Add to ORKGThe impact of climate change on the potential distribution of four Mediterranean pine species – Pinus brutia Ten., Pinus halepensis Mill., Pinus pinaster Aiton, and Pinus pinea L. – was studied by the Climate Envelope Model (CEM) to examine whether these species are suitable for the use as ornamental plants without frost protection in the Carpathian Basin. The model was supported by EUFORGEN digital area database (distribution maps), ESRI ArcGIS 10 software’s Spatial Analyst module (modeling environment), PAST (calibration of the model with statistical method), and REMO regional climate model (climatic data). The climate data were available in a 25 km resolution grid for the reference period (1961–1990) and two future periods (2011–2040, 20...
International audienceKey messageWarming will induce an upward displacement of Scots pine, but this ...
Wood formation is the primary biological process through which carbon is durably sequestered in wood...
Climate change highly impacts on tree growth and also threatens the forest of the karstic terrains. ...
The potential future distribution of four Mediterranean pines was aimed to be modeled supported by E...
A climate envelope model was run on the distribution of four coniferous species (European silver fir...
We used Species Distribution Modeling to predict the probability of Iberian pine (Pinus nigra subsp....
The climate modeling, which has adequate spatial and temporal resolution, shows that the future clim...
Climate change is widely recognized to have potential impacts on global biotic and abiotic systems. ...
International audienceThis work aims at understanding future spatial and temporal distributions of t...
International audienceThis work aims at understanding future spatial and temporal distributions of t...
[Departement_IRSTEA]Territoires [TR1_IRSTEA]SEDYVIN [ADD1_IRSTEA]Dynamique et fonctionnement des éco...
International audienceKey messageWarming will induce an upward displacement of Scots pine, but this ...
Wood formation is the primary biological process through which carbon is durably sequestered in wood...
Climate change highly impacts on tree growth and also threatens the forest of the karstic terrains. ...
The potential future distribution of four Mediterranean pines was aimed to be modeled supported by E...
A climate envelope model was run on the distribution of four coniferous species (European silver fir...
We used Species Distribution Modeling to predict the probability of Iberian pine (Pinus nigra subsp....
The climate modeling, which has adequate spatial and temporal resolution, shows that the future clim...
Climate change is widely recognized to have potential impacts on global biotic and abiotic systems. ...
International audienceThis work aims at understanding future spatial and temporal distributions of t...
International audienceThis work aims at understanding future spatial and temporal distributions of t...
[Departement_IRSTEA]Territoires [TR1_IRSTEA]SEDYVIN [ADD1_IRSTEA]Dynamique et fonctionnement des éco...
International audienceKey messageWarming will induce an upward displacement of Scots pine, but this ...
Wood formation is the primary biological process through which carbon is durably sequestered in wood...
Climate change highly impacts on tree growth and also threatens the forest of the karstic terrains. ...