Agriculture Reference
In-Depth Information
[128] Niu X, Bressan RA, Hasegawa PM, Pardo JM. Ion homeostasis in NaCl stress envi‐
ronments. Plant Physiology. 1995; 109: 735-742.
[129] Yadav R, Flowers TJ, Yeo AR. The involvement of the transpirational bypass flow in
sodium uptake by high- and low-sodium-transporting lines of rice developed
through intravarietal selection. Plant, Cell and Environment. 1996; 22: 329-336.
[130] Yeo AR, Flowers SA, Rao G, Welfare K, Senanayake N, Flowers TJ. 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. 1999;
22: 559-565.
[131] Zhu JK. Regulation of ion homeostasis under salt stress. Current Opinion in Plant Bi‐
ology. 2003; 6: 441-445.
[132] Schroeder JI, Kwak JM, Allen GJ. Guard cell abscisic acid signaling and engineering
drought hardiness in plants. Nature. 2001; 410: 327-330.
[133] Allen GJ, Kuchitsu K, Chu SP, Murata Y, Schroeder JI. Arabidopsis abi1-1 and abi2-1
phosphatase mutations reduce abscisic acid-induced cytoplasmic calcium rises in
guard cells. Plant Cell. 1999; 11: 1785-1798.
[134] Blatt MR. Ca2+ signaling and control of guard-cell volume in stomatal movements.
Current Opinion in Plant Biology. 2000; 3: 196-204.
[135] Jeschke WD. Wirkung von K+ auf die Fluxe und den Transport von Na+ in Gersten‐
wurzeln, K+-stimulierter Na+ -efflux in der Wurzelrinde. Planta. 1972; 106: 73-90.
[136] Lazof DB, Bernstein N. The NaCl induced inhibition of shoot growth: the case for
disturbed nutrition with special consideration of calcium. Advances in Botanical Re‐
search. 1999; 29: 113-189.
[137] Reid RJ, Smith FA. The limits of sodium/calcium interactions in plant growth. Jour‐
nal of Plant Physiology. 2000; 27: 709-715.
[138] Tester M, Davenport D. Na+ tolerance and Na+ transport in higher plants. Annual.
Botany. 2003; 91: 503-527.
[139] Miedema H, Demidchik V, Very AA, Bothwell JH, Brownlee C, Davies JM. Two volt‐
age dependent calcium channels co-exist in the apical plasma membrane of Arabi‐
dopsis thaliana root hairs. New Phytology. 2008; 179: 378-385.
[140] Wahid A, Paul I, Javed I, Ali A, Baig E. Short term incubation of sorghum caryopses
in sodium chloride levels: changes in some pre and post germination physiological
parameters. Plant Science 1998 ; 45: 123-131.
[141] Poljakoff-Mayber A, Somers GF, Werker E, Gallagher JL. Seeds of Koteletzkya virgin‐
ica (Malvaceae): their structure, germination and salt tolerance. American Journal of
Botany. 1994; 81: 54-59.
Search WWH ::
Custom Search