Genetic variability in phosphorus acquisition and utilization efficiency from sparingly soluble P-sources by Brassica cultivars under P-stress environment

Journal of Agronomy and Crop Science

Volumn 194, Issue 5, 2008, Pages 380-392

  Akhtar, M S ^a,b   Oki, Y ^a   Adachi, T ^a  

^a OKAYAMA UNIVERSITY   (Japan)

^b UNIVERSITY OF AGRICULTURE   (Pakistan)

Author keywords

Brassica; Ca3(PO4)2; H+ and carboxylates exudation; P stress factor; P utilization efficiency; Rock P; Root architecture

Indexed keywords

CONCENTRATION (COMPOSITION); CULTIVAR; GENETIC VARIATION; HERB; NUTRIENT UPTAKE; NUTRIENT USE EFFICIENCY; ROOT ARCHITECTURE;

BRASSICA;

EID: 52149109936     PISSN: 09312250     EISSN: 1439037X     Source Type: Journal    
DOI: 10.1111/j.1439-037X.2008.00326.x     Document Type: Article

References (32)

1. Al-Ghazi, Y., B. Muller, S. Pinloche, T. J. Tranbarger, P. Nancry, M. Rossignol, F. Tardieu P. Doumas, 2003 : Temporal responses of Arabidopsis root architecture to P-starvation: evidence for the involvement of auxin signaling. Plant Cell Environ. 26, 1053 1066.
2. Arredondo, J. T. D. A. Johnson, 1999 : Root architecture and biomass allocation of three range grasses in response to non-uniform supply of nutrients and shoot defoliation. New Phytol. 143, 373 385.
3. Casson, S. A. K. Lindsey, 2003 : Genes and signaling in root development. New Phytol. 158, 11 38.
4. Chapman, H. D. P. F. Pratt, 1961 : Methods of Analysis for Soils, Plants and Waters, pp. 160 170. University of California, Berkeley, CA.
5. Fitter, A. H., T. R. Stickland, M. L Harvey G. W. Wilson, 1991 : Architectural analysis of plant root systems. 1. Architectural correlates of exploitation efficiency. New Phytol. 118, 375 382.
6. Gerke, J., W. Römer L. Beißner, 2000 : The quantitative effect of chemical phosphate mobilization by carboxylate anions on P uptake by a single root. II. The importance of soil and plant parameters for uptake of mobilized P. J. Plant Nutr. Soil Sci. 163, 213 219.
7. Gill, M. A. Z. Ahmad, 2003 : Inter-varietal differences of absorbed P utilization in cotton exposed to P-free nutrition: Part II. P-absorption and remobilization in plant. Pak. J. Sci. Res. 55, 10 14.
8. Gomez, K. A. A. A. Gomez, 1984 : Statistical Procedures for Agricultural Research. John Wiley & Sons, New York.
9. Hammond, J. P., M. R. Broadley P. J. White, 2004 : Genetic responses to phosphorus deficiency. Ann. Bot. 94, 323 332.
10. Hoffland, E., G. R. Findenegg J. A. Nelemans, 1989 : Utilization of rock phosphate by rape. Plant Soil 113, 155 160.
11. Hughes, J. C. R. J. Gilkes, 1994 : Rock phosphate dissolution and bicarbonate-soluble P in some soils from south-western Australia. Aust. J. Soil Res. 32, 767 779.
12. Jones, D. L., 1998 : Organic acids in the rhizosphere-a review. Plant Soil 205, 25 44.
13. Lambers, H., M. W. Shane, M. D. Cramer, S. J. Pearse E. J. Veneklaas, 2006 : Root structure and functioning for efficient acquisition of phosphorus: matching morphological and physiological traits. Ann. Bot. 98, 693 713.
14. López-Bucio, J., E. Hernández-Abreu, L. Sánchez-Calderón, M. F. Nieto-Jacobo, J. Simpson L. Herrera-Estrella, 2002 : Phosphate availability alters architecture and causes changes in hormone sensitivity in the Arabidopsis root system. Plant Physiol. 129, 244 256.
15. Ma, Z., T. I. Baskin, K. M. Brown J. P. Lynch, 2003 : Regulation of root elongation under phosphorus stress involves changes in ethylene responsiveness. Plant Physiol. 131, 1381 1390.
16. Mollier, A. S. Pellerin, 1999 : Maize root system growth and development as influenced by phosphorus deficiency. J. Exp. Bot. 50, 487 497.
17. Neumann, G. E. Martinoia, 2002 : Cluster roots - an underground adaptation for survival in extreme environments. Trends Plant Sci. 7, 162 167.
18. Niklas, K. J. B. J. Enquist, 2002 : On the vegetative biomass partitioning of seed plant leaves, stems, and roots. Am. Nat. 159, 482 497.
19. Raghothama, K. G. A. S. Karthikeyan, 2005 : Phosphate acquisition. Plant Soil 274, 37 49.
20. Rausch, C. M. Bucher, 2002 : Molecular mechanisms of phosphate transport in plants. Planta 216, 23 37.
21. Römer, W. H. Schenk, 1998 : Influence of genotype on phosphate uptake and utilization efficiencies in spring barley. Eur. J. Agron. 8, 215 224.
22. Ruiz, L. J. C. Arvieu, 1990 : Measurement of pH gradients in the rhizosphere. Symbiosis 9, 71 75.
23. Ryan, P. R., E. Delhaize D. L. Jones, 2001 : Function and mechanism of organic anion exudation from plant roots. Annu. Rev. Plant Physiol. Plant Mol. Biol. 52, 527 560.
24. Sakano, K., 2001 : Metabolic regulation of pH in plant cells: role of cytoplasmic pH in defense reaction and secondary metabolism. Int. Rev. Cyt. 206, 1 44.
25. Siddiqi, M. Y. A. D. M. Glass, 1981 : Utilization index: a modified approach to the estimation and comparison of nutrient utilization efficiency in plants. J. Plant Nutr. 4, 289 302.
26. Steel, R. G. D. J. H. Torrie, 1980 : Principles and Procedures of Statistics. McGraw-Hill, New York.
27. Steen, I., 1998 : Phosphorus management in the 21st century. Management of a non-renewable resource. Phosphorus Potassium 217, 25 31.
28. Vance, C. P., C. Uhde-Stone D. L. Allan, 2003 : Phosphorus acquisition and use: critical adaptations by plants securing a nonrenewable resource. New Phytol. 157, 423 457.
29. Williamson, L., S. P. C. P. Ribrioux, A. H. Fitter H. M. O. Leyser, 2001 : Phosphate availability regulates root system architecture in Arabidopsis. Plant Physiol. 126, 875 882.
30. + ATPase activity in proteoid roots of white lupin under phosphate deficiency. Plant Physiol. 12, 50 63.
31. Zoysa, A. K. N., P. Loganathan M. J. Hedley, 1997 : A technique for studying rhizosphere processes in tree crops: soil phosphorus depletion around camellia (Camellia japonica L.) roots. Plant Soil 190, 253 265.
32. Zoysa, A. K. N., P. Loganathan M. J. Hedley, 1999 : Phosphorus utilization efficiency and depletion of phosphate fractions in the rhizosphere of three tea (Camellia sinensis L.) clones. Nutr. Cycl. Agroecosys. 53, 189 201.