Hydraulic and non-hydraulic root-sourced signals in old and modern spring wheat cultivars in a semiarid area

Journal of Plant Growth Regulation

Volumn 25, Issue 2, 2006, Pages 120-136

  Xiong, You Cai ^a,b   Li, Feng Min ^a,b   Xu, Bing Cheng ^a,b   Hodgkinson, Kenneth C ^c  

^a LANZHOU UNIVERSITY   (China)

^b NORTHWEST A F UNIVERSITY   (China)

^c CSIRO   (Australia)

Author keywords

Drought tolerance; Root sourced signals; Soil water content; Spring wheat (Triticum aestivum L.); Stomatal conductance

Indexed keywords

CULTIVATION; DRYING; GRAIN (AGRICULTURAL PRODUCT); PLANTS (BOTANY); SOILS;

DROUGHT TOLERANCE; ROOT-SOURCED SIGNALS; SOIL WATER CONTENT; SPRING WHEAT (TRITICUM AESTIVUM L.); STOMATAL CONDUCTANCE;

CROPS;

CULTIVATION; DRYING; GRAIN; PLANTS; SOIL; WHEAT;

TRITICUM AESTIVUM;

EID: 33745627454     PISSN: 07217595     EISSN: 14358107     Source Type: Journal    
DOI: 10.1007/s00344-005-0056-4     Document Type: Article

References (55)

1. Bettina MJE, Thomas AK. 2003. Comparative drought-resistance of seedlings of 28 species of co-occurring tropical woody plants. Oecologia 136:383-393.
2. Blackman PG, Davis WJ. 1985. Root-to-shoot communication in maize plants of the effects of soil drying. J Exp Bot 36:39-48.
3. Blum A, Gozlan G, Mayer J. 1981. The manifestation of dehydration avoidance in wheat breeding germplasm. Crop Sci 21:495-499.
4. Blum A, Johnson JW. 1993. Wheat cultivars respond differently to a drying topsoil and a possible non-hydraulic root signal. J Exp Bot 44:1149-1153.
5. Boyer JB, MePherson HG. 1975. Physiology of water deficits in cereal crops. Adv Agron 27:1-23.
6. Chapman DS, Augé RM. 1994. Physiological mechanisms of drought resistance of four native ornamental perennials. J Am Soc Hortic Sci 119:299-306.
7. Comstock, Jonathan P. 2002. Hydraulic and chemical signaling in the control of stomatal conductance and transpiration. J Exp Bot 53:195-200.
8. Comstock J, Mencuccini M. 1998. Control of stomatal conductance by leaf water potential in Hymenoclea salsola (T. & G.), a desert subshrub. Plant Cell Environ 25:1029-1038.
9. Croker JL, Witte WT, Augé RM. 1998. Stomatal sensitivity of six temperature, deciduous tree species to non-hydraulic root-to-shoot signaling of partial soil drying. J Exp Bot 49:761-774.
10. Davis WJ, Zhang J. 1991. Root signals and the regulation of growth and development of plants in drying soil. Annu Rev Plant Physiol Plant Mol Biol 42:55-76.
11. Desikan R, Cheung MK, Bright J, Henson D, Hancock JT, Neill SJ. 2004. ABA, hydrogen peroxide and nitric oxide signaling in stomatal guard cells. J Exp Bot 55:205-212.
12. Dodd C, Tan LP, He J. 2003. Do increase in xylem sap pH and/or ABA concentration mediate stomatal closure following nitrate deprivation? J Exp Bot 54:1281-1288.
13. Dodd IC. 2003. Hormonal interactions and stomatal responses. J Plant Growth Regul 22:32-46.
14. Donald CM, Hamblin J. 1983. The convergent evolution of annual seed crops in agriculture. Adv Agron 36:97-143.
15. Duvick DN. 1997. What is yield? In: Edmeades GO, Bänziger M, Mickelson HR, Peña-Valdivia CB editors. Developing Drought and Low-N Tolerant Maize Mexico: CIMMYT (Centre International de Mejoramiento de Maíz y Trigo [International Maize and Wheat Improvement Center], El Batan. pp 332-335.
16. Engelbrecht BMJ, Kursar TA. 2003. Comparative drought-resistance of seedling of 28 species of co-occurring tropical woody plants. Oecologia 136:383-393.
17. Eric SO, Robert ES. 2003. Electrophysiological responses of maize roots to low potentials: relationship to growth and ABA accumulation. J Exp Bot 54:813-824.
18. Gollan T, Passioura JB, Munns R. 1986. Soil water status affects stomatal conductance as an indicator of fully turgid wheat and sunflower leaves. Aust J Plant Physiol 13:459-464.
19. Gowing DJ, Davies WJ, Jones HG. 1990. A positive root-induced signal as an indicator of soil drying in apple Malus * domestica Borkh. J Exp Bot 41:1535-1540.
20. Gutschick VP, Simonneau T. 2002. Modeling stomatal conductance of field grown sunflower under varying soil water content and leaf environment: comparison of three models of stomatal response to leaf environment and coupling with an abscisic acid-based model of stomatal response to soil drying. Plant Cell Environ 25:1423-1434.
21. Hansen H, Grossmann K. 2000. Auxin-induced ethylene triggers abscisic acid biosynthesis and growth inhibition. Plant Physiol 124:1437-1448.
22. Jensen CR, Henson IE, Turner NC. 1989. Leaf gas exchange and water relations of lupines during drought-induced stomatal closure. Aust J Plant Physiol 16:415-428.
23. Khan AJ, Hassan S, Tariq M, Khan T. 2001. Haploidy breeding and mutagenesis for drought tolerance in wheat. Euphytica 120:409-414.
24. Kitchen NR, Sudduth KA, Drummond ST. 1999. Soil electrical conductivity as a crop productivity measure for claypan soils. J Product Agric 12:607-617.
25. Laing DR, Fischer RA. 1977. Adaptation of semidwarf wheat cultivars to rainfed conditions. Euphytica 26:129-139.
26. Lew RR. 1996. Pressure regulation of the electrical properties of growing Arabidopsis thaliana L. root hairs. Plant Physiol 112:1089-1100.
27. Ludlow MM, Sommer KJ, Flower DJ. 1989. Influence of root signals resulting from soil dehydration and high soil strength on growth of crop plants. Curr Topic Plant Biochem Physiol 8:81-89.
28. Maurel M, Robin C, Simonneau T, Loustau D, Dreyer E, Desprez-Loustau ML. 2004. Stomatal conductance and root-to-shoot signaling in chestnut saplings exposed to Phytophthora cinnamomi or partial soil drying. Funct Plant Biol 31:41-51.
29. 2+ precedes stomatal closure. Nature 25:186-188.
30. Mingo DM, Bacon MA, Davies WJ. 2003. Non-hydraulic regulation of fruit growth in tomato plants (Lycopersicon esculentum cv. Solairo) growing in drying soil. J Exp Bot 54:1205-1212.
31. Morgan JM. 1977. Difference in osmoregulation between wheat genotypes. Nature (Lond) 270:234-235.
32. Morgan JM. 1983. Osmoregulation as a selection criterion for drought tolerance in wheat. Aust J Agric Res 34:607-614.
33. Morgan JM. 1995. Growth and yield of wheat lines with differing osmoregulative capacity at high soil water deficit in seasons of varying evaporative demand. Field Crop Res 40:143-152.
34. Morgan JM, Hare RA, Fletcher RJ. 1986. Genetic variation in osmoregulation in bread and durum wheats and its relationship to grain yields in a range of field environments. Aust J Agric Res 37:449-457.
35. Norman JMV, Frederick RL, Sieburth LE. 2004. BYPASS1 negatively regulates a root-derived signal that controls plant architecture. Curr Biol 14:1739-1746.
36. Ober ES, Sharp RE. 2003. Electophysiological responses of maize roots to low water potentials: relationship to growth and ABA accumulation. J Exp Bot 54:813-824.
37. Pandey S, Perfus-Barbeoch L, Taylor JP, Zhao Z. 2005. Plant cell signaling: in vivo and -omics approaches. J Plant Growth Regul DOI: 10.1007/s00344-005-0039-5.
38. Passioura JB. 2004. Increasing Crop Productivity When Water is Scarce - From Breeding to Field Management. Proceeding of the 4th International Crop Science Congress, 1-17.
39. Passioura JB. 2002. Soil conditions and plant growth. Plant Cell Environ 25:311-318.
40. Passioura JB. 1983. Roots and drought resistance. Agric Water Manag 7:265-280.
41. Passioura JB. 1976. Physiology of grain yield on wheat growing on stored water. J Plant Physiol 3:559-565.
42. Patonnier MP, Peltier JP, Marigo G. 1999. Drought-induced increase in xylem malate and mannitol concentrations and closure of Fraxinus excelsior L. stomata. J Exp Bot 25:1223-1229.
43. Rajaram S. 2001. Prospects and promise of wheat breeding in the 21st century. Euphytica 119:3-15.
44. Richards RA. 1996. Defining selection criteria to improve yield under drought. Plant Growth Regul 20:157-166.
45. Sharp RE. 2002. Interaction with ethylene: changing views on the role of abscisic acid in root and shoot growth responses to water stress. Plant Cell Environ 25:211-222.
46. Sharp RE, LeNoble ME, Else MA, Thorne ET, Gherardi F. 2000. Endogenous ABA maintains shoot growth in tomato independently of effects on the plant's water balance: evidence for an interaction with ethylene. J Exp Bot 51:1575-1584.
47. Sinclair TR, Ludlow MM. 1986. Influence of soil water supply on the plant water balance of four tropical grain legumes. Aust J Plant Physiol 13:329-341.
48. Smith WK, Hollinger DY. 1991. Measuring stomatal behavior In: Lassoie JP, Hinckley TM editors. Techniques and Approaches in Forest Tree Ecophysiology Boca Raton, FL, USA: CRC Press. pp 81-95.
49. Stoll M, Loveys B, Dry P. 2000. Hormonal changes induced by partial rootzone drying of irrigated grapevine. J Exp Bot 51:1627-1634.
50. Taylor JE, Hatcher PE, Paul ND. 2004. Crosstalk between plant responses to pathogens and herbivores: a view from the outside in. J Exp Bot 55:159-168.
51. Trethowan RM, Ginkel MV, Rajaram S. 2002. Progress in breeding wheat for yield and adaptation in global drought affected environments. Crop Sci 42:1441-1446.
52. Weiner J. 1990. Plant population ecology in agriculture In: Ronald-Carrol C editor. Agroecology New York, USA: McGraw-Hill. pp 235-262.
53. Wesley B, Bruce, Gregory O, Edmeades, Barker TC. 2002. Molecular and physiological approaches to maize improvement for drought tolerance. J Exp Bot 53:13-25.
54. Wigger J, Phillips J, Peisker M, Artaenko O, Conrad UFU. 2002. Prevention of stomatal closure by immunomodulation of endogenous abscisic acid and its reversion by abscisic acid treatment: physiological behavior and morphological features of tobacco stomata. Planta 215:413-423.
55. Wilkinson S, Davies WJ. 2002. ABA-based chemical signaling: the co-ordination of responses to stress in plants. Plant Cell Environ 25:195-210.