Olfactory stimulation of apis cerana indica towards different doses of volatile constituents: SEM and EAG approaches

TitleOlfactory stimulation of apis cerana indica towards different doses of volatile constituents: SEM and EAG approaches
Publication TypeJournal Article
Year of Publication2016
AuthorsBhowmik, B, Lakare, S, Sen, A, Bhadra, K
JournalJournal of Asia-Pacific Entomology
Volume19
Issue3
Pagination847-859
Date PublishedSEP
AbstractMorphological and peripheral olfactory responses of antennal chemosensilla of Apis cerana indica, worker honeybee, to commonly occurring plant volatiles were recorded using SEM and EAG techniques, respectively. The antennae of A. cerana indica reveal the predominance of olfactory sensilla besides gustatory and mechanoreceptor cells. Ten different types of olfactory sensilla including sensilla basiconica, placodea type A and B, chaetica, coeloconica, coelocapitula, trichodea type A, B, C and D were reported. Of these, trichodea B and placodea A types were reported to be maximum. Responses to 47 commonly occurring plant volatiles (including 10 aromatic, 12 aliphatic, 04 green leaf volatile, 10 hydrocarbon monoterpene, 08 oxygenated monoterpenes and 03 sesquiterpenes compounds) were shown to elicit the response. Normalized EAG response, relative to the standard 1-hexanol, reveal significant differences between the chemicals and were concentration dependent. At 0.1 mg/mL dose, the largest amplitude was obtained with p-cymene (119.74 +/- 6.94) followed by cinnamaldehyde (97.07 +/- 4.94) and veratrol (92.99 +/- 7.82). Furthermore, at 1.0 mg/mL, maximum stimulation was reported with cinnamaldehyde (92.02 +/- 4.26) followed by phenethyl alcohol (86.02 +/- 2.63), benzyl alcohol (70.53 +/- 2.47), 2-heptanone (67.71 +/- 5.02) and 1-heptanol (67.56 +/- 2.8). Again, amplitude of the response was found to be maximum with cinnamaldehyde (115.59 +/- 6.73) followed by 1-heptanol (105.69 +/- 2.45) and citral (100.78 +/- 4.93) at 5.0 mg/mL, whereas, at 10.0 mg/mL, phenethyl alcohol (93.45 +/- 1.87) and 2-heptanone (93.14 +/- 1.85) showed highest stimulation followed by 2-pentanone (92.22 +/- 0.43). These documentations provide valuable information regarding how diversity in chemoreceptive antennal sensilla reveals better ability to sense a diversity of odors that are important cues to help honeybee distinguish among species of various flowering plants. (C) 2016 Korean Society of Applied Entomology, Taiwan Entomological Society and Malaysian Plant Protection Society. Published by Elsevier B.V. All rights reserved.
DOI10.1016/j.aspen.2016.07.014
Type of Journal (Indian or Foreign)Foreign
Impact Factor (IF)0.824
Divison category: 
Organic Chemistry

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