Add to ORKGEcological disturbance strongly influences the regeneration success of aspen forests. In particular increasing wildfire and high abundance of ungulate herbivores are modifying patterns of aspen regeneration in the western US. We summarize the impacts of wildfire size and severity, and ungulate herbivory on aspen regeneration success and explore how climate variability modifies these relationships
Aspen (Populus tremuloides) is an important part of forests in the western U.S. In contrast to conif...
Species that are primarily seral may form stable (self‐sustaining) communities under certain disturb...
Media reports of quaking aspen’s doom are common in the western U.S. We’re told aspen is dying ‘from...
Climate change impacts on forest systems will likely be concentrated through influences on climate-s...
Forest ecosystems are being affected by both the indirect and direct results of climate change. Indi...
The abundance and composition of ungulate herbivore communities are changing globally, which can imp...
Aspen is the only deciduous tree species with substantial extent across much of the western United S...
Prescribed fire is commonly used for restoration, but the effects of reintroducing fire following a ...
Aims Recognizing ungulate browsing thresholds between viable and declining aspen (Populus tremuloide...
Altered climate and changing fire regimes are synergistically impacting forest communities globally,...
Human activities and climate change are increasing the size and severity of wildfires globally, crea...
Trembling aspen (Populus tremuloides) is failing to survive through the sapling stage (2 to 4 m) to...
Fire suppression over the last century has increased conifer expansion and dominance in aspen-conife...
Herbivory by domestic and wild ungulates can dramatically affect vegetation structure, composition a...
Quaking aspen (Populus tremuloides Michx.) comprises only a small fraction of western USA forests, y...
Aspen (Populus tremuloides) is an important part of forests in the western U.S. In contrast to conif...
Species that are primarily seral may form stable (self‐sustaining) communities under certain disturb...
Media reports of quaking aspen’s doom are common in the western U.S. We’re told aspen is dying ‘from...
Climate change impacts on forest systems will likely be concentrated through influences on climate-s...
Forest ecosystems are being affected by both the indirect and direct results of climate change. Indi...
The abundance and composition of ungulate herbivore communities are changing globally, which can imp...
Aspen is the only deciduous tree species with substantial extent across much of the western United S...
Prescribed fire is commonly used for restoration, but the effects of reintroducing fire following a ...
Aims Recognizing ungulate browsing thresholds between viable and declining aspen (Populus tremuloide...
Altered climate and changing fire regimes are synergistically impacting forest communities globally,...
Human activities and climate change are increasing the size and severity of wildfires globally, crea...
Trembling aspen (Populus tremuloides) is failing to survive through the sapling stage (2 to 4 m) to...
Fire suppression over the last century has increased conifer expansion and dominance in aspen-conife...
Herbivory by domestic and wild ungulates can dramatically affect vegetation structure, composition a...
Quaking aspen (Populus tremuloides Michx.) comprises only a small fraction of western USA forests, y...
Aspen (Populus tremuloides) is an important part of forests in the western U.S. In contrast to conif...
Species that are primarily seral may form stable (self‐sustaining) communities under certain disturb...
Media reports of quaking aspen’s doom are common in the western U.S. We’re told aspen is dying ‘from...