Effect of soil compaction on barley (Hordeum vulgare L.) growth: II. Are increased xylem sap ABA concentrations involved in maintaining leaf expansion in compacted soils?

Journal of Experimental Botany

Volumn 47, Issue 297, 1996, Pages 551-556

  Mulholland, B J ^a   Taylor, I B ^a   Black, C R ^a   Roberts, J A ^a  

^a UNIVERSITY OF NOTTINGHAM   (United Kingdom)

Author keywords

ABA; ABA deficient mutant; Leaf expansion; Xylem sap

Indexed keywords

HORDEUM; HORDEUM VULGARE SUBSP. VULGARE;

EID: 17544375804     PISSN: 00220957     EISSN: None     Source Type: Journal    
DOI: 10.1093/jxb/47.4.551     Document Type: Article

References (20)

1. Creelman RA, Mason HS, Bensen RJ, Boyer JS, Mullet JE. 1990. Water deficit and abscisic acid cause differential inhibition of shoot versus root growth in soybean seedlings. Plant Physiology 92, 205-14.
2. Davies WJ, Tardieu F, Trejo CL. 1994. How do chemical signals work in plants that grow in drying soil? Plant Physiology 104, 309-14.
3. Eamus D, Tomos AD. 1983. The influence of ABA on the water relations of leaf epidermal cells of Rhoeo discolor. Plant Science Letters 31, 253-9.
4. McWha JA, Jackson DL. 1976. Some growth promotive effects of abscisic acid. Journal of Experimental Botany 27, 1004-8.
5. Mulholland BJ, Black CR, Taylor IB, Roberts JA, Lenton JR. 1995. Effect of soil compaction on barley (Hordeum vulgare L.) growth. I. Possible role for ABA as a root-sourced chemical signal. Journal of Experimental Botany 47, 539-49.
6. Munns R. 1992. A leaf elongation assay detects an unknown growth inhibitor in xylem sap from wheat and barley. Australian Journal of Plant Physiology 19, 127-35.
7. Munns R, King RW. 1988. Abscisic acid is not the only stomatal inhibitor in the transpiration stream of wheat plants. Plant Physiology 88, 703-8.
8. Munns R, Sharp RE. 1993. Involvement of abscisic acid in controlling plant growth in soil of low water potential. Australian Journal of Plant Physiology 20, 425-37.
9. Robertson MJ, Hubick KT, Yeung EC, Reid DB. 1990a. Developmental responses to drought and abscisic acid in sunflower roots. I. Root growth, apical anatomy and osmotic adjustment. Journal of Experimental Botany 41, 325-37
10. Robertson MJ, Hubick KT, Yeung EC, Reid DB. 1990b. Developmental responses to drought and abscisic acid in sunflower roots. II. Mitotic activity. Journal of Experimental Botany 41, 339-50.
11. Saab IN, Sharp RE, Pritchard J, Voetberg GS. 1990. Increased endogenous abscisic acid maintains primary root growth and inhibits shoot growth of maize seedlings at low water potentials. Plant Physiology 93, 1329-36.
12. Schurr U, Gollan T, Schulze E-D. 1992. Stomatal responses to drying soil in relation to changes in the xylem sap composition of Helianthus annuus. II. Stomatal sensitivity to abscisic acid imported from the xylem sap. Plant, Cell and Environment 15, 561-7.
13. Takahashi K. 1973. Interaction between ethylene, abscisic acid and gibberellic acid in elongation of rice mesocotyl. Planta 109, 363-4.
14. Tardieu F, Davies WJ. 1992. Stomatal response to abscisic acid is a function of current plant water status. Plant Physiology 98, 540-5.
15. Tardieu F, Zhang J, Davies WJ. 1992. What information is conveyed by an ABA signal from maize roots in drying field soil? Plant, Cell and Environment 15, 185-91.
16. Van Volkenburg E, Davies WJ. 1983. Inhibition of light-stimulated leaf expansion by abscisic acid. Journal of Experimental Botany 34, 835-45.
17. Zhang J, Davies WJ. 1989. Sequential responses of whole plant water relations towards prolonged soil drying and the mediation by xylem sap ABA concentrations in the regulation of stomatal behaviour of sunflower plants. New Phytologist 113, 167-74.
18. Zhang J, Davies WJ. 1990a. Changes in the concentration of ABA in the xylem sap as a function of changing soil water status can account for changes in leaf conductance and growth. Plant, Cell and Environment 13, 277-85.
19. Zhang J, Davies WJ. 1990b. Does ABA in the xylem control the rate of leaf growth in soil-dried maize and sunflower plants? Journal of Experimental Botany 41, 1125-32.
20. Zhang J, Davies WJ. 1991. Antitranspirant activity in the xylem sap of maize plants. Journal of Experimental Botany 42, 317-21.