Simulated Responses of Pinus Halepensis Forest Productivity to Climatic Change and CO2 Increase Using a Statistical Model. Rathgeber, C., Nicault, A., Guiot, J., Keller, T., Guibal, F., & Roche, P. 26(4):405–421.
Simulated Responses of Pinus Halepensis Forest Productivity to Climatic Change and CO2 Increase Using a Statistical Model [link]Paper  doi  abstract   bibtex   
Tree ring chronologies provide long-term records of growth in natural environmental conditions and may be used to evaluate impacts of climatic change and CO2 increase on forest productivity. This study focuses on 21 Pinus halepensis forest stands in calcareous Provence (in the south-east of France). A chronology of net primary productivity (NPP) both for the 20th century and for each stand was estimated using tree ring data (width and density). The response of each stand to climate in terms of NPP was statistically modelled using response functions. Anomalies between estimated NPP and NPP reconstructed by response functions were calculated to evaluate the fertilising effect of CO2 increase on tree growth. The changes in anomalies during the 20th century were attributed to the effect of CO2 increase. A multiplying factor (β) linking CO2 concentration and stand productivity was then calculated, on the basis of the trend observed during the 20th century. In this study, the value of the β factor obtained under natural conditions (β=0.50) is consistent with those from controlled CO2 enrichment experiments. Both response functions and the β factor were used to predict NPP changes for a 2×CO2 scenario. The 2×CO2 climate was obtained using predictions from Météo France's ARPEGE atmospheric general circulation model (AGCM) downscaled to Marseilles meteorological station. NPP increased significantly for nine stands solely when the climatic effect was taken into account. The main factors responsible for this enhancement were increased winter and early spring temperatures. When the fertilising effect of the CO2 increase was added, NPP was significantly enhanced for 14 stands (i.e. NPP enhancement ranged from 8\,% to 55%). Although the effects of global change were slightly detectable during the 20th century, their acceleration is likely to lead to great changes in the future productivity of P. halepensis forests
@article{rathgeberSimulatedResponsesPinus2000,
  title = {Simulated Responses of {{Pinus}} Halepensis Forest Productivity to Climatic Change and {{CO2}} Increase Using a Statistical Model},
  author = {Rathgeber, Cyrille and Nicault, Antoine and Guiot, Joël and Keller, Thierry and Guibal, Frédéric and Roche, Philip},
  date = {2000-12},
  journaltitle = {Global and Planetary Change},
  volume = {26},
  pages = {405--421},
  issn = {0921-8181},
  doi = {10.1016/s0921-8181(00)00053-9},
  url = {https://doi.org/10.1016/s0921-8181(00)00053-9},
  abstract = {Tree ring chronologies provide long-term records of growth in natural environmental conditions and may be used to evaluate impacts of climatic change and CO2 increase on forest productivity. This study focuses on 21 Pinus halepensis forest stands in calcareous Provence (in the south-east of France). A chronology of net primary productivity (NPP) both for the 20th century and for each stand was estimated using tree ring data (width and density). The response of each stand to climate in terms of NPP was statistically modelled using response functions. Anomalies between estimated NPP and NPP reconstructed by response functions were calculated to evaluate the fertilising effect of CO2 increase on tree growth. The changes in anomalies during the 20th century were attributed to the effect of CO2 increase. A multiplying factor (β) linking CO2 concentration and stand productivity was then calculated, on the basis of the trend observed during the 20th century. In this study, the value of the β factor obtained under natural conditions (β=0.50) is consistent with those from controlled CO2 enrichment experiments. Both response functions and the β factor were used to predict NPP changes for a 2×CO2 scenario. The 2×CO2 climate was obtained using predictions from Météo France's ARPEGE atmospheric general circulation model (AGCM) downscaled to Marseilles meteorological station. NPP increased significantly for nine stands solely when the climatic effect was taken into account. The main factors responsible for this enhancement were increased winter and early spring temperatures. When the fertilising effect of the CO2 increase was added, NPP was significantly enhanced for 14 stands (i.e. NPP enhancement ranged from 8\,\% to 55\%). Although the effects of global change were slightly detectable during the 20th century, their acceleration is likely to lead to great changes in the future productivity of P. halepensis forests},
  keywords = {*imported-from-citeulike-INRMM,~INRMM-MiD:c-13527600,~to-add-doi-URL,climate-change,co2,correlative-approach,forest-resources,pinus-halepensis},
  number = {4}
}

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