Journal of Environmental BiologypISSN: 0254-8704 ; eISSN: 2394-0379 ; CODEN: JEBIDP |
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Abstract - Issue Jul 2006, 27 (3) BackMetabolic
variation in rice cultivars of contrasting salt tolerance and its improvement
by zinc in sodic soil H.P. Singh and T.N. Singh
Directorate of Research, N.D. (Received: 13 December, 2003 ;
Accepted: 25 December, 2004) Abstract: The severity of Zn deficiency
increased with increase in soil exchangeable sodium percentage (ESP) with salt
sensitive variety M1-48 scoring 6 at ESP 62 as against only score 3 by salt
tolerant variety Pokkali under similar soil
conditions. Strikingly, zinc contents were much higher in salt tolerant variety
than in salt sensitive one. Zinc application increased zinc concentration in
the roots by a factor of 2.85 to 3.87 in Pokkali
whereas it rose from 2.37 to 4.35 times in M1-48 depending upon ESP but in the
leaves it registered increase of 1.5 to 1.8 times only. In general, the
concentrations of reducing sugar were less (about 2.2%) than that of
non-reducing (about 3.8%) in both the varieties under normal soil conditions.
However, the concentration of reducing sugar doubled (4.2-4.4%) at the highest
ESP 62, whereas the concentration of non-reducing sugar though increased (4.1
to 5.1%) but not as vigorously as reducing one. Zinc application reduced the
concentration of reducing sugar but not that of non-reducing at similar ESP
values. In Pokkali, the concentrations of total sugar
increased from 6% at ESP 20 to 9.34% at ESP 62 , whereas it registered
enhancements of 5.98 to 8.6% in M1-48 under similar conditions. The nitrate reductase (NR) activity decreased with increase? in soil sodicity
however, the varietal differences in NR activity were
wider under Zn-stress than under conditions of applied zinc with Pokkali registering higher NR activities.Carbonic
anhydrase activities?
were higher in salt tolerant variety. Inhibition in carbonic anhydrase activity amounted to 23 and 45% in salt-sensitive
variely M1-48 whereas only 19 and 33% in
salt-tolerant variety Pokkali at ESP 41 and 62,
respectively. The effects of zinc application at higher soil sodicity were more obvious in salt-sensitive variety than
in salt-tolerant one. The findings suggest that the tolerance to Zn stress runs
parallel to salt tolerance abilities of rice varieties. Key words: Carbonic anhydrase, Metabolic
variation, Nitrate reductase, Salt tolerance, Sodic soil, Zinc nutrition, Zn stress. Copyright ? 2006 Triveni Enterprises. All rights reserved. No part of the
Journal can be reproduced in any form without prior
permission. Responsibility regarding the authenticity of the data, and the
acceptability of the conclusions enforced or derived, rest completely with the
author(s). |