Physiology and Molecular Biology of Stress ... - KHAM PHA MOI
Physiology and Molecular Biology of Stress ... - KHAM PHA MOI
Physiology and Molecular Biology of Stress ... - KHAM PHA MOI
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
216<br />
K. Janardhan Reddy<br />
143, 109-111.<br />
Taylor, G.J. (1988). The physiology <strong>of</strong> aluminuim tolerance. In: “Metal ions in biological systems”<br />
Vol 24: Aluminium <strong>and</strong> its role in biology (ed.) H. Siege, Marcel Dekker, New York, pp. 165-<br />
198.<br />
Terry, N. (1977). Photosynthesis, growth <strong>and</strong> the role <strong>of</strong> chloride. Plant Physiol. 60, 69-75.<br />
Tewari, R.K.. (2004). Role <strong>of</strong> mineral nutrient elements in Mulberry(Morus alba L.) Plants with<br />
particular reference to oxidative metabolism. Ph.D thesis, University <strong>of</strong> Lucknow, INDIA.<br />
Thellier, M., Duval, Y. <strong>and</strong> Demarty, M. (1979). Borate exchanges <strong>of</strong> Lemna minor L. as studied<br />
with the help <strong>of</strong> the enriched stable isotope <strong>and</strong> <strong>of</strong> a (n,α) nuclear reaction. Plant Physiol. 63,<br />
283-288.<br />
Thiel, H. <strong>and</strong> Finck, A. (1973). Ermittlung von Grenzwerten optimaler Kupfer Versorgung fur Hafer<br />
und Sommergerste. Z. Pflanzenernahr. Bodenk. 134, 107-125.<br />
Tinker, P.B., Jones, M.D <strong>and</strong> Durall, D.M. (1992). A functional comparison <strong>of</strong> ecto <strong>and</strong> endo<br />
mycorrhizae. In “Mycorrhizae in Ecosystems” (D. J. Read, D. H. Lewis, A. H. Fitter <strong>and</strong> I. J.<br />
Alex<strong>and</strong>er, eds), pp. 303-310. CAB International, Wellingford, U.K.<br />
Toyota, K., Koizumi, N. <strong>and</strong> Sato, F. (2003).Transcriptional activation <strong>of</strong> Phosphoenol pyruvate<br />
carboxylase by Phosphorus deficiency in tobacco . J. Exp. Bot . 54, 961-969.<br />
Uexkiill, H.R. von. (1985). Chlorine in the nutrition <strong>of</strong> palm trees, Oleagineux. 40, 67-72.<br />
Usha Kumari, J. <strong>and</strong> Reddy, K.J. (2000). Effect <strong>of</strong> Phosphorus <strong>and</strong> Zinc on growth <strong>and</strong> fruit yield <strong>of</strong><br />
Okra (Abelmoschus esculentus (L) Moench). Bulletin <strong>of</strong> Pure <strong>and</strong> Applied Sciences. 19 B<br />
(No.1), 17 – 19.<br />
Vance, C.P., Uhde-Stone C, Allan, D.L. (2003). .Phosphorus acquisition <strong>and</strong> use: critical adaptations<br />
by plants for securing a non-renewable resource. New Phytologist. 157, 423-447.<br />
Vaughan, A.K.F. (1977). The relation between the concentration <strong>of</strong> boron I the reproductive <strong>and</strong><br />
vegetative organs <strong>of</strong> maize plants <strong>and</strong> their development. Rhod. J. Agric. Res. 15, 163-170.<br />
Vallee, B.L. <strong>and</strong> Falchuk, K.H. (1993). The biochemical basis <strong>of</strong> zinc physiology. Physiol. Rev. 73,<br />
79-118.<br />
Vidmar, J.J., Schjoerring, J.K., Touraine, B. <strong>and</strong> Glass, A.D.M. (1999). Regulation <strong>of</strong> the hvst1 gene<br />
encoding a high-affinity sulfate transporter from Hordeum vulgare. Plant Mol. Biol. 40, 883-<br />
892.<br />
Vielemeyer, H. P., Fischer, F. <strong>and</strong> Bergmann, W. (1969). Untersuchungen uber den Einfulss der<br />
Mikronahrst<strong>of</strong>fe Eisen und Mangan auf den Stickst<strong>of</strong>f - St<strong>of</strong>fwechsel L<strong>and</strong>wirtschaftelicher<br />
Kulturpflanzen. 2. Mitt.: Untersuchungen uber die Wirkung des Mangans auf die Nitratreduktion<br />
und den Gehalt an frein Aminosauren in jungen Buschbohenpflanzen. Albrecht - Thaer - Arch.<br />
13, 393-404.<br />
Vunkova-Radeva, R., Schiemann, J., Mendel, R.-R., Salcheva, G. <strong>and</strong> Georgieva, D. (1988). <strong>Stress</strong><br />
<strong>and</strong> activity <strong>of</strong> molybdenum-containing complex (molybdenum co-factor) in winter wheat<br />
seeds. Plant Physiol. 87, 533-535.<br />
Wagner, H. <strong>and</strong> Michael, G. (1971). Der Einfluss unterschiedlicher Stickst<strong>of</strong>fversorgung auf die<br />
Cytokininbildung in Wurzeln von Sonnenblumenpflanzen. Biochem Physiol. Pflanz. 162, 147-<br />
158.<br />
Walch-Liu, P., Neumann, G., Bangerth, F. <strong>and</strong> Engels, C. (2000). Rapid effects <strong>of</strong> nitrogen form on<br />
leaf morphogenesis in tobacco. J. Exp. Bot. 51, 227-237.<br />
Walker, C.D., Graham, R.D., Madison, J.T., Cary, E.E. <strong>and</strong> Welch, R.M. (1985). Effects <strong>of</strong> Ni<br />
deficiency on some nitrogen metabolites in cowpea (Vigna unguiculata L. Walp). Plant<br />
Physiol. 79, 474-479.<br />
Walker, C.J. <strong>and</strong> Weinstein, J.D. (1991). Further characterization <strong>of</strong> the magnesium chelatase in<br />
isolated developing cucumber chloroplasts. Plant Physiol. 95, 1189-1196.<br />
Wallace, A., Frolich, E. <strong>and</strong> Lunt, O.R. (1966). Calcium requirements <strong>of</strong> higher plants. Nature<br />
(London). 209, 634.<br />
Wang, Y-H, Garvin, D.F. <strong>and</strong> Kochian, L.V. (2002). Rapid induction <strong>of</strong> regulatory <strong>and</strong> transporter<br />
genes in response to phosphorus, potassium <strong>and</strong> iron deficiencies in tomato roots. Evidence for