Add to ORKGUnderstanding how climate change will affect the distribution and the phenology of plants is becoming an increasingly important topic in ecological studies. In response to climate warming, there are documented upward shift and alterations of phenology and physiology of several plant species. Despite this, the effects of climate change on plant regeneration from seeds have largely been neglected. However, regeneration from seeds, a key event in the plant life cycle, could be significantly affected by climate warming. In this regard, we investigated how climatic changes will affect the seasonal dynamics of seed germination and seedling survival in two different alpine context. The first part refers to five species inhabiting a snowbed located...
This study evaluated effects of climate change on individual functional traits of mountain plant spe...
In ecological theory, it is currently unclear if intraspecific trait responses to environmental vari...
Climate change directly affects arctic-alpine plants and acute responses to increased temperatures m...
Background and Aims Climate warming has major impacts on seed germination of several alpine species,...
Alpine areas are both regional water reservoirs and zones of high species endemism. Increasing tempe...
Background and AimsDespite the considerable number of studies on the impacts of climate change on al...
Under climate change, regeneration from seeds is becoming increasingly important for species persist...
Alpine and arctic environments are predicted to be strongly influenced by climate change because the...
PREMISE OF THE STUDY: Much research has focused on plant responses to ongoing climate change, but th...
The early life-history stages of plants, such as germination and seedling establishment, depend on f...
© The Author 2015. Published by Oxford University Press on behalf of the Annals of Botany Company. A...
7nonenoneMondoni, A.; Orsenigo, S.; Bernareggi, G.; Probert, R. J.; Bonomi, C.; Abeli, T.; Rossi, G
International audienceAssumptions about the germination ecology of alpine plants are presently based...
Alpine areas are often described as a gradient of warm air temperatures at low elevations to cold ai...
Assumptions about the germination ecology of alpine plants are presently based on individual species...
This study evaluated effects of climate change on individual functional traits of mountain plant spe...
In ecological theory, it is currently unclear if intraspecific trait responses to environmental vari...
Climate change directly affects arctic-alpine plants and acute responses to increased temperatures m...
Background and Aims Climate warming has major impacts on seed germination of several alpine species,...
Alpine areas are both regional water reservoirs and zones of high species endemism. Increasing tempe...
Background and AimsDespite the considerable number of studies on the impacts of climate change on al...
Under climate change, regeneration from seeds is becoming increasingly important for species persist...
Alpine and arctic environments are predicted to be strongly influenced by climate change because the...
PREMISE OF THE STUDY: Much research has focused on plant responses to ongoing climate change, but th...
The early life-history stages of plants, such as germination and seedling establishment, depend on f...
© The Author 2015. Published by Oxford University Press on behalf of the Annals of Botany Company. A...
7nonenoneMondoni, A.; Orsenigo, S.; Bernareggi, G.; Probert, R. J.; Bonomi, C.; Abeli, T.; Rossi, G
International audienceAssumptions about the germination ecology of alpine plants are presently based...
Alpine areas are often described as a gradient of warm air temperatures at low elevations to cold ai...
Assumptions about the germination ecology of alpine plants are presently based on individual species...
This study evaluated effects of climate change on individual functional traits of mountain plant spe...
In ecological theory, it is currently unclear if intraspecific trait responses to environmental vari...
Climate change directly affects arctic-alpine plants and acute responses to increased temperatures m...