G. Villora et al., EFFECT OF SALINITY TREATMENTS ON NUTRIENT CONCENTRATION IN ZUCCHINI PLANTS (CUCURBITA-PEPO L VAR MOSCHATA), Australian journal of experimental agriculture, 37(5), 1997, pp. 605-608
Zucchini plants (Cucurbita pepo L. var. Moschata) grown in artificial
soil under greenhouse conditions were supplied with differing amounts
of NaCl (0, 30, 60 or 120 g/m(2)) during the entire growth cycle. The
concentrations of both total and soluble sodium, potassium, calcium an
d magnesium in leaves as well as fruit (skin and pulp) were measured.
Total sodium concentration in leaves increased with higher levels of a
pplied NaCl, while in the fruit this trend was the reverse. As soil sa
linity increased, there was a corresponding decrease in the total and
soluble potassium content of leaves but an increase in total and solub
le concentrations of potassium in the fruit. The sum of both total and
soluble sodium and potassium in the leaves generally increased with h
igher levels of applied NaCl, whereas the potassium:sodium ratio fell
as salinity rose. In fruit, the sum of total and soluble sodium and po
tassium, as well as the potassium:sodium ratio, increased as the conce
ntration of applied NaCl increased. The foliar levels of calcium and m
agnesium (except for total calcium readings) followed similar trends i
n relation to NaCl treatments as for sodium, while the response of cal
cium and magnesium in fruit tissues to the treatments was similar to t
hat of potassium. Total calcium and magnesium levels were higher in le
aves, with similar high levels in fruit tissues, these levels were hig
her when compared with other plants grown under saline conditions.