In addition, the components in lowe

In addition, the components in lower amount such as, cymene,
linalool, rose oxide, geranial and caryophyllene could also
contribute to the antimicrobial activity of the oils. It has been reported
in the literature that the inhibitory activity of an essential oil
results from a complex interaction between its different constituents
(Xianfei, Xiaoqiang, Shunying, & Guolin, 2007).
Few studies have examined the antifungal activity of geranium
essential oils. In our study, EO exhibited the strongest inhibition effect
against yeasts. These results are in agreement with those reported
in the literature for other rose geranium oil rich in geraniol
that showed a very strong action versus C. tropicalis and C. albicans
(Hassan et al., 2011).Hammer, Carson, andRiley (1999) tested various
essential oils and plant extracts for their antimicrobial effects. Rose
geranium EO showed greater activity against C. albicans than against
S. aureus. These findings correlate with our results obtained in this
study. A study carried out by Mahboobi, Feizabad, and Safara (2008)
proved that rose geranium oil was the second most effective of the
essential oils on C. albicans and exhibited strong activity on isolates.
Mechanism of anti-Candida activity of geraniol, geranyl acetate
and citronellol appears to be associated with damage in the
membrane integrity, inhibited germ tube induction at very low
concentrations and inhibited C. albicans cell cycle (Zore, Thakre,
Rathod, & Karuppayil, 2011). These previously mentioned components
are present in our essential oil sample.
Dalleau, Cateau, Bergès, Berjeaud, and Imbert (2008) compared
the anti-biofilm activity of molecules which are often prevalent in
EOs. Thymol, carvacrol and geraniol exhibited the most significant
antibiofilm activity against all three tested strains, including C.
albicans, C. parapsilosis and Candida glabrata.
3.2.2. Vapour diffusion method
Comparative studies of antimicrobial potential of the EO were
also conducted in the vapour phase (Tables 3 and 4). As observed in
the earlier assays using EO in solid agar, the zone of inhibition due
to the oil vapours also increased with increasing concentration of
the oil. Further, the zone of inhibition due to the EO vapours was
bigger for Gram positive bacteria (S. aureus) and yeasts than for
Gram negative bacteria (E. coli).
The zone of inhibition resulting from the exposure to EO vapours
was significantly larger than that from the same concentration
of EO in the liquid phase. This effect was visible at both lower
(10 ml) and more prominently at higher (30 ml) concentrations.
EO showed higher activity in the vapour phase. P. aeruginosa,
K. pneumoniae and S. marcescens were more resistant against the
rose geranium oil vapours too.
The yeasts (C. albicans and C. parapsilosis) were inhibited
completely by the oil vapours at 30 ml exposure.
Our study clearly demonstrates the higher antimicrobial efficacy
of rose geranium oil vapours. This could be attributed to the
variation in the relative composition of the oil and vapours as the
latter must be enriched in terms of its volatile chemical components
(Tyagi & Malik, 2011). However, it is surprising that in
spite of well documented research on the antimicrobial potential
of rose geranium EO, very few studies exist on the activity of EO
vapours.
Hence, smaller doses of essential oil in the vapour phase can be
inhibitory to spoilage bacteria. Our results are in agreement with
previous reports (Tyagi & Malik, 2011). Pibiri (2006) also demonstrated
that the EOs of Satureia montana and Cinnamon in vapour
phase have a lethal effect on S. aureus and P. aeruginosa, even in
small doses. This demonstrates that the antimicrobial activity of
different EO vapours can be achieved with a smaller amount than
the EO in liquid phase. A study carried out by Goni et al. (2009)
showed that antimicrobial activity of combination of cinnamon
and clove EOs in vapour phase showed better antimicrobial with
less active concentration in the vapour phase compared to liquid
phase. Hence the evaluation of the antimicrobial properties of rose
geranium EO in the vapour phase would open up a newer dimension
with immense potential applications.