SEARCH

SEARCH BY CITATION

references

  • Andersen PC, Proebsting WM. 1984. Water and ion fluxes of abscisic acid-treated root systems of pear, Pyrus communis. Physiologia Plant arum 60: 143148.
  • BassiriRad H, Caldwell MM. 1992. Root growth, osmotic adjustment and NO3 uptake during and after a period of drought in Artemisia tridentata. Australia Journal of Plant Physiology 19: 493500.
  • BassiriRad H, Radin JW. 1992. Temperature-dependent water and ion transport properties of barley and sorghum roots, II. Effects of abscisic acid. Plant Physiology 99: 3447.
  • Blackman PG, Davies WJ. 1985. Root to shoot communication in maize plants of the effects of soil drying. Journal of Experimental Botany 36: 3948.
  • Collins JC, Kerrigan AP. 1974. The effect of kinetin and abscisic acid on water and ion transport in isolated maize root. New Phytologist 73: 309314.
  • Cornish K, Zeevaart JAD. 1985. Abscisic acid accumulation by roots of Xanthium strumarium L. and Lycopersicon esculcntum Mill, in relation to water stress. Plant Physiology 79: 653658.
  • Cruz RT, Jordan WR, Drew MC. 1992. Structural changes and associated reduction in hydraulic conductance in roots of Sorghum bicolor L. following exposure to water deficit, Plant Physiology 99: 203212.
  • Davies WJ, Zhang J. 1991. Root signals and the regulation of growth and development of plants in drying soil. Annual Review of Plant Physiology and Plant Molecular Biology 42: 5576.
  • Erlandsson GS, Pettersson S, Svensson S. 1978. Rapid effects of abscisic acid on ion uptake in sunflower roots. Physiologia Plantarum 43: 380384.
  • Fiscus EL. 1981. Effects of abscisic acid on the hydraulic conductance of and the total ion transport through Phaseolus root systems. Plant Physiology 68: 169174.
  • Fournier JM, Benlloch M, de la Guardia M. 1987. Effect of abscisic acid on exudation of sunflower roots as affected by nutrient status, glucose level and aeration. Physiologia Plantarum 69: 675679.
  • Glinka Z. 1977. Effects of abscisic acid and hydrostatic pressure gradients on water movement through excised sunflower roots. Plant Physiology 59: 933935.
  • Glinka Z. 1980. Abscisic acid promotes both volume flow and ion release to the xylem in sunflower root. Plant Physiology 65: 537540.
  • Hanson AD, Hitz WD. 1982. Metabolic responses of mesophytes to plant water deficits. Annual Review of Plant Physiology 33: 163203.
  • Huang B, Nobel PS. 1992. Hydraulic conductivity und anatomy for lateral roots of Agave deserti during root growth and drought-induced abscission. Journal of Experimental Botany 43: 14411449.
  • Jackson MB, Kowalewska AKB. 1983. Positive and negative messages from roots induce foliar desiccation and stomatal closure in flooded pea plants. Journal of Experimental Botany 34: 493506.
  • Jones HG. 1987. Correction for non-specific interference in competitive immunoassays. Physiologia Plantarum 70: 146154.
  • Karmoker JL, Van Steveninck RFM. 1978. Stimulation of volume How and ion flux by abscisic acid in excised root systems of Phaseolus vulgaris L. cv. Redland Pioneer. Planta 141: 3743.
  • Ludewig M, Dörffling K, Seifert H. 1988. Abscisic acid and water transport in sunflowers. Planta 175 325333.
  • Markhart AH III, Fiscus EL, Naylor AW, Kramer PJ. 1979. Effect of abscisic acid on root hydraulic conductivity. Plant Physiology 64: 611614.
  • North GB, Nobel PS. 1991. Changes in hydraulic conductivity and anatomy caused by drying and rewetting roots of Agave deserti (Aguvaceae). American Journal of Botany 78: 906915.
  • North GB, Nobel PS. 1992. Drought-induced changes in hydraulic conductivity and structure in roots of Ferocactus acanthodes and Opuntia firus-indica. New Phytologist 120: 919.
  • Passioura JB. 1988. Water transport in and out of roots. Annual Review of Plant Physiology and Plan. Molecular Biology 39: 245265.
  • Passioura JB, Munns R. 1984. Hydraulic resistance of plants. II. Effects of rooting medium, and time of day, in barley and lupin. Australia Journal of Plant Physiology 11: 341350.
  • Pitman MG, Wellfare D. 1978. Inhibition of ion transport in excised barley roots by abscisic acid: relation to water permeability of the roots. Journal of Experimental Botany 29: 11251138.
  • Quarrie SA, Whitford PN, Appleford NEJ, Wang TL, Cook SK, Henson IE, Loveys BR. 1988. A monoclonal antibody to (S)-abscisic acid: its characterization and use in a radio-immunoassay for measuring abscisic acid in crude extracts ofcereal and lupin leaves. Planta 173: 330339.
  • Steudle E. 1989. Water transport in roots. In: LoughmanBC et al. eds. Strurtural and Functional Aspects of Transport in Routs. Dordrecht : Kluwer Academic Publishers. 139145.
  • Tyree MT, Sperry JS. 1988. Do wood) plants operate near the point of catastrophic xylem dysfunction caused by dynamic water stress Plant Physiology 88: 584589.
  • Tyree MT, Yang S. 1992. Hydraulic conductivity recovery versus water pressure in xylem of Acer saccharum. Plant Physiology 100: 669676.
  • Walton DC, Harrison MA, Cote P. 1976. The effects of water stress on abscisic acid levels and metabolism in roots of Phaseolus vulgaris L. and other plants. Planta 131: 141144.
  • Zhang J. 1994. Accumulation of ABA in maize root in response to root severing. New Phytologist 127: 309314.
  • Zhang J, Davies WJ. 1989. Abscisic acid produced in dehydrating roots may enable the plant to measure the water status of the soil. Plant, CHI and Environment 12: 7381.
  • Zhang J, Davies WJ. 1990. Does ABA in the xylem control the rate of leaf growth in soil-dried maize and sunflower plants. Journal of Experimental Botany 41: 11251132.
  • Zimmermann MH. 1983. Xylem structure and the ascent of sap. Berlin : Springer-Verlag.