Abstract:
A laboratory study was conducted on a sandy loam soil to determine the effect of
soil matric potential and soil mechanical impedance on wheat growth during emergence.
Experiment was conducted in growth cabinet in which an unimpeded treatment was
compared against an impeded treatment at three matric potentials, i.e. -10, -100 and
500 IcPa. The soil was packed in 300 mm long cylinders at dry bulk density of 0.88 Mg m'3
and 1.25 Mg m'3
. Five mm long seedlings of wheat variety Inqtab, were grown as a test
plant. The results indicated that mechanical impedance and matric potential of the root
medium significantly (P<0.05) affected fresh and dry root weights. The weights were
reduced with decreased soil matric potential and increased soil mechanical impedance. In
unimpeded treatment, about double the amount of fresh weight and dry weights of shoot
were recorded than in impeded treatment at -10 and -100 kPa matric potential. The highest
dry shoot weight of 23.5 mg was recorded when grown at -10 kPa in unimpeded soil. It was
almost 2 times higher than that of impeded treatment. Root and shoot elongation in
unimpeded treatments were reduced by 37 and 29 percent respectively at -100 kPa and II
and 58 percent at -500 kPa matric potential. Similarly these reductions were of 64 percent
in root length in impeded soil at -100 and -500 kPa. In unimpeded treatments, the roots at
the three matric potential were almost 2 times longer than those of the impeded treatments.
While shoots were 4 and 6 times longer at -10 and -100 kPa matric potential respectively.
The results highlight serious consequences of soil compaction and matric potential on wheat
growth in soil particularly during early growth stage.
