SEMIOCHEMICAL INTERACTION BETWEEN Myopopone castanea SMITH WITH ITS PREY Oryctes rhinoceros LINN. LARVAE
Abstract
Ant species, Myopopone castanea is a predator for immature of Oryctes rhinoceros. The ants used semiochemical compounds in communications between individuals both in the same species or different species. This study aims to determine the semiochemical compounds that play a role in the relationship between the interaction of M. castanea as predators and their prey larvae O. rhinoceros. The results showed that the volatile compounds from GC-MS analysis of M. castanea ants wood nest were hydrocarbons compounds. In contrast, volatile compounds from GC-MS study of O. rhinoceros larvae were 5H-1 pyrindine compounds, carboxyclic acid an hydrocarbon compounds. The results of the odour detection test on M. castanea ants in the Y tube showed that the choice of M. castanea in the combined aroma of palm oil sawdust and O. rhinoceros larvae was higher (78%) than the choice only for palm oil stem sawdust (54%) and only O. rhinoceros larvae (48%). The combination of palm oil sawdust and O. rhinoceros larvae makes the volatile compounds stronger so that the ants prefer this scent. The semiochemical compounds in rotting oil palm stems can be a medium of interaction between M. castanea as and O. rhinoceros larvae.
Full Text:
PDFReferences
Abril, S., Diaz, M., Lenoir, A., Paris, C.I., Boulay, R. & Gómez C., 2018. Cuticular hydrocarbons correlate with queen reproductive status in native and invasive Argentine ants (Linepithema humile, Mayr). PloS one 13(2): e0193115.
Akalin, M.K & Karagöz, S. 2011. Pyrolysis of tobacco residue: Part 1. Thermal. BioResources 6(2): 1520-1531.
Ara, I., Bukhari, N.A., Solaiman, D. & Bakir, M.A. 2012. Antimicrobial effect of local medicinal plant extracts in the Kingdom of Saudi Arabia and search for their metabolites by gas chromatography-mass spectrometric (GC-MS) analysis. Journal of Medicinal Plants Research 6(45): 5688-5694.
Bedford, G.O. 2014. Advances in the control of rhinoceros beetle, Oryctes rhinoceros in oil palm. J. Oil Palm Res. 26(3): 183-194.
Bertsch, A. & Schweer, H. 2012. Male labial gland secretions as species recognition signals in species of Bombus. Biochem. Systematics Ecol. 40: 103-111.
Blum, M.S. & Brand, J.M. 1972. Social insect pheromones: Their chemistry and function. American Zoologist 12(3): 553-576.
El-Sayed, A.M. 2018. The Pherobase: Database of pheromones and semiochemicals. http://www.pherobase.com. [17 March 2019].
Hiscox, J., Savoury, M., Vaughan, I.P., Müller, C.T. & Boddy, L. 2015. Antagonistic fungal interactions influence carbon dioxide evolution from decomposing wood. Fungal Ecology 14: 24-32.
Kamaruddin, N. & Wahid, M.B. 2004. Immigration and activity of Oryctes rhinoceros within a small oil palm replanting area. Journal of Oil Palm Research 16(2): 64-77.
Khan, Z.R., James, D.G., Midega, C.A. & Pickett, J.A. 2008. Chemical ecology and conservation biological control. Biological Control 45(2): 210-224.
Kim, J.H., Roh, M.S., Dickens, J.C., Lee, A.K. & Suh, J.K. 2014. Volatiles emitted from single flower buds of a Lilium longiflorum× L. callosum interspecific hybrid and its parents. Horticulture, Environment, and Biotechnology 55(5): 410-414.
Martin, S. & Drijfhout, F. 2009. A review of ant cuticular hydrocarbons. Journal of Chemical Ecology 35(10): 1151-1161.
Morgan, E.D. 2009. Trail pheromones of ants. Physiological Entomology 34(1): 1-17.
Mujiono, K., Witjaksono, W. & Putra, N.S. 2015. The sex pheromone content of the Spodoptera exigua (Hubner) under artificial and natural diets. International Journal of Science and Engineering 8(2): 146-150.
Norin, T. 2007. Semiochemicals for insect pest management. Pure and Applied Chemistry 79(12): 2129-2136.
Norasmah, B., Chin, Y.J. & Abu Hassan, A. 2012. A preliminary study on the diurnal foraging activity and nutrient preferences of Tetraponera rufonigra (Hymenoptera: Formicidae) in Pulau Pinang, Malaysia. Malaysian Applied Biology 41(1): 51-54.
Nowbahari, E. 2007. Learning of colonial odor in the ant Cataglyphis niger (Hymenoptera; Formicidae). Learning & Behavior 35(2): 87-94.
Sabtu, F.S. & Ab Majid, A.H. 2020. Genetic distance and phylogenetic relationships of Tetraponera rufonigra Jerdon (Hymenoptera: Formicidae) populations in Penang, Malaysia. Serangga 25(1): 39-52.
Schatz, B., Anstett, M.C., Out, W. & Hossaert-McKey, M. 2003. Olfactive detection of fig wasps as prey by the ant Crematogaster scutellaris (Formicidae; Myrmicinae). Naturwissenschaften 90(10): 456-459.
Shafawati, S.N. & Siddiquee, S. 2013. Composting of oil palm fibres and Trichoderma spp. as the biological control agent: A review. Int. Biodeterioration & Biodegradation 85: 243-253.
Sharma, K.R., Enzmann, B.L., Schmidt, Y., Moore, D., Jones, G.R., Parker, J., Berger, S.L., Reinberg, D., Zwiebel, L.J., Breit, B. & Liebig, J. 2015. Cuticular hydrocarbon pheromones for social behavior and their coding in the ant antenna. Cell reports 12(8): 1261-1271.
Sharma, V. & Kumar, V. 2014. Indolizine: A biologically active moiety. Medicinal Chemistry Research 23(8): 3593-3606.
Somala, N., Senarat, S., Para, C., Jiraungkoorskul, W., Kaneko, G., Poonpet, T. & Poolprasert, P. 2020. Systemic organization of Tetraponera rufonigra (Jerdon, 1851) (Hymenoptera: Formicidae): Histological observation. Serangga 25(1): 53-67.
Ulfa, A., Khotimah, S. & Yanti, A.H. 2014. Kemampuan Degradasi Selulosa oleh Bakteri Selulotik yang Diisolasi dari Tanah Gambut. Jurnal Protobiont 3(2): 259-267.
Vander Meer, R.K., Breed, M.D., Espelie, K.E. & Winston, M.L. 1998. Pheromone communication in social insects. Ants, wasps, bees and termites. New York: Westview Press Inc.
Van Wilgenburg, E., Symonds, M.R.E. & Elgar, M.A. 2011. Evolution of cuticular hydrocarbon diversity in ants. Journal of Evolutionary Biology 24(6): 1188-1198.
Wang, Q., Goodger, J.Q., Woodrow, I.E. & Elgar, M.A. 2016. Location-specific cuticular hydrocarbon signals in a social insect. Proceedings of the Royal Society B: Biological Sciences 283(1827): 20160310.
Witzgall, P., Kirsch, P. & Cork, A. 2010. Sex pheromones and their impact on pest management. Journal of Chemical Ecology 36(1): 80-100.
Yusuf, A.A., Crewe, R.M. & Pirk, C.W. 2014. Olfactory detection of prey by the termite-raiding ant Pachycondyla analis. Journal of Insect Science 14(1): 53.
Refbacks
- There are currently no refbacks.