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
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Nutrient <strong>Stress</strong><br />
211<br />
to other tissues <strong>and</strong> metabolism. By adapting <strong>of</strong> Arabidopsis thaliana as an experimental<br />
model for genetic analysis, exciting work is in progress. It should be possible to<br />
develop plants with enhanced efficiency <strong>of</strong> nutrient acquisition <strong>and</strong> use, through genetic<br />
manipulation.<br />
19. REFERENCES<br />
Agarwala, S.C., Chatterjee, C., Sharma, P.N., Sharma, C.P. <strong>and</strong> Nautiyal, N. (1979). Pollen development<br />
in maize plants subjected to molybdenum deficiency. Can. J. Bot. 57, 1946-1950.<br />
Agarwala, S.C., Sharma, C.P., Chatterjee, C., Sharma P.N., Bisht, S.S. <strong>and</strong> Nautiyal, N. (1969).<br />
Annual Progress Report <strong>of</strong> I.C.A.R. Coordinated scheme on Micronutrients <strong>of</strong> soils for the year<br />
1968-69. Lucknow University <strong>of</strong> Lucknow (U.P) INDIA.<br />
Agarwala, S.C., Sharma, P.N., Chatterjee, C. <strong>and</strong> Sharma, C.P. (1981). Development <strong>and</strong> enzymatic<br />
changes during pollen development in boron deficient maize plants. J. Plant. Nutr. 3, 329-336.<br />
Ali, A.H.N. <strong>and</strong> Jarvis, B.C. (1988). Effects <strong>of</strong> auxin <strong>and</strong> boron on nucleic acid metabolism <strong>and</strong> cell<br />
division during adventitious root regeneration. New Phytol. 108, 383-391.<br />
Armstrong, M.J <strong>and</strong> Kirkby, E.A. (1979b). The influence <strong>of</strong> humidity on the mineral composition <strong>of</strong><br />
tomato plants with special reference to calcium distribution. Plant Soil. 52, 427-435.<br />
Asher, C.J. (1991). Beneficial elements, functional nutrients <strong>and</strong> possible new essential elements. In:<br />
“Micronutrients in agriculture, 2 nd edition (J.J. Mortvedt, F.R. Cox, L.M. Shuman <strong>and</strong> R.M<br />
Welch, eds.) pp 703-723. Soil. Sci. Soc. Amer. Book series, No.4, Madison, WI, USA.<br />
Ayala, M.B. <strong>and</strong> S<strong>and</strong>mann, G. (1988a). Activities <strong>of</strong> Cu-containing proteins in Cu-depleted pea<br />
leaves. Physiol. Plant. 72, 801-806.<br />
Baker, A.J.M. (1987). Metal tolerance. New Phytol. 106, 93-111.<br />
Barry, D.A.J <strong>and</strong> Miller, M.H. (1989). Phosphorus nutritional requirement <strong>of</strong> maize seedlings for<br />
maximum yield. Agron. J. 81, 95-99<br />
Baszynski, T., Warcholowa, M., Krupa, Z, Tukendorf, A., Krol, M <strong>and</strong> Wolinska, D. (1980). Effect<br />
<strong>of</strong> magnesium deficiency on photochemical activites <strong>of</strong> rape <strong>and</strong> buck wheat chloroplasts. Z.<br />
Pflanzenphysiol. 99, 295-303.<br />
Bereczky, Z., Wang, H-Y., Schubert, V., Ganal, M <strong>and</strong> Bauer, P. (2003). Differential reglation <strong>of</strong><br />
nramp <strong>and</strong> irt metal transporter genes in wild type <strong>and</strong> iron uptake mutants <strong>of</strong> tomato. J. Biol.<br />
Chem. 278, 24697-24704.<br />
Bergmann, W. (1988). ‘Ernahrungsstorungen bei kulturpflanzen. Entstehung, visuelle und analytische<br />
Diagnose’. Fischer Verlag, Jena.<br />
Bernard, R.L <strong>and</strong> Howell, R.W. (1964). Inheritance <strong>of</strong> phosphorus sensitivity in soybeans. Crop Sci.<br />
4, 298-299.<br />
Brancardo, D., Rabotti, G., Scienza, A. <strong>and</strong> Zocchi, G. (1995). Mechanism <strong>of</strong> Fe-efficiency in roots<br />
<strong>of</strong> vitis spp. in response to iron deficiency stress. Plant <strong>and</strong> Soil. 171, 229 – 234.<br />
Breckle, S.-W. (1991). Growth under stress. Heavy metals. In: “The plant root, the Hidden Half (Y.<br />
Waisel, A. Eshel <strong>and</strong> U. Kafkafi, eds.), pp. 351-373. Marcel Dekker, New York.<br />
Brown, J.C., Jolley, V.D. <strong>and</strong> Lytle, C.M. (1991). Comparative evaluation <strong>of</strong> iron solubilizing substances<br />
(phytosiderophores) released by oats <strong>and</strong> corn: Iron-efficient <strong>and</strong> iron-inefficient plants.<br />
Plant Soil . 130, 157-163.<br />
Brown, J.C <strong>and</strong> Jones, W.E. (1975). Heavy metal toxicity in plants. I.A crises in embryo. Commun.<br />
Soil Sci. Plant Anal. 6, 421 – 438.<br />
Brown, P.H., Welch, R.M <strong>and</strong> Madison, J.T. (1990). Effect <strong>of</strong> nickel deficiency on soluble anion,<br />
amino acid <strong>and</strong> nitrogen levels in barley. Plant Soil 125, 19-27.<br />
Brown, P.H., Welch, R.M. <strong>and</strong> Cary, E.E. (1987). Nickel : a micronutrient essential for higher plants.<br />
Plant Physiol. 85, 801-803.<br />
Burnell, J.N <strong>and</strong> Hatch, M.D. (1988). Low bundle sheath carbonic anhydrase is apparent by essential<br />
for effective C 4<br />
pathway operation. Plant Physiol. 86, 1252-1256.