SERANGGA

Anai-anai dari spesies Coptotermes sp. merupakan serangga perosak bagi tanaman hiasan dan boleh menyebabkan kerosakan yang serius jika tiada pengesanan awal dan rawatan dilakukan. Pengesanan akustik mempunyai potensi untuk mengesan kehadiran anai-anai terhadap pokok Palma Manila, Adonidia merrillii, sebelum kerosakan yang lebih teruk terjadi. Dalam kajian ini, pengesanan akustik dijalankan melalui penggunaan sensor-preamplifier module. Aktiviti dan pencirian aktiviti akustik akibat pergerakan anai-anai dilakukan melalui purata masa impuls dikaji bagi anai-anai spesies ini termasuklah pencirian temporal dan spektral akustik. Hasil pengesanan akustik pada sepuluh pokok Palma Manila menunjukkan bahawa bilangan pokok yang diserang anai-anai lebih dari pengesanan visual. Aktiviti akustik akibat pergerakan anai-anai dan purata masa impuls dikaji bagi anai-anai spesies ini. Tiada perbezaan yang signifikan (P>0.05) bagi hubungan antara bilangan individu anai-anai dengan purata aktiviti (P=0.132) dan purata masa impuls (P=0.160). Analisis ciri-ciri temporal menunjukkan purata masa impuls bagi spesies Coptotermes ini adalah antara 0.0047 s dan 0.0055 s. Ciri-ciri spektral memberi hasil frekuensi dominan terletak antara 4 kHz dan 8 kHz dengan julat frekuensi antara 1 kHz dan 3 kHz. Ciri-ciri profil temporal dan spektral ini menunjukkan bahawa pengesanan akustik mampu mengesan kehadiran anai-anai melalui pencirian profil akustik.

Ab Majid, A.H.,& Ahmad, A. 2009. The status of subterranean termite infestation in Penang, Seberang Perai and Kedah, Malaysia. Malaysian Applied Biology 38(2): 37-48.

Jasmi, A.H. & Ahmad, A.H. 2011. Termite incidence on an Araucaria plantation forest in Teluk Bahang, Penang. Insects 2(4): 469-474.

Arneaud, L.L., Farrell, A.D. & Oatham, M.P. 2021. Do arboreal termite nests increase mortality in Mauritia flexuosa L. f. (Arecaceae) during wildfires?. Neotropical Biodiversity 7(1): 86-90.

Brooks, S.E., Oi, F.M. & Koehler, P.G. 2003. Ability of canine termite detectors to locate live termites and discriminate them from non-termite material. Journal of Economic Entomology 96(4): 1259-1266.

Cao, R., & Su, N.Y. 2016. Temperature preferences of four subterranean termite species (Isoptera: Rhinotermitidae) and temperature dependent survivorship and wood consumption rate. Annals of the Entomological Society of America 109: 64–71.

Cheng, S., Kirton, L. & Gurmit, S. 2008. Termite attack on oil palm grown on peat soil: identification of pest species and factors contributing to the problem. The Planter 84(991): 659-670.

Chung, A. 2008. Insects associated with some ornamental plants in Sabah, Malaysia. Paper presented at the 7th International Conference on Plant Protection.

Evans, T.A., Forschler, B.T. & Grace, J.K. 2013. Biology of invasive termites: A worldwide review. Annual Review of Entomology 58: 455-474.

Indrayani, Y. 2003. Feeding activities of the dry-wood termite Cryptotermes domesticus (Haviland) under various relative humidity and temperature conditions using acoustic emission monitoring. Japanese Journal of Environmental Entomology and Zoology 14(4): 205-212.

Jalaludin, N-A., Rahim, F. & Yaakop, S. 2018. Termite associated to oil palm stands in three types of soils in Ladang Endau Rompin, Pahang, Malaysia. Sains Malaysiana 47(9): 1961-196.

Jalinas, J., Güerri-Agulló, B., Mankin, R.W., López-Follana, R. & Lopez-Llorca, L.V. 2015 Acoustic assessment of Beauveria bassiana (Hypocreales: Clavicipitaceae) effects on Rhynchophorus ferrugineus (Coleoptera: Dryophthoridae) larval activity and mortality. Journal of Economic Entomology 108 (2): 444–453.

Jalinas, J., Güerri-Agulló, B., Dosunmu, O.G., Haseeb, M., Lopez-Llorca, L.V. & Mankin, R.W. 2019. Acoustic signal applications in detection and management of Rhynchophorus spp. in fruit-crops and ornamental palms. The Florida Entomologist 102(3): 475–479.

Khan, M.A. & Ahmad, W. 2018. Termites and Sustainable Management. Switzerland: Springer Nature.

Krishna, K., Grimaldi, D.A., Krishna, V. & Engel, M.S. 2013. Treatise on the Isoptera of the world. Bulletin of the American Museum of Natural History 377(1): 1-200.

Lee, C.Y. 2014. Termites of Singapore A Scientific Guide for Pest Management Professionals. Singapore: Singapore Pest Management Association.

Lemaster, R.L., Beall, F. & Lewis, V. 1997. Detection of termites with acoustic emission. Forest Products Journal 47: 75-79.

Lewis, V.R. & Lemaster, R.L. 1991. The potential of using acoustical emission to detect termites within wood. Proceedings of The Symposium on Current Research on Wood-Destroying Organisms and Future Prospects for Protecting Wood in Use, hlm. 34-37.

Lim, T.K. 2012. Adonidia merrillii. In Lim T.K. (ed.). Edible Medicinal and Non-Medicinal Plants: Fruits. Vol. 1, hlm. 257-259. Dordrecht, Heidelberg, London, New York: Springer.

Mandal, B., Bashar, K., Howlader, A. & Rahman, K. 2010. Incidence of termite infestation to tree species in Jahangirnagar University Campus, Bangladesh. Bangladesh Journal of Life Science 22(2): 7-15.

Mankin, R., Hagstrum, D., Smith, M., Roda, A. & Kairo, M. 2011. Perspective and promise: A century of insect acoustic detection and monitoring. American Entomologist 57(1): 30-44.

Mankin, R. & Moore, A. 2010. Acoustic detection of Oryctes rhinoceros (Coleoptera: Scarabaeidae: Dynastinae) and Nasutitermes luzonicus (Isoptera: Termitidae) in palm trees in urban Guam. Journal of Economic Entomology 103(4): 1135-1143.

Mankin, R., Osbrink, W., Oi, F. & Anderson, J. 2002. Acoustic detection of termite infestations in urban trees. Journal of Economic Entomology 95(5): 981-988.

Mankin, R., Samson, P. & Chandler, K. 2009. Acoustic detection of Melolonthine larvae in Australian sugarcane. Journal of Economic Entomology 102(4): 1523-1535.

Mankin, R., Smith, M., Tropp, J., Atkinson, E. & Jong, D. 2008. Detection of Anoplophora glabripennis (Coleoptera: Cerambycidae) larvae in different host trees and tissues by automated analyses of sound-impulse frequency and temporal patterns. Journal of Economic Entomology 101(3): 838-849.

Zaki, N.S.M. & Jalinas, J. 2022. Anai-anai: Kehadiran dan Perincian Akustik. UKM: Penerbit UKM

Oliver-Villanueva, J. & Abián-Pérez, M. 2013. Advanced wireless sensors for termite detection in wood constructions. Wood Science and Technology 47(2): 269-280.

Rahim, F., Esa, M., Mazalan, A., Onn, S., Billy, A., Kamarudin, N., Sajap, A. & Ghani, I. 2011. Termites of oil palm on peat soil: A 10-year collection from Endau Rompin. Serangga 16: 37-56.

Rentokil. 2023. Masalah anai-anai di Malaysia.

https://www.rentokil.com/my/termites/anai-anai [2 Oktober 2023]

Rojas-Sandoval, J. 2022. Adonidia merrillii (Christmas palm). CABI: CABI Compendium.

Scheffrahn, R.H., Robbins, W.P., Busey, P., Su, Nan-Yaou., Mueller, R.K. 1993. Evaluation of a novel, hand-held, acoustic emissions detector to monitor termites (Isoptera: Kalotermitidae, Rhinotermitidae) in Wood. Journal of Economic Entomology 86(6): 1720-1729.

Sutherland, A.M., Tabuchi, R.L., Moore, S. & Lewis, V.R. 2014. Borescope-aided inspection may be useful in some drywood termite detection situations. Forest Products Journal 64(7): 304-309.

Tho, Y.P. & Kirton, L.G. 1992. Termites of Peninsular Malaysia. Kuala Lumpur: Forest Research Institute Malaysia.

Universiti Kebangsaan Malaysia. 2020. Information for visitors. https://www.ukm.my/portal/visitor-information/ [31 Mac 2020]

University of Florida. 2018. Christmas palm. https://gardeningsolutions.ifas.ufl.edu/plants/trees-and-shrubs/palms-and-cycads/christmas-palm.html [15 Februari 2021]

Wiltz, B. 2012. Effect of temperature and humidity on survival of Coptotermes formosanus and Reticulitermes flavipes (Isoptera: Rhinotermitidae). Sociobiology 59(2): 381-394.

Zorzenon, F. & Campos, A. 2015. Subterranean termites in urban forestry: Tree preference and management. Neotropical Entomology 44(2): 180-185.