Free Access
Ann. For. Sci.
Volume 57, Number 4, May 2000
Page(s) 305 - 312


Aguilera-Gomez L., Davies F.T., Olalde-Portugal V., Duray S.A., Phavaphutanon L., Influence of phosphorus and endomycorrhiza (Glomus intraradices) on gas exchange and plant growth of chile ancho pepper (Caspicum annuum L. cv. San Luis) Photosynthetica 36 (1999) 441-449.
Al-Karaki G.N., Benefit, cost and water-use efficiency of arbuscular mycorrhizal durum wheat grown under drought stress, Mycorrhiza 8 (1998) 41-45.
Al-Karaki G.N., Clark R.B., Growth, mineral acquisition, and water use by mycorrhizal wheat grown under water stress, J. Plant Nutr. 21 (1998) 263-276.
Allen M.F., Influence of vescicular-arbuscular mycorrhizae on water movement through Bouteloua gracilis (H.B.K.) Lag ex Steud., New Phytol. 91 (1982) 191-196.
Allen M.F., Boosalis M.G., Effects of two species of VA mycorrhizal fungi on drought tolerance of winter wheat, New Phytol. 93 (1983) 67-76.
Amir R., Steudle E., Levanon D., Hadar Y., Chet I., Turgor changes in Morchella esculenta during translocation and sclerotial formation, Exp. Mycol. 19 (1995) 129-136.
Andersen C.P., Markhart III A.H., Dixon R.K., Sucoff E.I., Root hydraulic conductivity of vescicular-arbuscular mycorrhizal green ash seedlings, New Phytol. 109 (1988) 465-471.
Augé R.M., Stodola A.J.W., An apparent increase in symplastic water contributes to greater turgor in mycorrhizal roots of droughted Rosa plants, New Phytol. 115 (1990) 285-295.
Bethlenfalvay G.J., Mycorrhizae and crop productivity, Mycor. Sust. Agric. 54 (1992) 1-27.
Bryla D.R., Duniway J.M., Water uptake by safflower and wheat roots infected with arbuscular mycorrhizal fungi, New Phytol. 136 (1997) 591-601.
Burgess T.I., Malajczuk N., Grove T.S., The ability of 16 ectomycorrhizal fungi to increase growth and phosphorus uptake of Eucalyptus globulus Labill. and E. diversicolor F. Muell., Plant Soil 153 (1993) 155-164.
Coleman M.D., Bledsoe C.S., Smit B.A., Root hydraulic conductivity and xylem sap levels of zeatin riboside and abscisic acid in ectomycorrhizal Douglas fir, New Phytol. 115 (1990) 275-284.
Colpaert J.V., Van Laere A., Van Assche J.A., Carbon and nitrogen allocation in ectomycorrhizal and non-mycorrhizal Pinus sylvestris L. seedlings, Tree Physiol. 16 (1996) 787-793.
Elliott E.T., Coleman D.C., Let the soil work for us, Ecol. Bull. 39 (1988) 23-32.
Fahn A., Plant Anatomy, Butterworth-Heinemann, Oxford, 1990.
Finlay R.D., Söderström B., Mycorrhiza and carbon flow to the soil, in: Allen M.J. (Ed.), Mycorrhizal Functioning. An Integrative Plant-Fungal Process, Chapman & Hall, New York, 1992, pp. 134-160.
Gemma J.N., Koske R.E., Roberts E.M., Jackson N., De Antonis K., Mycorrhizal fungi improve drought resistance in creeping bentgrass, J. Turfgrass Sci. 73 (1997) 15-29.
Giovannetti M., Mosse B., An evaluation of techniques for measuring vescicular-arbuscular mycorrhizal infection in roots, New Phytol. 84 (1980) 489-500.
Graham J.H., Syvertsen J.P., Smith M.L., Water relations of mycorrhizal and phosphorus-fertilized non-mycorrhizal Citrus under drought stress, New Phytol. 105 (1987) 411-419.
Huang R.S., Smith W.K., Yost R.S., Influence of vescicular-arbuscular mycorrhiza on growth, water relations, and leaf orientation in Leucaena leucocephala (Lam.) De Wit., New Phytol. 99 (1985) 229-243.
Levy I., Krikun J., Effect of vescicular-arbuscular mycorrhiza in Citrus jambhiri water relations, New Phytol. 85 (1980) 25-32.
Lo Gullo M.A., Nardini A., Salleo S., Tyree M.T., Changes in root hydraulic conductance (KR) of Olea oleaster seedlings following drought stress and irrigation, New Phytol. 140 (1998) 25-31.
Loveless A.R., Further evidence to support a nutritional interpretation of sclerophylly, Ann. Bot. 26 (1962) 551-561.
Marks G.C., Kozlowski T.T., Ectomycorrhizae: Their Ecology and Physiology, Academic Press, New York, 1973.
Mitrakos K., A theory for Mediterranean plant life, Acta Oecol./Oecol. Plant. 1, 15 (1980) 245-252.
Nardini A., Ghirardelli L., Salleo S., Vulnerability to freeze-stress of seedlings of Quercus ilex L.: an ecological interpretation, Ann. Sci. For. 55 (1998) 553-565.
Nardini A., Lo Gullo M.A., Salleo S., Competitive strategies for water availability in two Mediterranean Quercus species, Plant Cell Environ. 22 (1999) 109-116.
Nardini A., Lo Gullo M.A., Tracanelli S., Water relations of six sclerophylls growing near Trieste (Northeastern Italy): has sclerophylly a univocal functional significance?, Giorn. Bot. It. 130 (1996) 811-828.
Parke J.L., Lindermann R.G., Black C.H., The role of ectomycorrhizas in drought tolerance of Douglas fir seedlings, New Phytol. 95 (1983) 83-95.
Ray J.D., Sinclair T.R., The effect of pot size on growth and transpiration of maize and soybean during water deficit stress, J. Exp. Bot. 49 (1998) 1381-1386.
Ruiz-Lozano J.M., Azcòn R., Hyphal contribution to water uptake in mycorrhizal plants as affected by the fungal species and water status, Physiol. Plant. 95 (1995) 472-478.
Safir G.R., Boyer J.S., Gerdemann J.W., Mycorrhizal enhancement of water transport in soybean, Science 172 (1971) 581-583.
Salleo S., Water relations of two Sicilian species of Senecio (groundsel) measured by the pressure bomb technique, New Phytol. 95 (1983) 179-188.
Salleo S., Nardini A., Lo Gullo M.A., Is sclerophylly of Mediterranean evergreens an adaptation to drought?, New Phytol. 135 (1997) 603-612.
Sands R., Theodorou C.T., Water uptake by mycorrhizal roots of radiata pine seedlings, Aust. J. Pl. Physiol. 5 (1978) 301-309.
Sands R., Fiscus E.L., Reid C.P.P., Hydraulic properties of pine and bean roots with varying degrees of suberization, vascular differentiation and mycorrhizal infection, Aust. J. Pl. Physiol. 9 (1982) 959-969.
Scholander P.F., Hammel H.T., Hemmingsen E.A., Bradstreet E.D., Hydrostatic pressure and osmotic potential in leaves of mangroves and some other plants, Proc. Nat. Acad. Sci. USA 51 (1964) 119-125.
Sperry J.S., Alder N.N., Eastlack S.E., The effect of reduced hydraulic conductance on stomatal conductance and xylem cavitation, J. Exp. Bot. 44 (1993) 1075-1082.
Steudle E., Long distance transport of water in trees: role of the root, in: Radoglou K. (Ed.), Extended Abstracts Collection of the International Workshop on Resource Utilization from Cell to Canopy, COST E6-Eurosilva, Thessaloniki, Greece, 1996, pp. 47-52.
Steudle E., Heydt H., Water transport across tree roots, in: Rennenberg H., Eschrich W., Ziegler H. (Eds.), Trees Ð Contributions to Modern Tree Physiology, Backhuys Publishers, Leiden, The Netherlands, 1997, pp. 239-255.
Turner I.M., Sclerophylly: primarily protective?, Funct. Ecol. 8 (1994) 669-675.
Tyree M.T., Hammel H.T., The measurement of the turgor pressure and water relations of plants by the pressure-bomb technique, J. Exp. Bot. 23 (1972) 267-282.
Tyree M.T., Sperry J.S., Vulnerability of xylem embolism to cavitation and embolism, Ann. Rev. Pl. Physiol. Mol. Biol. 40 (1989) 19-38.
Tyree M.T., Sinclair B., Lu P., Granier A., Whole shoot hydraulic resistance in Quercus species measured with a high-pressure flowmeter, Ann. Sci. For. 50 (1993) 417-423.
Tyree M.T., Yang S., Cruiziat P., Sinclair B., Novel methods of measuring hydraulic conductivity of tree root systems and interpretation using AMAIZED, Plant Physiol. 104 (1994) 189-199.
Tyree M.T., Pati no S., Bennink J., Alexander J., Dynamic measurements of root hydraulic conductance using a high-pressure flowmeter in the laboratory and field, J. Exp. Bot. 46 (1995) 83-94.
Tyree M.T., Velez V, Dalling J.W., Growth dynamics of root and shoot hydraulic conductance in seedlings of five neotropical tree species: scaling to show possible adaptation to differing light regimes, Oecologia 114 (1998) 293-298.


Copyright INRA, EDP Sciences