Calcium regulates K+/Na+ homeostasis in rice (Oryza sativa L.) under saline conditions

Plant, Soil and Environment

Volumn 58, Issue 3, 2012, Pages 121-127

  Wu, G Q ^a   Wang, Suo Min ^a  

^a LANZHOU UNIVERSITY   (China)

Author keywords

Futile cycling; Ion accumulation; Salt stress; Selectivity

Indexed keywords

ORYZA SATIVA;

EID: 84859170335     PISSN: 12141178     EISSN: None     Source Type: Journal    
DOI: 10.17221/374/2011-pse     Document Type: Article

References (32)

1. Al-Khateeb S.A. (2006): Effect of calcium/sodium ratio on growth and ion relations of alfalfa (Medicago sativa L.) seedlings growth under saline condition. Journal of Agronomy, 5: 175-181.
2. Alama S., Huqb S.M.I., Kawai S., Islam A. (2002): Effects of applying calcium salts to coastal saline soils on growth and mineral nutrition of rice varieties. Journal of Plant Nutrition, 25: 561-575.
3. Amtmann A., Fischer M., Marsh E.L., Stefanovic A., Sanders D., Schachtman D.P. (2001): The wheat cDNA LCT1 generates hypersensitivity to sodium in a salt-sensitive yeast strain. Plant Physiology, 126: 1061-1071.
4. 2+in salt tolerance response. Physiologia Plantarum, 124: 451-464.
5. Ashraf M., Naqvi M.I. (1991): Responses of three arid zone grass species to varying Na/Ca ratios in saline sand culture. New Phytologist, 119: 285-290.
6. Britto D.T., Kronzucker H.J. (2006): Futile cycling at the plasma membrane: a hallmark of low-affinity nutrient transport. Trends in Plant Science, 11: 529-534.
7. Davenport R.J., Tester M. (2000): A weakly voltage-dependent, nonselective cation channel mediates toxic sodium influx in wheat. Plant Physiology, 122: 823-834.
8. Davenport R., James R.A., Zakrisson-Plogander A., Tester M., Munns R. (2005): Control of sodium transport in durum wheat. Plant Physiology, 137: 807-818.
9. Essah P.A. (2002): Sodium transport and accumulation in Arabidopsis thaliana. [PhD Thesis.] Cambridge University, Cambridge.
10. Essah P.A., Davenport R., Tester M. (2003): Sodium influx and accumulation in Arabidopsis. Plant Physiology, 133: 307-318.
11. Faiyue B., Vijayalakshml C., Nawaz S., Nagato Y., Taketa S., Ichil M., Al-Azzaw A.J., Flowers T.J. (2010): Studies on sodium bypass flow in lateral rootless mutants lrt1 and lrt1, and crown rootless mutant crl1 of rice (Oryza sativa L.). Plant, Cell and Environment, 33: 687-701.
12. Gong H.J., Randall D.P., Flowers T.J. (2006): Silicon deposition in the root reduces sodium uptake in rice (Oryza sativa L.) seedlings by reducing bypass flow. Plant, Cell and Environment, 29: 1970-1979.
13. Khan H.R., Yasmin K.F., Adachi T., Ahmed I. (1992): Effects of gypsum, Zn, and intermittent saline irrigation on the growth, yield, and nutrition of rice plants grown in a saline soil. Soil Science and Plant Nutrition, 38: 421-429.
14. 2on cell production in cotton roots. Plant Physiology, 82: 1102-1106.
15. Kronzucker H.J., Britto D.T. (2011): Sodium transport in plants: a critical review. New Phytologist, 189: 54-81.
16. +. Plant, Cell and Environment, 29: 2228-2237.
17. Lazof D., Cheeseman J.M. (1986): Sodium transport and compartmentation in Spergularia marina. Plant Physiology, 81: 742-747.
18. +ratios. Annals of Botany, 84: 123-133.
19. 2on growth, membrane permeability and nutrient uptake in Atriplex halimus subsp. schweinfurthii grown at high (NaCl) salinity. Desalination, 249: 163-166.
20. Rains D.W., Epstein E. (1967): Sodium absorption by barley roots: role of the dual mechanisms of alkali cation transport. Plant Physiology, 42: 314-318.
21. 4. Plant and Soil, 315: 123-133.
22. +uptake in pepper plants. Plant Science, 165: 1043-1049.
23. Song J.Q., Fujiyama H. (1996): Difference in response of rice and tomato subjected to sodium salinization to the addition of calcium. Soil Science and Plant Nutrition, 42: 503-510.
24. +transport in higher plants. Annals of Botany, 91: 503-527.
25. Wang B., Davenport R.J., Volkov V., Amtmann A. (2006): Low unidirectional sodium influx into root cells restricts net sodium accumulation in Thellungiella halophila, a salt-tolerant relative of Arabidopsis thaliana. Journal of Experimental Botany, 57: 1161-1170.
26. +uptake in the halophyte Suaeda maritima. Plant Physiology, 145: 559-571.
27. +. Plant, Cell and Environment, 32: 486-496.
28. Yao X., Horie T., Xue S., Leung H.Y., Katsuhara M., Brodsky D.E., Wu Y., Schoeder J.I. (2010): Differential sodium and potassium transport selectivities of the rice OsHKT2;1 and OsHKT2;2 transporters in plant cells. Plant Physiology, 152: 341-355.
29. Yeo A.R., Flowers T.J. (1985): The absence of an effect of the Na/Ca ratio on sodium chloride uptake by rice (Oryza sativa L.). New Phytologist, 99: 81-90.
30. Yeo A.R., Flowers S.A., Rao G., Welfare K., Sénanayake N., Flowers T.J. (1999): Silicon reduces sodium uptake in rice (Oryza sativa L.) in saline conditions and this is accounted for by a reduction in the transpirational bypass flow. Plant, Cell and Environment, 22: 559-565.
31. Zhang J.L., Flowers T.J., Wang S.M. (2010): Mechanisms of sodium uptake by roots of higher plants. Plant and Soil, 326: 45-60.
32. Zhu J.K. (2001): Plant salt tolerance. Trends in Plant Science, 6: 66-71.