Free Access
Issue
Ann. For. Sci.
Volume 58, Number 6, August-September 2001
Page(s) 663 - 672
DOI https://doi.org/10.1051/forest:2001153

References

1
AA., Los pinares mediterràneos, in Los bosques ibéricos, Planeta Barcelona, 1997, pp. 357-410.
2
Blake T.J., Sutton R.F., Variation in water relation of black spruce stock types planted in Ontario, Tree Physiol. 3 (1987) 331-344.
3
Boucher J.F., Munson A.D., Bernier P.Y., Foliar absorption of dew influences shoot water potential and root growth in Pinus strobus seedlings, Tree Physiol. 15 (1995) 819-823.
4
Bucci G., Anzidei M., Madaghiele A., Vendramin G.G., Detection of haplotypic variation and natural hybridization in halepensis - complex pine species using chloroplast simple sequence repeat (SSR) markers, Mol. Ecol. 7 (1998) 1633-1643.
5
Burdett A.N., Physiological processes in plantation establishment and the development of specifications for forest planting stock, Can. J. For. Res. 20 (1990) 415-427.
6
Buxton G.F., Cyr D.R., Dumbroff E.B., Webb D.P., Physiological responses of three conifers to rapid and slow induction of moisture stress, Can. J. Bot. 63 (1984) 1171-1176.
7
Calamassi R., Effetti della luce e della temperatura sulla germinazione dei semi in provenienze di Pinus halepensis Mill. e Pinus brutia Ten., It. For. Mont. 4 (1982) 174-186.
8
Calamassi R., Caractérisation de quelques provenances de Pinus halepensis Mill. sur la base de la structure anatomique et morphologique des aiguilles, Ann. Sci. For. 43 (1986) 281-298.
9
Calamassi R., Falusi M., Principe M., Relations between apical structure and growth patterns in Pinus halepensis Mill. seedlings, Giorn. Bot. It. 122 (1988) 321-338.
10
Calamassi R., Falusi M., Tocci A., Variazione geografica e resistenza a stress idrici in semi di Pinus halepensis Mill., Pinus brutia Ten. e Pinus eldarica Medw., Ann. Ist. Sper. Selv. Arezzo XI (1980) 195-228.
11
Calamassi R., Falusi M., Tocci A., Effets de la température de germination et de la stratification sur la germination des semences de Pinus halepensis Mill., Silvae Gen. 33 (1984) 133-139.
12
Cutler J.M., Rains D.W., Lommis R.S., The importance of cell size in the water relations of plants, Physiol. Plant. 40 (1977) 255-260.
13
Ducrey M., Biologie et forêt - Réaction à la sécheresse de quelques espèces forestières méditerranéennes, R. F. F. XL - 5 (1988) 359-370.
14
Eccher A., Fusaro E., Righi F., Primi risultati di prove a dimora sui pini Mediterranei della ``sezione halepensis'' con particolare riferimento a Pinus eldarica Medw., Cellulosa e Carta 33 (1982) 3-30.
15
Emberger L., La végétation de la région mediterranéenne. Essai d'une classification des groupements végétaux, Rev. Gén. Bot. 42 (1930) 503-540.
16
Falusi M., Calamassi R., Tocci A., Sensitivity of seed germination and seedling root growth to moisture stress in four provenances of Pinus halepensis Mill., Silvae Gen. 32 (1983) 4-8.
17
FAO, 1974 - Progetto 4 bis. Esperienze internazionali sulle provenienze di Pinus halepensis e Pinus brutia, FAO, Rome.
18
Fernàndez M., Gil L., Pardos J.A., Response of Pinus pinaster Ait. provenances at early age to water supply, Ann. For. Sci. 56 (1999) 179-187.
19
Gucci R., Massai R., Casano S., Mazzoleni S., Seasonal changes in the water relations of mediterranean co-occuring woody species, Plant Biosystems 133 (1999) 117-128.
20
Heth D., Water potentials of stressed pine seedlings under controlled conditions, Isr. J. Bot. 23 (1974) 127-131.
21
Hewitt E.J., Sand and water colture methods used in the study of plant nutrition, Comm. Agric. Bureaux, 1966.
22
Hoagland D.R., Arnon D.I., The water-culture method of growing plants without soil, Calif. Agric. Exp. Stn. Circ., No. 347 (1950).
23
Jarvis P.G., Jarvis M.S., The water relation of tree seedlings. 4 Some aspect of the tissue water relations and drought resistance, Physiol. Plant. 16 (1963) 501-515.
24
Kaufmann M.R., Water relations of pine seedlings in relation to root and shoot growth, Plant Physiol. 43 (1968) 281-288.
25
Kozlowski T.T., Kramer P.J., Pallardy S.G., The physiological ecology of woody plants, Academic Press, Toronto, 1991, p. 657.
26
Michel E., Evaluation of the water potential of solutions of Polyethylene Glycol 8000 both in the absence and presence of other solutes, Plant Physiol. 72 (1983) 66-70.
27
Oppenheimer H.R., Drought resistance of Monterey pine needles, Isr. J. Bot. 17 (1968) 163-168.
28
Paoletti E., Danti R., Strati S., Pre and post inoculation water stress affects Sphaeropsis sapinea canker length in Pinus halepensis seedlings, Forest Pathology 31 (2001) 1-10.
29
Ritchie G., Hinckley T.M., The pressure chamber as an instrument for ecological research, in: MacFayden A. (Ed.), Advanced in ecological research, Academic Press London, New York, San Francisco, Vol. 9, 1975, 165-201.
30
Salleo S., Lo Gullo M.A., Different aspects of cavitation resistance in Ceratonia siliqua, a drought-avoiding mediterranean tree, Ann. Bot. 64 (1989) 325-336.
31
Sands R., Transplanting stress in radiata pine, Aust. For. Res. 14 (1984) 67-72.
32
Schiller G., Brunori A., Aleppo pine (Pinus halepensis Mill.) in Umbria (Italy) and its relation to native Israeli populations, Isr. J. Bot. 41 (1992) 123-127.
33
Schiller G., Conkle M.T., Grunwald C., Local differentiation among Mediterranean populations of Aleppo pine in their isoenzymes, Silvae Genet. 35 (1986) 11-19.
34
Sweet G.B., Bolmann M.P., The terminology of pine shoot growth, N. Z. J. For. Sci. 6 (1976) 393-396.
35
Tognetti R., Michelozzi M., Giovannelli A., Geographical variation in water relation, hydraulic architecture and terpene composition of Aleppo pine seedlings from Italian provenances, Tree Physiol. 17 (1997) 241-250.
36
Tyree M.T., Jarvis P.G., Water in tissue and cells, in: Lange O.L. Nobel P.S., Osmond C.B., Ziegler H. (Eds.), Encyclopaedia of plant physiology, New Ser., Vol. 12B, Springer, New York, 1982, pp. 35-77.
37
UNESCO-FAO, Carte bioclimatique de la zone mediterranéenne. Notice explicative. Recherches sur la zone aride, XXI. UNESCO, Paris et FAO, Rome, 1963.
38
Villar-Salvador P., Oca na L., Pe nuelas J., Carrasco I., Effect of water stress conditioning on water relations, root growth capacity, and nitrogen and non-structural carbohydrate concentration of Pinus halepensis Mill. (Aleppo pine) seedlings, Ann. For. Sci. 56 (1999) 459-465.
39
Weinstein A., 1989 Geographical variation and phenology of Pinus halepensis, P. brutia and P. eldarica in Israel, For. Ecol. Manage. 27 (1989) 99-108.
40
Wilson J.R., Fischer M.J., Schulze E.D., Dolby G.R., Ludlow M.M., Comparison between pressure-volume and dewpoint-hygrometry techniques for determining the water relations characteristics of grass and legume leaves, Oecologia 41 (1979) 77-88.

Abstract

Copyright INRA, EDP Sciences