SERANGGA

Controlling the melon fruit fly, Batrocera cucurbitae (Diptera: Tephritidae) can be achieved by employing food bait trapping techniques that could reduce reliance on insecticides. However, the success of this method depends on several factors which include the sweetness and nutritional value of the food, as well as other population-affecting factors. As a result, performing laboratory studies becomes crucial in order to observe the behaviour and tendencies of the melon fruit fly towards their dietary choices. Therefore, the objective of this study was to evaluate the food preferences of melon fruit flies in the laboratory before applying food in baited traps for field studies. The study employed a choice and no choice experiment, presenting four types of foods: Brewer's yeast, banana, cucumber, and Melon Manis Terengganu (MMT). Each experiment involved releasing a four-day-old adult female of B. cucurbitae into a rearing cage containing the four foods for choice and each food (individually) for no-choice experiment. The fly's foraging behaviour was observed and recorded for a duration of two hours with five replications. The results indicated significant differences (P<0.05) in the duration of food consumption by the flies when exposed to different host foods for both experiments. Notably, the yeast recorded the significantly longest duration of food consumption with 19.29±3.73 minutes for choice experiment and 21.44±8.22 minutes for no choice experiment, compared with other food hosts. However, no significant differences (P>0.05) were observed in the number of food visits, duration of food visits, and number of consumptions across all the food hosts. These findings highlight the importance of using yeast as one of the food baits in the management of melon fruit flies. Its incorporation enhances pest control methods, contributing to a more efficient and environmentally friendly approach to managing this pest.

Abinaya, S., Elaiyabharathi, T., Srinivasan, T. & Paramasivam, M. 2020. Field evaluation of food baits against female melon fruit fly, Zeugodacus cucurbitae (Coquillett) (Diptera: Tephritidae). Journal of Entomology and Zoology Studies 8(6): 895–899.

Aluja, M., Guillén, L. & Jácome, I. 2016. Long term feeding patterns highlight preference for sucrose in the fruit fly Anastrepha serpentina when given a choice over other more nutritious food sources. Journal of Insect Behavior 29: 719–734.

Bade, A., Kulkarni, S. & Wani, V. 2022. Evaluation of protein food baits against Bactrocera cucurbitae (Coquillett) infesting cucumber. The Pharma Innovation Journal 11(10): 820–822.

Badii, B.K. 2020. Phylogeny and functional morphology of Diptera (Flies). In. Sarwar, M. (ed.). Life Cycle and Development of Diptera Chapter 8, pp 1-15. IntechOpen.

Bharathi, T.E., Sathiyanandam, V.K.R. & David, P.M.M. 2004. Attractiveness of some food baits to the melon fruit fly , Bactrocera cucurbitae (Coquillett) (Diptera : Tephritidae). Journal of Tropical Insect Science 24(2): 125–134.

Dar, S.A., Javeed, K., Mir, S.H., Dar, E.A., Kundo, A.A., Farook, U. & Hassan, R. 2020. Response of insect species to fermented sugar and milk baited traps under field conditions. Journal of Entomology and Zoology Studies 8(6): 562–569.

Drew, R.A.I., Prokopy, R.J. & Romig, M.C. 2003. Attraction of fruit flies of the genus Bactrocera to colored mimics of host fruit. The Netherlands Entomological Society 107: 39–45.

Ebbs, M.L. & Amrein, H. 2007. Taste and pheromone perception in the fruit fly Drosophila melanogaster. European Journal of Physiology 454(5): 735–747.

Fauzie Jusoh, M., Sa’adiah, H., Abu Bakar, T., Abdullah, F.A., Khairul, M., Maidin, H., Firdaus, M. & Muttalib, A. 2022. A scoping review of Melon Manis Terengganu research perspective in Malaysia. Journal of Agrobiotechnology 13(2): 10–27.

Gupta, A. & Regmi, R. 2022. Efficacy Of different homemade and commercial baits in monitoring. Malaysian Journal of Sustainable Agriculture 6(2): 101–109.

IAEA. 2018. Traps and lures for fruit fly surveys. In. Enkerlin, W.R. & Reyes- Flores, J. (eds.). Wide Fruit Fly Programmes Trapping Guidelines for Area-Wide, pp. 11-22. Rome, Italy: FAO.

Ismail, R.E. 2012. Evaluating attractency of some protein derivatives for the Mediterranean Fruit Fly, Ceratitis capitata (Wiedmann) and the Peach Fruit Fly, Bactrocera zonata (Saunders). International Journal of Agricultural Research 7(4): 185–194.

Jaeger, A., Arendt, E.K., Zannini, E. & Sahin, A.W. 2020. Brewer’s Spent Yeast (BSY), an underutilized brewing by-product. Fermentation 6(4): 1–23.

Kaur, S., Singh, S., Mohanpuria, P. & Li, Z. 2021. Successful rearing of Bactrocera dorsalis on a semi-solid artificial diet. Indian Journal of Agricultural Sciences 91(9): 1342–1346.

Kaushik, S. & Kain, P. 2020. Understanding taste using Drosophila melanogaster. In. Tvrda, E. & Yenisetti, S.C. (eds.). Animal Models in Medicine and Biology Chapter 8, pp 1–21. IntechOpen.

Kleinhenz, M.D. & Bumgarner, N.R. 2015. Using Brix as an indicator of vegetable quality: Instructions for measuring Brix in cucumber, leafy greens, sweet corn, tomato, and watermelon.

https://ohioline.osu.edu/factsheet/hyg-1653 [24 December 2023]

Leblanc, L., Vargas, R.I. & Rubinoff, D. 2010. Captures of pest fruit flies (Diptera: Tephritidae) and nontarget insects in BioLure and torula yeast traps in Hawaii. Environmental Entomology 39(5): 1626–1630.

Liew, C.Y. & Lau, C.Y. 2012. Determination of quality parameters in Cavendish banana during ripening by NIR spectroscopy. International Food Researc Journal 19(2): 751–758.

Liu, Z., Yu, J., Lin, W., Yang, W., Li, R., Chen, H. & Zhang, X. 2018. Facile method for the hydrophobic modification of filter paper for applications in water-oil separation. Surface and Coatings Technology 352: 313–319.

Mack, J.O. & Zhang, Y.V. 2023. A rapid food-preference assay in Drosophila. Journal of Visualized Experiments 168: 1–12.

Marella, S., Fischler, W., Kong, P., Asgarian, S., Rueckert, E. & Scott, K. 2006. Imaging taste responses in the fly brain reveals a functional map of taste category and behavior. Neuron 49(2): 285–295.

Matheson, A.M.M., Lanz, A.J., Medina, A.M., Licata, A.M., Currier, T.A., Syed, M.H. & Nagel, K.I. 2022. A neural circuit for wind-guided olfactory navigation. Nature Communications 13(1): 1–21.

Nor, S., Mohamed, S., Hailmi Sajili, M. & Ngah, N. 2018. Ovipositional behaviour preference of oriental fruit fly. Journal of Agrobiotechnology 9(1S): 173–181.

Nanga, S.N., Hanna, R., Kuate, A.F., Fiaboe, K.K.M., Nchoutnji, I., Ndjab, M., Mohamed, S.A. & Ekesi, S. 2022. Tephritid fruit fly species composition, seasonality, and fruit infestations in two Central African agro-ecological zones. Insects 13: 1–23.

Nankinga, C.M., Isabirye, B.E., Muyinza, H., Rwomushana, I., Stevenson, P.C. & Mayamba, A. 2014. Fruit fly infestation in mango: A threat to the horticultural sector in Uganda. Uganda Journal of Agricultural Sciences 15(1): 1–14.

Poonia, S.K., Topno, S.E. & Kerketta, A. 2024. Integrated pest and disease management in cucumber and muskmelon. The Agriculture Magazine 3(6): 1–11.

Qin, Y., Paini, D.R., Wang, C., Fang, Y. & Li, Z. 2015. Global establishment risk of economically important fruit fly species (Tephritidae). PLoS ONE 10: 6–13.

Radonjić, S., Hrnčić, S. & Perović, T. 2019. Overview of fruit flies important for fruit production on the Montenegro seacoast. Biotechnology, Agronomy and Society and Environment 23(1): 46–56.

Riyaz, M., Shah, R.A. & Sivasankaran, K. 2021. Pesticide residues: Impacts on fauna and the environment. In. Ferreira Mendes, K., Nogueira de Sousa, R. & Cabral Mielke, K. (eds.). Biodegradation Technology of Organic and Inorganic Pollutants Chapter 3, pp. 1-21. IntechOpen.

Roh, G.H., Kendra, P.E. & Cha, D.H. 2021. Preferential attraction of oviposition-ready oriental fruit flies to host fruit odor over protein food odor. Insects 12(10): 1–12.

Saeed, M., Ahmad, T., Alam, M., Al-Shuraym, L.A., Ahmed, N., Ali Alshehri, M., Ullah, H. & Sayed, S.M. 2022. Preference and performance of peach fruit fly (Bactrocera zonata) and Melon fruit fly (Bactrocera cucurbitae) under laboratory conditions. Saudi Journal of Biological Sciences 29(4): 2402–2408.

Sardar, B., Chowdhury, N. & Roy, N. 2023. Pest bioecology and management strategies for the genus Bactrocera (Diptera: Tephritidae). Entomology 3(2): 18–25.

Scott, K. 2018. Gustatory processing in Drosophila melanogaster. Annual Review of Entomology 63: 15–30.

Sharma, A., Kumar, V., Shahzad, B., Tanveer, M., Sidhu, G.P.S., Handa, N., Kohli, S.K., Yadav, P., Bali, A.S., Parihar, R.D., Dar, O.I., Singh, K., Jasrotia, S., Bakshi, P., Ramakrishnan, M., Kumar, S., Bhardwaj, R. & Thukral, A.K. 2019. Worldwide pesticide usage and its impacts on ecosystem. SN Applied Sciences 1(11): 1–16.

Singh, M., Sharma, K.C., Bhardwaj, R.K. & Sharma, P.L. 2017. Mass trapping of fruit flies (Bactrocera spp.) in cucumber using parapheromone in Himachal Pradesh. Indian Journal of Entomology 79(3): 274-277.

Smith, P.G., Morrow, R.H. & Ross, D.A. 2015. Field laboratory methods. In. Smith, P.G. (ed.). Field Trials of Health Intervention. 3rd Edition, pp. 285-299. United Kingdom: Oxford University Press.

Social Science Statistical Package (SPSS). 2021. Version 26. New York: IBM Corp.

Sohrab, Prasad, C. & Hasan, W. 2018. Study on the biology of cucurbit fruit fly, Bactrocera cucurbitae (Coquillett). Journal of Pharmacognosy and Phytochemistry 7(2): 223–226.

Sruthi, A., Kavitha, Z., Shanti, M. & Beaulah, A. 2022. Role of protein and food baits in attraction of Melon Fruit Fly, Zeugodacus cucurbitae in bitter gourd. Indian Journal of Entomology 85(2): 455–458.

Wang, F., Chambi, C., Li, Z., Huang, C., Ma, Y., Li, C., Tian, X., Sangija, F., Ntambo, M.S., Kankonda, O.M., Hafeez, S., Anwar, T. & Sharif, R. 2018. Influence of supplemental protein on the life expectancy and reproduction of the Chinese Citrus Fruit Fly, Bactrocera minax (Enderlein) (Tetradacus minax) (Diptera : Tephritidae). Journal of Insect Science 18(2): 1–8.

Wang, L., Wei, D., Wang, G., Huang, H. & Wang, J. 2023. High-sucrose diet exposure on larvae contributes to adult fecundity and insecticide tolerance in the Oriental Fruit Fly, Bactrocera dorsalis (Hendel). Insects 14(5): 1–12.

Weaver, K.J., Raju, S., Rucker, R.A., Chakraborty, T., Holt, R.A. & Pletcher, S.D. 2023. Behavioral dissection of hunger states in Drosophila. ELife 12: 1–20.

Wee, S.L. & Ooi, Y.T. 2022. Determination of age- dependent responses of fruit fly Zeugodacus cucurbitae (Diptera: Tephritidae) towards two phenylbutanoid male attractants. Serangga 27(3): 66–77.

Wee, S.L. & Shelly, T. 2013. Capture of Bactrocera fruit flies in traps baited with liquid versus solid formulations of male lures in Malaysia. Journal of Asia-Pacific Entomology 16(1): 37–42.

Widihastuty, Ardilla, D., Utami1, S., Munar, A. & Rangkuti, K. 2023. Fruit Fly Bactrocera spp. responses to odour of curry leaves, Murraya koenigii L. Spreng. Serangga 28(2): 99–108.

Wong, R., Piper, M.D.W., Wertheim, B. & Partridge, L. 2009. Quantification of food intake in Drosophila. PLoS ONE 4(6): 1-10.

Wright, G.A. 2015. Olfaction : Smells like fly food. Current Biology 25(4): 144–146.