Global warming and the stronger regional temperature trends recently recorded over the European Alps have triggered several biological and physical dynamics in high-altitude environments. We defined the present treeline altitude in three valleys of a region in the western Italian Alps and reconstructed the past treeline position for the last three centuries in a nearly undisturbed site by means of a dendrochronological approach. We found that the treeline altitude in this region is mainly controlled by human impacts and geomorphological factors. The reconstruction of the altitudinal dynamics at the study site reveals that the treeline shifted upwards of 115 m over the period 1901-2000, reaching the altitude of 2505 m in 2000 and 2515 m in 2...
Aim: High‐elevation forest line or tree line is an ecological ecotone representing the upper elevat...
Treeline advance to greater altitude is observed in the majority of European mountains. Many authors...
High-altitude areas in the European Alps have been widely investigated through time for reconstructi...
Treelines are widely studied worldwide in relation to climate changes because they are hypothesized ...
Aiming to analyze the site conditions of treeline trees at the highest elevations, we investigated 3...
The ongoing increase in the global mean temperature at an unprecedented recorded rate is well docume...
International audienceThe treeline ecotone, defined as the transition belt in mountain vegetation be...
Both biotic and abiotic components, characterizing the mountain treeline ecotone, respond differentl...
International audienceBoth biotic and abiotic components, characterizing the mountain treeline ecoto...
Both biotic and abiotic components, characterizing the mountain treeline ecotone, respond differentl...
Aim: High‐elevation forest line or tree line is an ecological ecotone representing the upper elevat...
A growing body of evidence suggests that processes of upward treeline expansion and shifts in vegeta...
Aim: High‐elevation forest line or tree line is an ecological ecotone representing the upper elevat...
Treeline advance to greater altitude is observed in the majority of European mountains. Many authors...
High-altitude areas in the European Alps have been widely investigated through time for reconstructi...
Treelines are widely studied worldwide in relation to climate changes because they are hypothesized ...
Aiming to analyze the site conditions of treeline trees at the highest elevations, we investigated 3...
The ongoing increase in the global mean temperature at an unprecedented recorded rate is well docume...
International audienceThe treeline ecotone, defined as the transition belt in mountain vegetation be...
Both biotic and abiotic components, characterizing the mountain treeline ecotone, respond differentl...
International audienceBoth biotic and abiotic components, characterizing the mountain treeline ecoto...
Both biotic and abiotic components, characterizing the mountain treeline ecotone, respond differentl...
Aim: High‐elevation forest line or tree line is an ecological ecotone representing the upper elevat...
A growing body of evidence suggests that processes of upward treeline expansion and shifts in vegeta...
Aim: High‐elevation forest line or tree line is an ecological ecotone representing the upper elevat...
Treeline advance to greater altitude is observed in the majority of European mountains. Many authors...
High-altitude areas in the European Alps have been widely investigated through time for reconstructi...