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2012
Vaz, M., Cochard H., Gazarini L., Graça J., Chaves M. M., & Pereira J. S. (2012).  Cork oak (Quercus suber L.) seedlings acclimate to elevated CO2 and water stress: photosynthesis, growth, wood anatomy and hydraulic conductivity. Trees. 26, 1159-1160.
Sandoval-Soto, L., Kesselmeier M., Schmitt V., Wild A., & Kesselmeier J. (2012).  Observations of the uptake of carbonyl sulfide (COS) by trees under elevated atmospheric carbon dioxide concentrations. Biogeosciences. 9, 2935-2945.
2011
Aranjuelo, I., Pintó-Marijuan M., Avice J. Christophe, & Fleck I. (2011).  Effect of elevated CO2 on carbon partitioning in young Quercus ilex L. during resprouting. Rapid Communications in Mass Spectrometry. 25(11), 1527 - 1535.
2008
Faria, T., Vaz M., Schwanz P., & PolIe A. (2008).  Responses of Photosynthetic and Defence Systems to High Temperature Stress in Quercus suber L Seedlings Grown under Elevated CO2. Plant biology (Stuttgart, Germany). 1, 365-371.
FARIA, T., Vaz M., Schwanz P., & PolIe A. (2008).  Responses of Photosynthetic and Defence Systems to High Temperature Stress in Quercus suber L Seedlings Grown under Elevated CO2. Plant biology (Stuttgart, Germany). 1, 365 - 371.
2006
Aranda, X., Agustí C., Joffre R., & Fleck I. (2006).  Photosynthesis, growth and structural characteristics of holm oak resprouts originated from plants grown under elevated CO2. Physiologia Plantarum. 128(2), 302 - 312.
Aranda, X., Agustí C., Joffre R., & Fleck I. (2006).  Photosynthesis, growth and structural characteristics of holm oak resprouts originated from plants grown under elevated CO2. Physiologia Plantarum. 128, 302-312.
2002
KREUZWIESER, JÜRGEN., Cojocariu C., Jüssen V., & RENNENBERG HEINZ. (2002).  Elevated atmospheric CO2 causes seasonal changes in carbonyl emissions from Quercus ilex. New Phytologist. 154, 327-333.
2001
Blaschke, L., Schulte M., Raschi A., Slee N., Rennenberg H., & Polle A. (2001).  Photosynthesis, Soluble and Structural Carbon Compounds in Two Mediterranean Oak Species (Quercus pubescens and Q. ilex) after Lifetime Growth at Naturally Elevated CO2 Concentrations. Plant Biology. 3(3), 288 - 298.
Blaschke, L., Schulte M., Raschi A., Slee N., Rennenberg H., & Polle A. (2001).  Photosynthesis, Soluble and Structural Carbon Compounds in Two Mediterranean Oak Species (Quercus pubescens and Q. ilex) after Lifetime Growth at Naturally Elevated CO2 Concentrations. Plant Biology. 3, 288-298.
1998
Pereira, J. S., & Chaves M. M. (1998).  Impacts of climate change and elevated CO2 on trees in regions with a Mediterranean type of climate. (, Ed.).IMPACTS OF GLOBAL CHANGE ON TREE PHYSIOLOGY AND FOREST ECOSYSTEMS. 52, 213-223.
Miglietta, F., Raschi A., Körner C., & Vaccari F. P. (1998).  Isotope discrimination and photosynthesis of vegetation growing in the Bossoleto CO 2 spring. Chemosphere. 36, 771-776.
Miglietta, F., Raschi A., Körner C., & Vaccari F. P. (1998).  Isotope discrimination and photosynthesis of vegetation growing in the Bossoleto CO 2 spring. Chemosphere. 36(4), 771 - 776.
Paoletti, E., Nourrisson G., Garrec J. P., & Raschi A. (1998).  Modifications of the leaf surface structures of Quercus ilex L. in open, naturally CO2-enriched environments. Plant, Cell & Environment. 21(10), 1071 - 1075.
Paoletti, E., Nourrisson G., Garrec J. P., & Raschi A. (1998).  Modifications of the leaf surface structures of Quercus ilex L. in open, naturally CO2-enriched environments. Plant, Cell & Environment. 21, 1071-1075.
FARIA, T., Cerasoli S., García-Plazaola J. I., Guimaraes M. P., Abadia A., Raschi A., et al. (1998).  Photochemical response to summer drought in Quercus ilex trees growing in a naturally CO2 enriched site. (Mohren, GMJ. and Kramer, Ed.).IMPACTS OF GLOBAL CHANGE ON TREE PHYSIOLOGY AND FOREST ECOSYSTEMS. 52, 119 - 124.
Faria, T., Cerasoli S., Garcia-Plazaola J. I., Guimaraes M. P., Abadía A., Raschi A., et al. (1998).  Photochemical response to summer drought in Quercus ilex trees growing in a naturally CO2 enriched site. (, Ed.).IMPACTS OF GLOBAL CHANGE ON TREE PHYSIOLOGY AND FOREST ECOSYSTEMS. 52, 119-124.
Tognetti, R., & Johnson J. D. (1998).  Response of foliar metabolism in mature trees of Quercus pubescens and Quercus ilex to long-term elevated CO 2. Environmental and Experimental Botany. 39, 233 - 245.
Tognetti, R., & Johnson J. D. (1998).  Response of foliar metabolism in mature trees of Quercus pubescens and Quercus ilex to long-term elevated CO 2. Environmental and Experimental Botany. 39, 233-245.
1996
Scarascia-Mugnozza, G. E., De Angelis P., Matteucci G., & Kuzminsky E. (1996).  14 - Carbon Metabolism and Plant Growth under Elevated CO2 in a Natural Quercus ilex L. “Macchia” Stand. (Communities, P. Fakhri A., Ed.).Carbon Dioxide, Populations, and Communities. 209-230.
FARIA, T., Wilkins D., Besford R. T., Vaz M., Pereira J. S., & Chaves M. M. (1996).  Growth at elevated CO2 leads to down-regulation of photosynthesis and altered response to high temperature in Quercus suber L. seedlings. Journal of Experimental Botany. 47(11), 1755 - 1761.
Faria, T., Wilkins D., Besford R. T., Vaz M., Pereira J. S., & Chaves M. M. (1996).  Growth at elevated CO2 leads to down-regulation of photosynthesis and altered response to high temperature in Quercus suber L. seedlings. Journal of Experimental Botany. 47, 1755-1761.
Tognetti, R., Giovannelli A., Longobucco A., Miglietta F., & Raschi A. (1996).  Water relations of oak species growing in the natural CO2 spring of Rapolano (central Italy). Ann. For. Sci.. 53, 475-485.
1995
Chaves, M. M., Pereira J. S., Cerasoli S., CliftonBrown J., Miglietta F., Raschi A., et al. (1995).  Leaf metabolism during summer drought in Quercus ilex trees with lifetime exposure to elevated CO2. JOURNAL OF BIOGEOGRAPHY. 22(02-Mar), 255 - 259.
Chaves, M. M., Pereira J. S., Cerasoli S., CliftonBrown J., Miglietta F., Raschi A., et al. (1995).  Leaf metabolism during summer drought in Quercus ilex trees with lifetime exposure to elevated CO2. JOURNAL OF BIOGEOGRAPHY. 22, 255-259.