The saturated hydraulic conductivity ([K.sub.s]) is <0.1 mm [d.sub.-1], and is even lower when irrigated with
nonsaline water which can cause soil dispersion and clogging of soil pores (Tedeschi and Dell'Aquila 2005; Quirk and Schofield 2013).
According to the soil salinity classification of the Food and Agriculture Organization of the United Nations (FAO), the electrical conductivity values indicate small amounts of dissolved salts (55.70 mS[m.sup.-1]) and a
nonsaline soil (Brigham, Reed, & Dew, 1961).
Opacification of the genitourinary collecting system during MDCT urography with enhanced CT digital radiography:
nonsaline versus saline bolus.
The potassium content in plant leaves irrigated with
nonsaline water and fertilized with coated KCl was higher (by 6.5%; 37.45 g [kg.sup.-1]) than the average level in plants irrigated with saline water.
With the salt barrier, saline water is drained and only
nonsaline water reaches the plant roots.
Figure 1-15 shows the effect of exogenous application of proline and glycine betaine on plant height, shoot and root fresh and dry weight, shoot, Chl a, Chl b, total Chl, protein, total free amino acids, NRA, sodium, calcium, potassium of brassica under saline and
nonsaline conditions.
The soil treatment with subsoil C (sandy loam,
nonsaline, Table 1) showed the largest increases and decreases of yield.
According to the soil salt content [28], the degree of salinization was divided into
nonsaline soil, mild saline soil, moderate saline soil, severe saline soil, and saline soil (Table 1).
The chemicals used were xylene, DPX mountant, euthatal, methanol (MetOH), distilled water, 4% paraformaldehyde, phosphate-buffered saline (PBS), 0.2% Triton X-100 in Trizma base solution (TXTBS), 3% normal horse serum (NHS; S-2000; Vector Laboratories) in TXTBS, 5% normal goat serum (NGS; S-1000; Vector Laboratories) in TXTBS, and Trizma base (TB) and Trizma
nonsaline (TN) solutions.
Yield and chemical composition of coastal Bermudagrass, Rhodesgrass and volunteer species grown on saline and
nonsaline soils.
Q9 plants exhibited maximum shoot length under
nonsaline conditions but as the salinity level increased, shoot length in Q9 decreased and least shoot length was observed at 60% sea water salinity in genotype Q9.
For the Amburana cearensis species the soil correction treatments did not affected the physiological variables, except for the intercellular C[O.sub.2] concentration, in which the highest values were obtained in the treatment with O.M., but without differing from the
nonsaline soil treatment.