A combined gradient transfer-inferential technique was tested to evaluate ozone deposition on two agricultural systems, an herbaceous crop (soybean) and a fruit tree orchard (peach). The measurements were performed at a rural site in northern Italy's Po valley, where summer ozone concentration values often register levels exceeding the national health standard because of the presence of industrial facilities. Canopy resistance, which is mainly the result of stomatal regulation, proved in both cases the most important component of total resistance to dry deposition. The fruit tree canopy evinced a more marked propensity for ozone uptake. The average deposition velocity on soybean was 0.43 cm s-1, and a mean value about three-fold higher was calculated on peach.
Inferring ozone deposition in agricultural surface : an application ot herbaceous and fruit tree canopies
1995
Abstract
A combined gradient transfer-inferential technique was tested to evaluate ozone deposition on two agricultural systems, an herbaceous crop (soybean) and a fruit tree orchard (peach). The measurements were performed at a rural site in northern Italy's Po valley, where summer ozone concentration values often register levels exceeding the national health standard because of the presence of industrial facilities. Canopy resistance, which is mainly the result of stomatal regulation, proved in both cases the most important component of total resistance to dry deposition. The fruit tree canopy evinced a more marked propensity for ozone uptake. The average deposition velocity on soybean was 0.43 cm s-1, and a mean value about three-fold higher was calculated on peach.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
