DiscussionApplication of silver ion

Discussion
Application of silver ions can displace copper ions from
the receptor proteins (Figure 2) consequently, block
ethylene perception, since copper ions have a critical
role in ethylene binding upon receptors [17-19]. This
effect of silver ion on ethylene was reported by several
researchers [11,20,21]. Therefore, some results in this
study can be referred to the effect of silver in preventing
the ethylene action (Figure 3). Decrease of plant's height
due to ethylene is proven. For example, mutants of
tobacco and Arabidopsis, which synthesize a high concentration
of ethylene, have lesser height as compared to
their wild species [22]. Furthermore, Nichols and Kofranek
[23] reported that silver ion causes the increase in stem
height of tulips and rose plants. Under the in vitro conditions,
silver nitrate inhibited biosynthesis of ethylene and
caused regeneration of multiple shoots from hypocotyl
sections of cotton [24]. Another researcher reported that
silver nitrate is effective in increasing wet weight of tobacco
[25]. Ethylene caused an increase in enzyme activity
of chlorophyllase and destruction of internal membrane of
chloroplast, while that 100 ppm of silver nitrate caused
decreasing the production of ethylene and destruction
of chlorophyll in calamondin fruit [26]. Spraying silver
nitrate causes improvement of seed yield in wheat [15]. In
the present experiment, foliar application of either nano
silver or silver nitrate causes increase in seed yield as compared
to control (Table 2). In basil plant, rise in seed yield
can be due to increase in the number of inflorescence in
unit area, number of seed in the inflorescence, weight of
seeds, and decrease in seed abscission. Considering that
the seed yield has a significant positive correlation with
dry weight of inflorescence (r = 0.808, p < 0.0001), but it
has a significant negative correlation with weight of 100
seeds (r = −0.835, p < 0.0001). Consequently, it can be
concluded that the increase of seed yield in this study is
due to the increase of the inflorescence number in unit
area and decrease in seed abscission.
Seed abscission is one of the main factors in reducing
seed yield in basil plant. It is proven that one of the
reasons for plant organ abscission is imbalance between
phytohormones. Ethylene is playing an important role in
this process. Furthermore, it is proven that silver ions
inhibit the ethylene action by preventing its connection
to its receptors in plant cells [ 8, 6, 4]. Thus, the increase
in the seed yield was a result of reducing the seed abscission
due to the inhibitory effect of silver on ethylene
action. These results are confirmed by the results obtained
from other studies [10,11,15,20]. There are many reports
about the use of silver nitrate in decreasing the abscission,
but this study is the first research which is about nano
silver effect on decreasing the abscission of reproductive
organs of plants. Increasing silver concentration in aerial
organs of sprayed plants with nano silver caused decreasing
polyphenol and tannin content. While there was an
increased in polyphenol and tannin content by spraying
silver nitrate due to rising of the silver concentration in
aerial organs of plant. There are many reports available
about ethylene effect on increasing the phenol content
[27,28]. On the other hand, high concentration of heavy
metals (that is silver) in plant tissue causes polymerization
of phenol by peroxidase enzyme which chelates the heavy
metals [28,29]. Therefore, by increasing the level of silver
nitrate more than 100 ppm, phenol and tannin content
enhances due to toxicity effect of silver on plant cells.