![]() ![]() All rights reserved.Detail email,public_profile 731812490255864 43.55087200 7.01059400 Cannes 150 3 43.54060500 7.03839100 cityseeker_t_A 43.55087200 7.01059400 Set Current Location See All Global Search Remove from Collection Add to Collection Saved Save Save Collection to Profile Saved Collection to Profile What type of location are you collecting? Approximate Duration Options Found View Full Hours Hide Full Hours No Data Found Please check your starting point or destination location Miles to Destination Please Enter Old Password Please Enter New Password Old and New Passwords Are the Same New Password and Confirm New Password Do Not Match Please allow access to email Geolocation is not supported by this browser Please provide valid email Collection Not Available Keyword Should Contain At Least 3 Characters Keyword Should Contain Only Alphanumeric Characters Keyword Already Added. ![]() However, the development of future sustainable and adaptive forest management strategies has the potential to reduce the vulnerability of forest species to climate change.Ĭlimate change Defoliation Mediterranean Ozone Pinus species.Ĭopyright © 2014 Elsevier Inc. Climate change will create additional challenges for forest management with substantial socio-economic and biological diversity impacts. The development of coordinated emission abatement strategies is useful to reduce both climate change and O3 pollution. These two effects, acting together in an opposite way, could mitigate the harmful impacts of O3 on forests. However, the drier and warmer climate should induce a soil drought leading to a lower O3 uptake. Climate change is projected to reduce the benefits of O3 precursor emissions controls leading to a higher O3 uptake. ![]() Clearly, if such climatic and ecological changes are now being detected when the climate, in South-eastern France, has warmed in the last 20 years (+0.46-1.08☌), it can be expected that many more impacts on tree species will occur in response to predicted temperature changes by 2100 (+1.95-4.59☌). In the current climate change context, a reduction in ground-level ozone (O3) was found at remote sites and the visible foliar O3 injury decreased while deterioration of the crown conditions was observed likely due to a drier and warmer climate. In the last 20 years, the trend analyses reveal a clear hotter and drier climate along the coastline and slightly rainier inland. Based on non-parametric statistical tests, the climatic parameters (temperature, relative humidity, rainfall, global radiation) and forest-response indicators (crown defoliation, discoloration and visible foliar ozone injury) of two pine species (Pinus halepensis and Pinus cembra) were analyzed. The South-eastern France can be considered as case study for assessing global change impacts on forests. The Mediterranean Basin is expected to be more strongly affected by ongoing climate change than most other regions of the earth.
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