THE FORAGING BEHAVIOR OF Heterotrigona itama (COCKERELL) (HYMENOPTERA: APIDAE: MELIPONINI) IN CLOSE SYSTEM ROCK MELON (CUCUBITALES: CUCURBITACEACE) CULTIVATION
Abstract
Stingless bees (Meliponini) exhibit intricate foraging behavior that is essential for their colony's survival and reproductive success. Stingless bees exhibit a diverse range of foraging strategies that are customized to their specific ecological niche. These strategies encompass both solitary and cooperative with individuals often specializing in particular tasks within the foraging process. Through sophisticated communication mechanisms, such as waggle dances and pheromone trails, stingless bees effectively coordinate foraging efforts, maximizing resource acquisition while minimizing energy expenditure. While hand pollination by humans is the typical method employed for pollinating rock melons, it is not the preferred option due to its labor-intensive and time-consuming. Through spatial analysis and community field work, this study was conducted to assess potential Heterotrigona itama (Cockerell) as pollinators in rock melon cultivation and to investigate the foraging behavior of H. itama in rock melon cultivation inside the glasshouse. The experiment was done by determining the foraging activities, floral visitation frequency and activities rate of stingless bee in rock melon cultivation inside glasshouse. Results show that H. itama flying out from hive were 1522 individuals, while 1034 individuals of stingless bees flew into hive were recorded for foraging activities. The peak hour for foraging activities by H. itama inside the glasshouse was in the morning, from 10 a.m. to 11 a.m. On floral visitation frequency, H. itama visited rock melon male flowers more frequently than female flowers. However, for activities rate, H. itama spent longer a period foraging the female flowers than the male flowers. Thus, the findings from the present study contribute to new and impactful knowledge gained by rock melon growers and are recommended as innovations in the cultural practice of modern rock melon industry.
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Abreu-Olivera, C., Hilário, S.D., Luz, C.F.P. & dos Santos, I.A. 2014. Pollen and nectar foraging by Melipona quadrifasciata anthidioides Lepeletier (Hymenoptera: Apidae: Meliponini) in natural habitat. Sociobiology 61(4): 441-448.
Barrett, S.C.H. 2002. The evolution of plant sexual diversity. Nature Review Genetics 3:274-84.
Basari, N., Ramli, S.N. & Mohd Khairi, N. 2018. Food reward and distance influence the foraging pattern of stingless bee, Heterotrigona itama. Insects 9(4): 138.
Beaulieu, J.C. & Grimm, C.C. 2001. Identification of volatile compounds in cantaloupe at various developmental stages using solid phase micro extraction. Journal of Agricultural and Food Chemistry 49(3): 1345-1352.
Boualem, A., Lemhemdi, A., Sari, M.A., Pignoly, S., Troadec, C., Abou Choucha, F., Solmaz, I., Sari, N., Dogimont, C. & Bendahmane, A. 2016. The andromonoecious sex determination gene predates the separation of Cucumis and Citrullus Genera. PLoS One 11(5): 12.
Cruz, D.O., Freitas, B.M., Silva, L.A., Silva, S.E.M. & Bomfim, I.G.A. 2005. Pollination efficiency of the stingless bee Melipona subnitida on greenhouse sweet pepper. Pesquisa Agropecuria Brasileira 40: 1197–1201.
Dieko’’ter Leadbeater, E. & Chittka, L. 2009. Social Information Use in Foraging Insects. Boca Raton, USA: CRC Press.
Fidalgo, A.O. & Kleinert, A.M.P. 2007. Foraging behavior of Melipona rufiventris Lepeletier (Apinae; Meliponini) in Ubatuba, SP, Brazil. Brazilian Journal of Biology 67(1): 133-140.
Fülöp, A. & Menzel, R. 2000. Risk-indifferent foraging behaviour in honeybees. Animal Behaviour 60(5): 657-666.
Gebremedhn, H., Tadesse, A. & Belay, T. 2014. Relating climatic factors to foraging behavior of honeybees (Apis mellifera) during blooming period of Guizotia abyssinica (LF). Livestock Research for Rural Development 26(4): 2-7.
Goulson, D. & Sparrow, K.R. 2009. Evidence for competition between honeybees and bumblebees; effects on bumblebee worker size. Journal of insect conservation 13: 177-181.
Grüter, C. & Ratnieks, F.L. 2011. Synergy between social and private information increases foraging efficiency in ants. Biology Letters 7(4): 521-524.
Hilário, S.D., Imperatriz-Fonseca, V.L. & Kleinert, A.D.M.P. 2001. Responses to climatic factors by foragers of Plebeia pugnax Moure (Apidae, Meliponinae). Revista Brasileira de Biologia 61: 191-196.
Horsburgh, M., Semple, J.C. & Kevan, P.G. 2011. Relative pollinator effectiveness of insect floral visitors to two sympatric species of wild aster: Symphyotrichum lanceolatum (Willd.) Nesom and S. lateriflorum (L.) Löve & Löve (Asteraceae: Astereae). Rhodora 113(953): 64-86.
Jaapar, F., Halim, M., Mispan, M.R., Jajuli, R., Saranum, M.M., Zainuddin, M.Y., Ghazi, R. & Idris, A.G. 2016. The diversity and abundance of stingless bee (Hymenoptera: Meliponini) in Peninsular Malaysia. Advance in Environmental Biology 10(9): 1–7.
Kazan, K. & Lyons, R. 2016. The link between flowering time and stress tolerance. Journal of Experimental Botany 6 (1): 47–60.
Kiill, L.H., Siqueira, K.M., Coelho, M.S., Silva, T.A., Gama, D.R., Araújo, D.C., Pereira Neto, J. 2016. Frequency and foraging behavior of Apis mellifera in two melons hybrids in Juazeiro, state of Bahia, Brazil. Anais da Academia Brasileira de Ciências 86(4): 2049-2055.
Kooner, K.S., Jaskaran, S. & Saimbhi, M.S. 2000. Effect of plant growth substances on growth, sex expression and fruit yield in bottle gourd cv. Punjab Komal. Haryana Journal of Horticultural Sciences 29(3/4): 268-269.
Lo, M-M., Benfodda, Z., Molinié, R. & Meffre, P. 2024. Volatile organic compounds emitted by flowers: ecological roles, production by plants, extraction, and identification. Plants 13(3): 417.
Marshall, S.A. 2006. Insects: Their Natural History and Diversity with A Photographic Guide to Insects of Eastern North America. Buffalo, N.Y.: Firefly Books.
Mayfield, M.M., Waser, N.M. & Price, M.V. 2001. Exploring the ‘most effective pollinator principle’with complex flowers: Bumblebees and Ipomopsis aggregata. Annals of Botany 88(4): 591-596.
Mehdi, S., Liu, J., Topping, J., Tarkowski, P. & Lindsey, K. 2010. Modelling and experimental analysis of hormonal crosstalk in Arabidopsis. Molecular Systems Biology 6(1): 373.
Murren, C.J. 2002. Effects of habitat fragmentation on pollination: Pollinators, pollinate viability and reproductive success. Journal of Ecology 90(1): 100-107.
Norowi, M.H., Mohd Fahimee, J., Sajap, A.S., Rosliza, J. & Suri, R. 2010. Conservation and sustainable utilization of stingless bees for pollination services in agricultural ecosystems in malaysia. Proceedings of International Seminar on Enhancement of Functional Biodiversity Relevant to Sustainable Food Production, Tsukuba, Japan, Tsukuba: National Institute for Agro-Environmental Sciences 9-11 November 2010, pp. 1–11.
Nunes-Silva, P., Hnrcir, M., Shipp, L., Imperatriz-Fonseca, V.L. & Kevan, P.G. 2013. The behaviour of Bombus impatiens (Apidae: Bombini) on tomato (Lycopersicon esculentum Mill. Solanaceae) flowers: Pollination and reward perception. Journal Pollination Ecology 11: 33–40.
O’Neill, R.P. & O’Neill, K.M. 2010. Pollen load composition and size in the leafcutting bee Megachile rotundata (Hymenoptera: Megachilidae). Apidologie 42: 223–233.
Prothro, J., Abdel-Haleem, H., Bachlava, E., White, V., Knapp, S. & McGregor, C. 2013. Quantitative trait loci associated with sex expression in an inter-subspecific watermelon population. Journal of the American Society for Horticultural Science 138(2): 125-130.
Rader, R., Howlett, B.G., Cunningham, S.A., Westcott, D.A., Newstrom-Lloyd, L.E., Walker, M.K. & Edwards, W. 2009. Alternative pollinator taxa are equally efficient but not as effective as the honeybee in a mass flowering crop. Journal of Applied Ecology 46(5): 1080-1087.
Remy, V.E.G., ́ Mez-Escobar, Liedo, P., Montoya, P. & Sanchez, D. 2014. Behavioral response of two species of stingless bees and the honeybee (Hymenoptera: Apidae) to GF-120. Ecotoxicology. Entomological Society of America 107(4): 1447-1449.
Roubik, D.W. 2006. Stingless bee nesting biology. Apidologie 37(2): 124-143.
Roubik, D.W., Sakai, S. & Hamid Karim, A.A. 2014. Pollination Ecology and Therain Forest: Sarawak Studies. USA: Springer.
Roubik, D.W., McCravy, K.W., Van Dyke, J. & Creedy, T.J. 2016. Orchid bees (Hymenoptera: Apidae: Euglossini) of Cusuco National Park, State of Cortés, Honduras. Florida Entomologist 99(4): 765-768.
Roselino, A.C., Santos, S.B., Hrncir, M. & Bego, L.R. 2009. Differences between the quality of strawberries (Fragaria x ananassa) pollinated by the stingless bees Scaptotrigona aff. depilis and Nannotrigona testaceicornis. Genetics and Molecular Research 8(2): 539-545.
Russell, A.L., Morrison, S.J., Moschonas, E.H. & Papaj, D.R. 2017. Patterns of pollen and nectar foraging specialization by bumblebees over multiple timescales using RFID. Scientific reports 7(1): 1-13.
Santos, S.A.B., Roselino, A.C. & Bego, L.R. 2008. Pollination of cucumber, Cucumis sativus L. (Cucurbitales: Cucurbitaceae), by the stingless bees Scaptotrigona aff. depilis Moure and Nannotrigona testaceicornis Lepeletier (Hymenoptera: Meliponini) in greenhouses. Ecology, Behavior and Bionomics 37: 506-512.
Shamsul, B.A.R., Sanusi, J. & Nur Azura, A. 2017. Ultrastructural comparison of three stingless bee’s species of Borneo. Malaysian Journal of Microscopy 13(1): 8-16.
Silva, D., Yamamoto, M.C.I., Augusto, S.C., Barbosa, A.A.A. & Oliveira, P.E. 2010. The role of bee diversity in pollination and fruit set of yellow passion fruit (Passiflora edulis forma flavicarpa, Passifloraceae) crop in Central Brazil. Apidologie 43(5):515-526.
Slaa, E.J., Chaves, L.A.S., Malagodi-Braga, K.S. & Hofstede, F.E 2006. Stingless bees in applied pollination: Practice and perspectives. Apidologie 37 :293-315.
Soussi, M., Chaibi, M.T., Buchholz, M. & Saghrouni, Z. 2022. Comprehensive review on climate control and cooling systems in greenhouses under hot and arid conditions. Agronomy 12(3): 626.
Svensson, B., Lagerlöf, J. & Svensson, B.G. 2000. Habitat preferences of nest-seeking bumble bees (Hymenoptera: Apidae) in an agricultural landscape. Agriculture, Ecosystems & Environment 77(3): 247-255.
Tschoeke, P.H., Oliveira, E.E., Dalcin, M.S., Silveira-Tschoeke, M.C.A. & Santos, G.R. 2015. Diversity and flower-visiting rates of bee species as potential pollinators of melon (Cucumis melo L.) in the Brazilian Cerrado. Scientia Horticulturae 186: 207-216.
Veiga, L.M., Barnett, A.A., Boyle, S.A., Norconk, M.M., Palminteri, S., Santos, R.R. & Ferrari, S.F. 2012. Terrestrial activity in Pitheciins (C acajao, C hiropotes, and P. ithecia). American Journal of Primatology 74(12): 1106-1127.
Wahizatul Afzan Azmi, W.A.A., Seng ChuahTse, S.C. & Nur Suhaili Solihin, N.S.S. 2016. Pollination efficiency of the stingless bee, Heterotrigona itama (Hymenoptera: Apidae) on chili (Capsicum annuum) in greenhouse. Journal of Tropical Plant Physiology 8: 1-11.
Wahizatul, AA., Wan Sembok, W.Z., Yusuf, N., Mohd Hatta, M.F., Salleh, A.F., Hamzah, M.A.H. & Ramli, S.N. 2018. Effects of pollination by the Indo-Malaya stingless bee (Hymenoptera: Apidae) on the quality of greenhouse produced rock melon. Journal of Economic Entomology 112(1): 20-24.
Zhang, Y., Tan, J., Guo, Z., Lu, S., He, S., Shu, W. & Zhou, B. 2009. Increased abscisic acid levels in transgenic tobacco over-expressing 9 cis-epoxy carotenoid dioxygenase influence H2O2 and NO production and antioxidant defences. Plant, Cell Environment 32: 509-519.
Zych, M. & Jędrzejewska-Szmek, K. 2013. Flower-visitor and pollen transport networks in a large city: Structure and properties. Arthropod-Plant Interactions 7: 503–516.
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