Free access
Issue
Ann. For. Sci.
Volume 59, Number 7, November 2002
Page(s) 795 - 799
DOI http://dx.doi.org/10.1051/forest:2002067

References

  1. Babu R.C., Pathan M.S., Blum A., Nguyen H.T., Comparison of measurement methods of osmotic adjustment in rice cultivars, Crop Sci. 39 (1999) 150-155.
  2. Baradat P., Pastuszka P., Le pin maritime, in: Gallais A., Bannerot H. (Eds.), Amélioration des Espèces Végétales Cultivées, INRA, Paris, 1992, pp. 695-709.
  3. Blum A., Towards standard assays of drought resistance in crop plants, in: Molecular approaches for the genetic improvement of cereals for stable production in water-limited environments, Proc. Symp. Cimmyt headquarters, Mexico, June 21-25, 1999, 11 p.
  4. Blum A., Sullivan C.Y., The comparative drought resistance of landraces of sorghum and millet from dry and humid regions, Ann. Bot. 57 (1986) 835-846.
  5. Chimenti C.A., Hall A.J., Genetic variation and changes with ontogeny of osmotic adjustment in sunflower (Helianthus annuus L.), Euphytica 71 (1993) 201-210.
  6. Collet C., Guehl J.M., Osmotic adjustment in sessile oak seedlings in response to drought, Ann. Sci. For. 54 (1997) 389-394.
  7. Colombo S.J., Changes in osmotic potential, cell elasticity, and turgor relationships of 2nd-year black spruce container seedlings, Can. J. For. Res. 17 (1987) 365-369.
  8. Costa P., Réponse moléculaire, physiologique et génétique du pin maritime à une contrainte hydrique, Thesis, Université Nancy I, France, 1999.
  9. Costa P., Bahrman N., Frigerio J.M., Kremer A., Water-deficit-responsive proteins in maritime pine, Plant Mol. Biol. 38 (1998) 587-596.
  10. Costa P., Plomion C., Genetic analysis of needle proteins in maritime pine: 2. Variation of protein accumulation, Silvae Genet. 48 (1999) 146-150.
  11. Fernandez M., Gil L., Pardos J.A., Response of Pinus pinaster Ait. provenances at early age to water supply. I. Water relation parameters, Ann. For. Sci. 56 (1999) 179-187.
  12. Fernandez M., Gil L., Pardos J.A., Effects of water supply on gas exchange in Pinus pinaster Ait. provenances during their first growing season, Ann. For. Sci. 57 (2000) 9-16.
  13. Granier A., Loustau D., Measuring and modelling the transpiration of a maritime pine canopy from sap-flow data, Agric. For. Meteorol. 71 (1994) 61-81.
  14. Guehl J.M., Nguyen-Queyrens A., Loustau D., Ferhi A., Genetic and environmental determinants of water-use efficiency and carbon isotope discrimination in forest trees, in: INRA (Ed.), EUROSILVA, Contribution to Forest Tree Physiology, Colloq. INRA No.76, Dourdan, France, November 7-10, 1994, pp. 297-321.
  15. Guyon J.P., Kremer A., Stabilité phénotypique de la croissance en hauteur et cinétique journalière de pression de sève et de la transpiration chez le pin maritime (Pinus pinaster Ait.), Can. J. For. Res. 12 (1982) 936-946.
  16. Jones M.M., Rawson H.M., Influence of rate of development of leaf water deficits upon photosynthesis, leaf conductance, water use efficiency, and osmotic potential in Sorghum, Physiol. Plant 45 (1979) 103-111.
  17. Lemcoff J.H., Chimenti C.A., Davezac T.A.E., Osmotic adjustment in maize (Zea mays L.): changes with ontogeny and its relationship with phenotypic stability, J. Agron. Crop Sci. 180 (1998) 241-247.
  18. Lilley J.M., Ludlow M.M., Expression of osmotic adjustment and dehydration tolerance in diverse rice lines, Field Crops Res. 48 (1996) 185-197.
  19. Lilley J.M., Ludlow M.M., McCouch S.R., O'Toole J.C., Locating QTL for osmotic adjustment and dehydration tolerance in rice, J. Exp. Bot. 47 (1996) 1427-1436.
  20. Ludlow M.M., Chu A.C.P., Clements R.J., Kerslake R.G., Adaptation of species of Centromesa to water stress, Aust. J. Plant Physiol. 10 (1983) 119-130.
  21. Morgan J.M., Osmotic adjustment in the spikelets and leaves of wheat, J. Exp. Bot. 31 (1980) 655-665.
  22. Morgan J.M., Osmoregulation and water stress in higher plants, Annu. Rev. Plant Physiol. 35 (1984) 299-319.
  23. Morgan J.M., Growth and yield of wheat lines with differing osmoregulative capacity at high soil water deficit in seasons of varying evaporative demand, Field Crops Res. 40 (1995) 143-152.
  24. Nguyen A., Lamant A., Variation in growth and osmotic regulation of roots of water-stressed maritime pine (Pinus pinaster Ait.) provenances, Tree Physiol. 5 (1989) 123-133.
  25. Nguyen-Queyrens A., Ferhi A., Loustau D., Guehl J.M., Within $\delta^{13}$C spatial variability and interannual variations in wood cellulose of two contrasting provenances of Pinus pinaster, Can. J. For. Res. 28 (1998) 766-773.
  26. Osonubi O., Davies W.J., Solute accumulation in leaves and roots of woody plants subjected to water stress, Oecologia 32 (1978) 323-332.
  27. Picon C., Guehl J.M., Ferhi A., Leaf gas-exchange and carbon isotope composition responses to drought in a drought-avoiding (Pinus pinaster) and a drought tolerant (Quercus petraea) species under present and elevated atmospheric CO2 concentrations, Plant Cell Environ. 19 (1996) 182-190.
  28. Picon-Cochard C., Guehl J.M., Leaf gas exchange and carbohydrate concentrations in Pinus pinaster plants subjected to elevated CO2 and a soil drying cycle, Ann. For. Sci. 56 (1999) 71-76.
  29. Ritchie G.A., Hinckley T.M., The pressure chamber as an instrument for ecological research, Adv. Ecol. Res. 9 (1975) 165-254.
  30. Scholander P.F., Hammel H.T., Bradstreet E.D., Hemmingsen E.A., Sap pressure in vascular plants, Science 148 (1965) 339-346.
  31. Shangguan Z., Shao M., Dyckmans J., Interaction of osmotic adjustment and photosynthesis in winter wheat under soil drought, J. Plant Physiol. 154 (1999) 753-758.
  32. Turner N.C., Jones M.M., Turgor maintenance by osmotic adjustment, a review and evaluation, in: Turner N.C., Kramer P.J. (Eds.), Adaptation of plants to water and high temperature stress, Wiley-Interscience, New York, 1980, pp. 87-103.
  33. Vivin P., Guehl J.M., Clément A., Aussenac G., The effects of elevated CO2 and water stress on whole plant CO2 exchange, carbon allocation, and osmoregulation in oak seedlings, Ann. Sci. For. 53 (1996) 447-459.
  34. Wright G.C., Smith R.C.G., Morgan J.M., Differences between two grain sorghum cultivars in adaptation to drought stress. III. Physiological responses, Aust. J. Agric. Res. 34 (1983) 637-665.
  35. Wright P.R., Morgan J.M., Jessop R.S., Turgor maintenance by osmoregulation in Brassica napus and B. juncea under field conditions, Ann. Bot. 80 (1997) 313-319.
  36. Zhang J., Nguyen H.T., Blum A., Genetic analysis of osmotic adjustment in crop plants, J. Exp. Bot. 50 (1999) 291-302.

Abstract

Copyright INRA, EDP Sciences