81 
3.2.3.8 Effect of salt stress on Na
+
 contents in shoot
Accumulation of toxic ions like Na
+
and Cl
-
in shoot is one of the effective 
mechanisms of salt tolerance in different crop plants. Accumulation of Na
+
ion was 
highly affected by the application of salinity (NaCl) and shoot Na
+
contents were 
significantly increased in linseed genotypes. As described earlier, increasing NaCl 
concentration increases Na
+
concentration in growth media as well as in plant parts. 
Thus the maximum Na
+
contents were recorded at 200 mM NaCl while the minimum 
Na
+
contents were noted at control (Table 3.2.5). There was significant difference 
between genotypes for the accumulation of Na
+
in their shoots but trend of Na
+
accumulation was quite different than that observed in roots. Thus maximum Na
+
accumulation was noted in the shoots of salt sensitive genotype S-907 and C-99-3-115 
while minimum Na
+
was accumulated in the shoot of salt tolerant genotypes 637-72 
and NO-303. Under controlled conditions, linseed genotypes did not show much 
difference among themselves but increasing salinity sharply increased shoot Na
+
accumulation in all the genotypes. At 100 mM NaCl, for example, it increased from 
0.51% to 3.13% in S-907 genotype and from 0.44% to 3.09% in NO-303 while at 200 
mM NaCl, Na
+
build up in the shoots of salt sensitive genotypes S-907 (4.12%) and 
C-99-3-115 (4.51%) was more than that in salt tolerant genotypes 637-72 (3.74%) and 
NO-303 (3.35%) (Table 3.2.5). Response of salt tolerant genotypes was different 
compared to salt sensitive genotypes for their Na
+
accumulation in shoot. Overall, salt 
sensitive genotypes showed high build up of Na
+
in shoots as compared to salt 
tolerant genotypes which might have caused injurious effect on physiological and 
biochemical processes and overall growth and development of salt sensitive 
genotypes.

Download 1.66 Mb.

Do'stlaringiz bilan baham: