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References

  • Alonso R., Elvira S., Inclán R., Bermejo V., Castillo F.J., Gimeno B.S. (2003) Responses of Aleppo pine to ozone. In: Karnosky D.F., Percy K.E., Chappelka A.H., Simpson C.J. (Eds), Global change and forests in the new millennium. Elsevier Science, Dordrecht, Netherlands, pp 211230.
  • wAlonso R., Elvira S., Sanz M.J., Gerosa G., EmbersonL., Bermejo V., Gimeno B.S. (2008) Sensitivity analysis of a parameterization of the stomatal component of the DO3SE model for Quercus ilex to estimate ozone fluxes. Environmental Pollution, 155, 473480.
  • Ashmore M.R. (2005) Assessing the future global impacts of ozone on vegetation. Plant, Cell & Environment, 28, 949964.
  • Blanco E., Casado M.A., Costa M., Escribano R., Garcia M., Genova M., Gomez A., Gomez F., Moreno J.C., Morla C., Regato P., Sainz H. (1997) Los bosques ibéricos. Una interpretación geobotánica, Planeta, Madrid, Spain.
  • Bussotti F., Gerosa G. (2002) Are the Mediterranean forests in Southern Europe threatened from ozone? Journal of Mediterranean Ecology, 3, 2334.
  • von Caemmerer S., Farquhar G.D. (1981) Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta, 153, 376387.
  • Calatayud V., Marco F., Cerveró J., Sánchez Peña G., Sanz M.J. (2010) Contrasting ozone sensitivity in related evergreen and deciduous shrubs. Environmental Pollution, 158, 35803587.
  • Calatayud V., Cerveró J., Calvo E., García-Breijo F.J., Reig-Armiñana J., Sanz M.J. (2011) Responses of evergreen and deciduous Quercus species to enhanced ozone levels. Environmental Pollution, 159, 5563.
  • Castell C., Terradas J., Tenhunen J.D. (1994) Water relations, gas exchange, and growth of resprouts and mature plant shoots of Arbutus unedo L. and Quercus ilex L. Oecologia, 98, 201211.
  • Cristofanelli P., Bonasoni P. (2009) Background ozone in the Southern Europe and Mediterranean area: Influence of the transport processes. Environmental Pollution, 157, 13991406.
  • EEA. (2010) Air pollution by ozone across Europe during summer 2009. Overview of exceedances of EC ozone threshold values for April–September 2009. European Environmental Agency Technical Report, EEA, Copenhagen, Denmark.
  • Elvira S., Alonso R., Castillo F.J., Gimeno B.S. (1998) On the response of pigments and antioxidants of Pinus halepensis seedlings to Mediterranean climatic factors and long-term ozone exposure. New Phytologist, 138, 419432.
  • Elvira S., Bermejo V., Manrique E., Gimeno B.S. (2004) On the response of two populations of Quercus coccifera to ozone and its relationship with ozone uptake. Atmospheric Environment, 38, 23052311.
  • Emberson L.D., Ashmore M.R., Cambridge H.M., Simpson D., Tuovinen J.-P. (2000) Modelling stomatal ozone flux across Europe. Environmental Pollution, 109, 403413.
  • Faria T., Silverio D., Breia E., Cabral R., Abadía A., Abadía J., Pereira J.S., Chaves M.M. (1998) Differences in the response of carbon assimilation to summer stress (water deficits, high light and temperature) in four Mediterranean trees species. Physiologia Plantarum, 102, 409428.
  • Ferretti M., Bussotti F., Calatayud V., Schaub M., Kräuchi N., Petriccione B., Sanchez-Peña G., Sanz M.J., Ulrichf E. (2007) Ozone and forests in South-Western Europe. Environmental Pollution, 145, 617619.
  • Gimeno B.S., Bermejo V., Reinert R.A., Zheng Y., Barnes J.D. (1999) Adverse effects of ambient ozone on watermelon yield and physiology at a rural site in Eastern Spain. New Phytologist, 144, 245260.
  • Gratani L. (1996) Leaf and shoot growth dynamics of Quercus ilex L. Acta Oecologica, 17, 1727.
  • Gratani L., Pesoli P., Crescente M.F., Aichner K., Larcher W. (2000) Photosynthesis as a temperature indicator in Quercus ilex L. Global and Planetary Change, 24, 153163.
  • Grulke N.E. (1999) Physiological responses of ponderosa pine to gradients of environmental stressors. In: Miller P.R., McBride J.R. (Eds), Oxidant air pollution impacts in the Montane forests of Southern California. Springer, New York, USA, pp 126163.
  • Gutiérrez E., Campelo F., Camarero J.J., Ribas M., Muntán E., Nabais C., Freitas H. (2011) Climate controls act at different scales on the seasonal pattern of Quercus ilex L. stem radial increments in NE Spain. Trees, 25, 637646.
  • Heath R.L., Taylor G.E. Jr. (1997) Physiological processes and plant responses to ozone exposure. In: Sandermann H., Wellburn A.R., Heath R.L. (Eds), Forest decline and ozone. Springer, Berlin, Germany, pp 317368.
  • Heath R.L., Lefhon A.S., Musselman R.C. (2009) Temporal processes that contribute to nonlinearity in vegetation responses to ozone exposure and dose. Atmospheric Environment, 43, 29192928.
  • Inclán R., Ribas A., Peñuelas J., Gimeno B.S. (1999) The relative sensitivity of different Mediterranean plant species to ozone exposure. Water, Air and Soil Pollution, 116, 273277.
  • Infante J.M., Domingo F., Ales R.F., Joffre R., Rambal S. (2003) Quercus ilex transpiration as affected by a prolonged drought period. Biologia Plantarum, 46, 4955.
  • Jarvis P.G. (1976) The interpretation of the variations in leaf water potential and stomatal conductance found in canopies in the field. Philosophical Transactions of the Royal Society, London B, 273, 593610.
  • Karlsson P.E., Medin E.L., Selldén G., Wallin G., Ottoson S., Pleijel H., Skärby L. (2002) Impact of ozone and reduced water supply on the biomass accumulation of Norway spruce saplings. Environmental Pollution, 119, 237244.
  • Le Thiec D., Dixon M., Garrec J.P. (1994) The effects of slightly elevated ozone concentrations and mild drought stress on the physiology and growth of Norway spruce, Picea abies (L.) Karst. and beech, Fagus sylvatica (L.), in open-top chambers. New Phytologist, 128, 671678.
  • Loreto F., Pinelli P., Manes F., Kollist H. (2004) Impact of ozone on monoterpene emissions and evidence for an isoprene-like antioxidant action of monoterpenes emitted by Quercus ilex (L.) leaves. Tree Physiology, 24, 361367.
  • LRTAP Convention. (2010) Manual on Methodologies and Criteria for Modelling and Mapping Critical Loads & Levels and Air Pollution Effects, Risks and Trends. Chapter 3: Mapping Critial Levels for Vegetation, http://icpvegetation.ceh.ac.uk/manuals/mapping_manual.html.
  • Maier-Maercker U. (1999) Predisposition of trees to drought stress by ozone. Tree Physiology, 19, 7178.
  • Manes F., Seufert G., Vitale M. (1997) Ecophysiological studies of Mediterranean plant species at the Castelporziano Estate. Atmospheric Environment, 31, Suppl. 1, 5160.
  • Manes F., Vitale M., Donato E., Paoletti E. (1998) O3 and O3+CO2 effects on a Mediterranean evergreen broadleaf tree, Holm oak (Quercus ilex L.). Chemosphere, 36, 801806.
  • MARM (2011) Assessment of Ozone Injury in SPAIN – Report 2010. Further development and implementation of an EU level forest monitoring system – FUTMON. Action IM1: Intensive Monitoring in Cooperation with the International Cooperative Programme on Assessment and Monitoring of Air Pollution Effects on Forests (ICP Forests). Report of Project LIFE 07 ENV/DE/000218 “FutMon”.
  • Mediavilla S., Escudero A.E. (2003) Stomatal responses to drought at a Mediterranean site: a comparative study of co-occurring woody species differing in leaf longevity. Tree Physiology, 23, 987996.
  • Mereu S., Gerosa G., Marzuoli R., Fusaro L., Salvatori E., Finco A., Spano D., Manes F. (2011) Gas exchange and JIP-test parameters of two Mediterranean maquis species are affected by sea spray and ozone interaction. Environmental and Experimental Botany, 73, 8088.
  • Millán M., Salvador R., Mantilla E., Artíñano B. (1996) Meteorology and photochemical air pollution in Southern Europe: experimental results from EC research projects. Atmospheric Environment, 30, 19091924.
  • Nali C., Paoletti E., Marabottini R., Della Rocca G., Lorenzini G., Paolacci A.R., Ciaffi M., Badiani M. (2004) Ecophysiological and biochemical strategies of response to ozone in Mediterranean evergreen broadleaf species. Atmospheric Environment, 38, 22472257.
  • Panek J.A., Goldstein A.H. (2001) A controlled field experiment on the relation between drought stress, photosynthesis and stomatal conductance: implications for carbon storage and ozone deposition. Tree Physiology, 21, 337344.
  • Paoletti E. (2006) Impact of ozone on Mediterranean forests: a review. Environmental Pollution, 144, 463474.
  • Paoletti E., Grulke N.E. (2010) Ozone exposure and stomatal sluggishness in different plant physiognomic classes. Environmental Pollution, 158, 26642671.
  • Paoletti E., Seufert G., Della Rocca G., Thomsen H. (2007) Photosynthetic responses to elevated CO2 and O3 in Quercus ilex leaves at a natural CO2 spring. Environmental Pollution, 147, 516524.
  • Ribas A., Peñuelas J., Elvira S., Gimeno B.S. (2005a) Contrasting effects of ozone under different water supplies in two Mediterranean tree species. Atmospheric Environment, 39, 685693.
  • Ribas A., Peñuelas J., Elvira S., Gimeno B.S. (2005b) Ozone exposure induces the activation of leaf senescence-related processes and morphological and growth changes in seedlings of Mediterranean tree species. Environmental Pollution, 134, 291300.
  • Savé R., Castell C., Terradas J. (1999) Gas exchange and water relations. In: Rodà F., Retana J., Gracia C.A., Bellot J. (Eds), Ecology Mediterranean evergreen oak forest. Ecological studies 137. Springer, Berlin, Germany, pp 135147.
  • Tognetti R., Longobucco A., Miglietta F., Raschi A. (1998) Transpiration and stomatal behaviour of Quercus ilex plants during the summer in a Mediterranean carbon dioxide spring. Plant, Cell & Environment, 21, 613622.
  • Tretiach M., Bolognini G., Rondi A. (1997) Photosynthetic activity of Quercus ilex at the extremes of a transect between Mediterranean and submediterranean vegetation (Trieste–NE Italy). Flora, 192, 369378.
  • Vitale M., Salvatori E., Loreto F., Fares S., Manes F. (2008) Physiological responses of Quercus ilex leaves to water stress and acute ozone exposure under controlled conditions. Water, Air and Soil Pollution, 189, 113125.
  • Wittig V.E., Ainsworth E.A., Naidu S.L., Karnosky D.F., Long S.P. (2009) Quantifying the impact of current and future tropospheric ozone on tree biomass, growth, physiology and biochemistry: a quantitative meta-analysis. Global Change Biology, 15, 396424.
  • Zhang W., Feng Z., Wang X., Niu J. (2012) Responses of native broadleaved woody species to elevated ozone in subtropical China. Environmental Pollution, 163, 149157.