Free Access
Issue
Ann. For. Sci.
Volume 66, Number 6, September 2009
Article Number 613
Number of page(s) 12
DOI https://doi.org/10.1051/forest/2009049
Published online 01 September 2009
References of  Ann. For. Sci. 66 (2009) 613
  1. Alexieva V., Sergiev I., Mapelli S., and Karanov E., 2001. The effect of drought and ultraviolet radiation on growth and stress markers in pea and wheat. Plant Cell Environ. 24: 1337–1344 [CrossRef].
  2. Anyia A.O. and Herzog H. 2004. Water use efficiency, leaf area and leaf gas exchange of cowpeas under mid-season drought. Eur. J. Agron. 20: 327–339.
  3. Bacelar E.A., Moutinho-Pereira J.M., Goncalves B.C., Ferreira H.F., and Correia C.M., 2007. Changes in growth, gas exchange, xylem hydraulic properties and water use efficiency of three olive cultivars under contrasting water availability regimes. Environ. Exp. Bot. 60: 183–192 [CrossRef].
  4. Bassman J.H., Edwards G.E., and Robberecht R., 2003. Photosynthesis and growth in seedlings of five forest tree species with contrasting leaf anatomy subjected to supplemental UV-B radiation. For. Sci. 49: 176–187.
  5. Bornman J.F. and Teramura A.H., 1993. Effects of ultraviolet-B radiation on terrestrial plants. In Young A.R., Björn L.O., and Nultsch W. (Ed), environmental UV photobiology, Plenum Press, New York, pp. 427–471.
  6. Bradford M.M., 1976. A rapid and sensitive method for the quantification of microgram quantities of protein utilizing the principle of protein-dye binding. Ann. Biochem. 72: 248–254 [CrossRef].
  7. Caldwell M.M., 1971. Solar ultraviolet radiation and growth and development of higher plants. Photophysiology, Vol. 6. In: Giese A.C. (Ed.), Academic press, New York, pp. 131–137.
  8. Correia C.M., Coutinho J.F., Björn L.O., and Torres-Pereira J.M.G., 2000. Ultraviolet-B radiation and nitrogen effects on growth and yield of maize under Mediterranean field conditions. Eur. J. Agron. 12: 117–125 [CrossRef].
  9. Craig H., 1957. Isotopic standards for carbon and oxygen and correction factors for mass-spectrometric analysis of carbon dioxide. Geochim. Cosmochim. Acta 12: 133–149 [CrossRef].
  10. Dai Q., Furness N.H., and Upadhyaya M.K., 2004. UV-absorbing compounds and susceptibility of weedy species to UV-B radiation. Weed Biol. Manage. 4: 95–102 [CrossRef].
  11. de la Rosa T.M., Julkunen-Tiitto R., Lehto T., and Aphalo P.J., 2001. Secondary metabolites and nutrient concentrations in silver birch seedlings under five levels of daily UV-B exposure and two relative nutrient addition rates. New Phytol. 150: 121–131 [CrossRef].
  12. Duan B., Lu Y., Yin C., Junttila O., and Li C., 2005. Physiological responses to drought and shade in two contrasting Picea asperata populations. Physiol. Plant. 124: 476–484 [CrossRef].
  13. Eckenwalder J.E., 1996. Systematics and evolution of Populus. Biology of Populus and its implications for management and conservation. In: Stettler R.F., Bradshaw H.D., Heilman J.P.E., and Hinckley T.M. (Eds), NRC Research Press, Ottawa, pp. 7–32.
  14. Farquhar G.D., Ehleringer J.R., and Hubick K.T., 1989. Carbon isotope discrimination and photosynthesis. Annu. Rev. Plant Physiol. Plant Mol. Biol. 40: 503–537 [CrossRef].
  15. Filella I. and Peñuelas J., 1999. Altitudinal differences in UV absorbance, UV reflectance and related morphological traits of Quercus ilex and Rhododendron ferrugineum in the Mediterranean region. Plant Ecol. 145: 157–165 [CrossRef].
  16. Grime J.P., 1977. Evidence for the existence of three primary strategies in plants and its relevance to ecological and evolutionary theory. Am. Nat. 111: 1169–1194 [CrossRef].
  17. Grossman A. and Takahashi H., 2001. Macronutrient utilization by photosynthetic eukaryotes and the fabric of interactions. Annu. Rev. Plant Physiol. Plant Mol. Biol. 52: 163–210 [PubMed] [CrossRef].
  18. Hartung W., Wilkinson S., and Davies W., 1998. Factors that regulate abscisic acid concentrations at the primary site of action at the guard cell. J. Exp. Bot. 49: 361–367 [CrossRef].
  19. Hofmann R.W., Campbell B., and Fountain D.F., 2003. Sensitivity of white clover to UV-B radiation depends on water availability, plant productivity and duration of stress. Global Change Biol. 9: 473–477 [CrossRef].
  20. Hubner C. and Ziegler H., 1998. UV-B effects on physiological parameters of three species of Rumex with natural distribution at different altitudes. J. Plant Physiol. 152: 336–344.
  21. Li C., 2000. Population differences in water use efficiency of Eucalyptus microtheca seedlings under different watering regimes. Physiol. Plant. 108: 134–139 [CrossRef].
  22. Li C., Berninger F., Koskela J., and Sonninen E., 2000. Drought responses of Eucalyptus microtheca provenances depend on seasonality of rainfall in their place of origin. Aust. J. Plant Physiol. 27: 231–238.
  23. Li C., Puhakainen T., Welling A., Viherä-Aarnio A., Ernstsen A., Junttila O., Heino P., and Palva E.T., 2002. Cold acclimation in silver birch (Betula pendula) development of freezing tolerance in different tissues and climatic ecotypes. Physiol. Plant. 116: 478–488 [CrossRef].
  24. Li C. and Wang K., 2003. Differences in drought responses of three contrasting Eucalyptus microtheca F. Muell. populations. For. Ecol. Manage. 179: 377–385.
  25. Livingston N.J., Guy R.D., and Ethier G.J., 1999. The effects of nitrogen stress on the stable carbon isotope composition, productivity and water use efficiency of white spruce (Picea glauca (Moench) Voss) seedlings. Plant Cell Environ. 22: 281–289 [CrossRef].
  26. Mackerness S.A.H., Surplus S.L., Jordan B.R., and Thomas B., 1997. Ultraviolet-B effects on transcript levels for photosynthetic genes are not mediated through carbohydrate metabolism. Plant Cell Environ. 20: 1431–1437 [CrossRef].
  27. Madronich S., Mckenzie R.L., Caldwell M.M., and Björn L.O., 1995. Changes in ultraviolet radiation reaching the earth's surface. Ambio. 24: 143–153.
  28. Magnani F. and Borghetti M., 1995. Interpretation of seasonal changes of xylem embolism and plant hydraulic resistance in Fagus sylvatica. Plant Cell Environ. 18: 689–696 [CrossRef].
  29. Makino A. and Osmond B., 1991. Effects of nitrogen nutrition on nitrogen partitioning between chloroplasts and mitochondria in pea and wheat. Plant Physiol. 96: 355–362 [PubMed] [CrossRef].
  30. Martin T., Oswald O., and Graham I.A., 2002. Arabidopsis seedling growth, storage lipid mobilization and photosynthetic gene expression are regulated by carbon: nitrogen availability. Plant Physiol. 128: 472–481 [PubMed] [CrossRef].
  31. Millard P., 1988. The accumulation and storage of nitrogen by herbaceous plants. Plant Cell Environ. 11: 1–8 [CrossRef].
  32. Neales T.F. and Incoll L.D., 1968. The control of leaf photosynthesis rate by the level of assimilate concentration in the leaf: a review of the hypothesis. Bot. Rev. 34: 107–125 [CrossRef].
  33. Nelson D.W. and Sommers L.E., 1982. Total carbon, organic carbon and organic matter. Methods of soil analysis, Part 2. In: Page A.L, Miller R.H., and Keeney D.R. (Eds), American society of agronomy and soil science, Madison, WI, pp. 539–579.
  34. Nilsson L.O. and Wiklund K., 1994. Nitrogen uptake in a Norway spruce stand following ammonium sulphate application, fertilization, irrigation, drought and nitrogen-free-fertilization. Plant Soil 164: 221–228 [CrossRef].
  35. Noguės S. and Baker N.R., 2000. Effects of drought on photosynthesis in Mediterranean plants grown under enhanced UV-B radiation. J. Exp. Bot. 51: 1309–1317 [PubMed] [CrossRef].
  36. Petropoulou Y., Kyparissis A., Nikolopoulos D., and Manetas Y., 1995. Enhanced UV-B radiation alleviates the adverse effects of summer drought in two Mediterranean pines under field conditions. Physiol. Plant. 94: 37–44 [CrossRef].
  37. Piper F.I., Corcuera L.J., Alberdi M., and Lusk C., 2007. Differential photosynthetic and survival responses to soil drought in two evergreen nothofagus species. Ann. For. Sci. 64: 447–452 [EDP Sciences] [CrossRef].
  38. Poulson M.E., Donahue R.A., Konvalinka J., and Boeger M.R.T., 2002. Enhanced tolerance of photosynthesis to high-light and drought stress in Pseudotsuga menziesii seedlings grown in ultraviolet-B radiation. Tree Physiol. 22: 829–838 [PubMed].
  39. Puértolas J., Pardos M., Jiménez M.D., Aranda I., and Pardos J.A., 2008. Interactive responses of Quercus suber L. seedlings to light and mild water stress: effects on morphology and gas exchange traits. Ann. For. Sci. 65: 611–621 [EDP Sciences] [CrossRef].
  40. Rau W. and Hofmann H., 1996. Sensitivity to UV-B of plants growing in different altitudes in the Alps. J. Plant Physiol. 148: 21–25.
  41. Ren J., Dai W., Xuan Z., Yao Y., Korpelainen H., and Li C., 2007. The effect of drought and enhanced UV-B radiation on the growth and physiological traits of two contrasting poplar species. For. Ecol. Manage. 239: 112–119 [CrossRef].
  42. Schumaker A.M., Bassman J.H., Robberecht R., and Radamaker G.K., 1997. Growth, leaf anatomy and physiology of Populus clones in response to solar ultraviolet-B radiation. Tree Physiol. 17: 617–626 [PubMed].
  43. Sinclair T.R., Pinter P.J., Kimball B.A., Adamsen F.J., LaMorte R.L., Wall G.W., Hunsaker D.J., Adam N., Brooks T.J., Garcia R.L., Thompson T., Leavitt S., and Matthias A., 2000. Leaf nitrogen concentration of wheat subjected to elevated [ CO2] and either water or N deficits. Agr. Ecosyst. Environ. 79: 53–60 [CrossRef].
  44. Sinclair T.R., Tanner C.B., and Bennett J.M., 1984. Water-use efficiency in crop production. BioScience 34: 36–40 [CrossRef].
  45. Stewart G.R., Joly C.A., and Smirnoff N., 1992. Partitioning of inorganic nitrogen assimilation between the roots and shoots of cerrado and forest trees of contrasting plant communities of South East Brasil. Oecologia 91: 511–517 [CrossRef].
  46. Sullivan J.H. and Teramura A.H., 1989. The effects of ultraviolet-B radiation on loblolly pine. I. Growth, photosynthesis and pigment production in greenhouse-grown seedlings. Physiol. Plant. 72: 202–207 [CrossRef].
  47. Sullivan J.H., Gitz D.C., Peek M.S., and McElrone A.J., 2003. Responses of three eastern species to supplemental UV-B radiation: leaf chemistry and gas exchange. Agr. For. Meteorol. 120: 219–228 [CrossRef].
  48. Sullivan J.H., Teramura A.H., and Ziska L.H., 1992. Variation in UV-B sensitivity in plants from a 3 000-m elevational gradient in Hawaii. Am. J. Bot. 79: 737–743 [CrossRef].
  49. Susiluoto S. and Berninger F., 2007. Interactions between morphological and physiological drought responses in Eucalyptus microtheca. Silva Fenn. 41: 221–233.
  50. Taylor I.B., Burbidge A., and Thompson A.J., 2000. Control of abscisic acid synthesis. J. Exp. Bot. 51: 1563–1574 [PubMed] [CrossRef].
  51. Teramura A.H. and Sullivan J.H., 1994. Effects of UV-B radiation on photosynthesis and growth of terrestrial plants. Photosynth. Res. 39: 463–473 [CrossRef].
  52. Turtola S., Rousi M., Pusenius J., Yamaji K., Heiska S., Tirkkonen V., Meier B., and Julkunen-Tiitto R., 2006. Genotypic variation in drought response of willows grown under ambient and enhanced UV-B radiation. Environ. Exp. Bot. 56: 80–86 [CrossRef].
  53. Weih M., Johanson U., and Gwynn-Jones D., 1998. Growth and nitrogen utilization in seedlings of mountain birch (Betula pubescens ssp. tortuosa) as affected by ultraviolet radiation (UV-A and UV-B) under laboratory and outdoor conditions. Trees 12: 201–207.
  54. Yang Y., Yao Y., Xu G., and Li C., 2005. Growth and physiological responses to drought and elevated ultraviolet-B in two contrasting populations of Hippophae rhamnoides. Physiol. Plant. 124: 431–440 [CrossRef].
  55. Zhang X., Zang R., and Li C., 2004. Population differences in physiological and morphological adaptations of Populus davidiana seedlings in response to progressive drought stress. Plant Sci. 166: 791–797 [CrossRef].
  56. Zhao D., Reddy K.R., Kakani V.G., Read J.J., and Sullivan J.H., 2003. Growth and physiological responses of cotton (Gossypium hirsutum L.) to elevated carbon dioxide and ultraviolet-B radiation under controlled environmental conditions. Plant Cell Environ. 26: 771–782 [CrossRef].