N DILUTION METHOD FOR ESTIMATING THE ABSORPTION OF ATMOSPHERIC NO BY PLANTS.

The N dilution method was used for the quantitative estimation of nitrogen dioxide (NO ) absorbed by Helianthus annuus and Zea mays during a relatively long period. The relationships between the amount of NO absorbed and the concentration of NO and length of exposure were investigated, in order to ascertain the reliability of this method. The total amount of NO -nitrogen absorbed by the plants over two weeks (from two to four weeks after the sowing) increased with increasing concentrations of NO . The rate of absorption of NO per unit leaf area also increased linearly with increasing concentrations of NO from 0 to 1 μl l . This means that the diffusive resistances of stomata or mesophyll tissues were not changed by the continuous exposure to NO at 1 μl l for two weeks. The absorption rate per unit leaf area in H. annuus was about three times greater than that in Z. mays. The total amount of NO -nitrogen absorbed by the plants which were continuously exposed to 0.5 μl l NO rose not linearly but exponentially as the exposure time increased from zero to three weeks. This might in part have reflected the growth characteristics of the plants, since dry weight and leaf area increased exponentially during the period of exposure to the pollutant. The absorption rate per unit leaf area remained constant during the first two weeks, but thereafter increased significantly, probably due to the uptake of NO -nitrogen through the air-soil-root pathway. These results demonstrated that the values estimated by the N dilution method were reliable, and this method can be recommended for the quantitative determination of NO absorbed by plants during a long period.