range shifts has not been demonstrated quantitatively. 2. Using spatially explicit, stochastic population models combined with data from long-term forest surveys, we explored whether the climate-sensitivity of recruitment observed in climate manipulation experiments was sufficient to alter populations and elevation ranges of two widely distributed, high-elevation North American conifers. 3. Empirically observed, warming-driven declines in recruitment led to rapid modeled population declines at the low-elevation,...
Many montane tree species are expected to migrate upslope as climate warms, but it is not clear if f...
The ability of tree species to track their climatic niche at rates comparable to global warming is c...
Tree-growth responses to environmental change could provide early detection of shifts in forest comp...
1. Species distribution shifts in response to climate change require that recruitment increase beyon...
Species distribution shifts in response to climate change require that recruitment increase beyond c...
Understanding how climate warming will affect the demographic rates of different ecotypes is critica...
Climate niche models project that subalpine forest ranges will extend upslope with climate warming. ...
Understanding how climate warming will affect the demographic rates of different ecotypes is critica...
Accurately predicting upslope shifts in subalpine tree ranges with warming requires understanding ho...
Accurately predicting upslope shifts in subalpine tree ranges with warming requires understanding ho...
Tree species are expected to track warming climate by shifting their ranges to higher latitudes or e...
Tree species are expected to track warming climate by shifting their ranges to higher latitudes or e...
The transition from seedlings into trees at alpine treelines is a temperature-limited process that u...
Predictions of upslope range shifts for tree species with warming are based on assumptions of moistu...
Many montane tree species are expected to migrate upslope as climate warms, but it is not clear if f...
The ability of tree species to track their climatic niche at rates comparable to global warming is c...
Tree-growth responses to environmental change could provide early detection of shifts in forest comp...
1. Species distribution shifts in response to climate change require that recruitment increase beyon...
Species distribution shifts in response to climate change require that recruitment increase beyond c...
Understanding how climate warming will affect the demographic rates of different ecotypes is critica...
Climate niche models project that subalpine forest ranges will extend upslope with climate warming. ...
Understanding how climate warming will affect the demographic rates of different ecotypes is critica...
Accurately predicting upslope shifts in subalpine tree ranges with warming requires understanding ho...
Accurately predicting upslope shifts in subalpine tree ranges with warming requires understanding ho...
Tree species are expected to track warming climate by shifting their ranges to higher latitudes or e...
Tree species are expected to track warming climate by shifting their ranges to higher latitudes or e...
The transition from seedlings into trees at alpine treelines is a temperature-limited process that u...
Predictions of upslope range shifts for tree species with warming are based on assumptions of moistu...
Many montane tree species are expected to migrate upslope as climate warms, but it is not clear if f...
The ability of tree species to track their climatic niche at rates comparable to global warming is c...
Tree-growth responses to environmental change could provide early detection of shifts in forest comp...