The Type of Honeybees Forages in District of Pakem Sleman and Nglipar Gunungkidul Yogyakarta
Agussalim Agussalim(1*), Ali Agus(2), Nafiatul Umami(3), I Gede Suparta Budisatria(4)
(1) Faculty of Animal Science, Universitas Gadjah Mada, Yogyakarta, 55281, Indonesia
(2) Faculty of Animal Science, Universitas Gadjah Mada, Yogyakarta, 55281, Indonesia
(3) Faculty of Animal Science, Universitas Gadjah Mada, Yogyakarta, 55281, Indonesia
(4) Faculty of Animal Science, Universitas Gadjah Mada, Yogyakarta, 55281, Indonesia
(*) Corresponding Author
Abstract
This research aimed to investigate the type of plants for honeybees forages in Pakem Sleman and Nglipar Gunungkidul. This research was conducted from 16 March to 12 May 2016. The method used was direct observation in the plantations, fields, and forests. The type of plants observed were dominant plants, so can be developed beekeeping, honey. To determine the type of plants that produce nectar and pollen, one or two samples of flower in each plant were taken, then the availability of nectar and pollen was checked. The data of honeybees forage types were analyzed descriptively. The results showed that the type of honeybees forages in Pakem Sleman consisted of coconut, coffee, banana, calliandra, avocado, rice, albizia, chili, tomato, long beans, mustard green, maize, cucumber, melinjo, mahogany, cassava, and cherry. Honeybees forages in Nglipar Gunungkidul consisted of coconut, albizia, acacia, banana, peanuts, tamarind, eucalyptus, rambutan, sorghum, cacao, soybeans, cassava, maize, rice, rose wood, mahogany, and cherry. Thus, Pakem Sleman and Nglipar Gunungkidul have great potential for development of beekeeping honey.
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Abrol, D. P. 1986. Differential dilution of nectar by sub-tropical bees. Environ. Ecol 4:188-189.
Abrol, D. P. 1990. Energetics of nectar production in some apple cultivars as a predictor of floral choice by honeybees. Trop. Ecol 31: 116-122.
Abrol, D. P. 1991. Insect pollination and crop production in Jammu and Kashmir. Curr. Sci. 65: 265-269.
Abrol, D. P. 1995. Energetics of nectar production in some almond cultivars as a predictor of floral choice by honeybees, A. cerana indica F. and A. mellifera L. (Hymenoptera: Apidae). Proc. Indian Nat. Sci. Acad B. 57:127-132.
Abrol, D. P. 2007a. Foraging behaviour of A. mellifera and A. cerana as determined by the energetics of nectar production in different cultivars of Brassica campestris var. toria. J. of Apic. Sci. 51: 5-10.
Abrol, D. P. 2007b. Differences in sugar metabolism among honeybees, A. mellifera and A. cerana potentially impact floral attractiveness. J. Apic. Res. 46: 181-190.
Abrol, D. P. 2009. Bees and Beekeeping in India. 2nd edn. Kalyani, Ludhiana.
Abrol, D. P. 2010. Foraging behavior of Apis florea F., an important pollinator of Allium cepa L. J. Apic. Res. and Bee World 49: 318-325
Abrol, D. P. 2011. Foraging. In: Honeybees of Asia. R. Hepburn and Sarah E. Radolf (eds). Springer, Berlin Heidelberg. pp. 257-292.
Abrol, D. P. 2015. Pollination and fruit productivity. In: Pollination Biology Vol. 1 (Pests and pollinators of fruit crops). D. P. Abrol (ed). Springer, Berlin Heidelberg. pp. 1-24.
Adgaba, N., A. Al-Ghamdi, Y. Tadesse, A. Getachew, A. M. Awad, M. J. Ansari, A. A. Owayss, S. E. A. Mohammed and A. S. Alqarni. 2016. Nectar secretion dynamics and honey production potentials of some major honey plants in Saudi Arabia. Saudi J. Biological Sciences 24: 180-191.
Agussalim, N. Umami and Erwan. 2015. Production of stingless bees (Trigona sp.) propolis in various bee hives design. Proceedings the 6th International seminar on tropical animal production (ISTAP). Faculty of Animal Science Universitas Gadjah Mada, Yogyakarta. pp. 335-338.
Agussalim. 2015. Produksi madu, polen dan propolis lebah Trigona sp. dalam berbagai desain stup. Tesis. Program Pascasarjana Fakultas Peternakan Universitas Gadjah Mada, Yogyakarta.
Arizmendi, M. C. 2001. Multiple ecological interactions: Nectar robbers and hummingbirds in a highland forest in Mexico. Can. J. Zool. 79: 997-1006.
Becher, M. A., H. Hildenbrandt, K. Charlotte, Hemelrijk and R. F. A. Moritz. 2010. Brood temperature, task division and colony survival in honeybees: A model. Ecological Modelling 221: 769-776.
BPS Gunungkidul. 2015. Kecamatan Nglipar Dalam Angka. Badan Pusat Statistik Kabupaten Gunungkidul.
BPS Sleman. 2015. Kecamatan Pakem Dalam Angka 2015. Badan Pusat Statistik Sleman Yogyakarta.
Bravo-Monroy, L., J. Tzanopoulos and S. G. Potts. 2015. Ecological and social drivers of coffee pollination in Santander Colombia. Agriculture, Ecosystems and Environment 211: 145-154.
Carter, C. and R. W. Thornburg. 2004. Is the nectar redox cycle a floral defense against microbial attack? Trends in Plant Sci. 9: 320-324.
Chalcoff, V. R., M. A. Aizen and L. Galetto, 2006. Nectar concentration and composition of 26 species from the temperate forest of South America. Ann. Bot. 97: 413-421.
Corlett, R. T. 2011. Honeybees in natural ecosystems. In: Honeybees of Asia. R. Hepburn and Sarah E. Radolf (eds). Springer, Berlin Heidelberg. pp. 215-225.
Cruden, R. W., S. M. Hermann and S. Peterson. 1983. Patterns of nectar production and plant animal coevolution. In B. Bentley and T. Elias (Eds.). The Biology of Nectaries. Columbia University Press, New York. pp. 126-152.
Danner, N., S. Härtel and I. Steffan-Dewenter. 2014. Maize pollen foraging by honey bees in relation to crop area and landscape context. Basic and App. Ecology 15: 677-684.
Devkota, F. R. and R. B. Thapa. 2005. Foraging preference of A. cerana F and A. mellifera L. to broccoli under caged and open conditions in Chitwan. J. Inst. Agric. Anim. Sci. 26: 167-168.
Heinrich, B. 1979. Thermoregulation of African and European honeybees during foraging, attack, and hive exits and returns. J. of Experimental Biology 80: 217-229.
Hernández-Conrique, D., J. F. Ornelas, J. G. Garcĩa-Franco and C. F. Vargas. 2007. Nectar production of calliandra longipedicellata (Fabaceae: Mimosoideae), an Endemic Mexican Shrub with multiple potential pollinators. Biotropica 39: 459-467.
Kovac, H. and S. Schmaranzer. 1996. Thermoregulation of honeybees (Apis mellifera) foraging in spring and summer at different plants. J. Insect Phys. 42: 1071-1076.
Kovac, H., A. Stabentheiner and S. Schmaranzer. 2010. Thermoregulation of water foraging honeybees – Balancing of endothermic activity with radiative heat gain and functional requirements. J. of Insect Phys. 56: 1834-1845.
Linskens, H. F. and W. Jorde. 1997. Pollen as food and medicine. A review. Eco. Botany 51: 78-87.
MacQueen, J. D. and H. M. Hernandez´. 1997. A revision of Calliandra series racemosae (Leguminosae: Mimosoideae). Kew. Bull. 52: 1-50.
Nugroho, R. B. and R. C. H. Soesilohadi. 2014. Identifikasi macam sumber pakan lebah Trigona sp (Hymnoptera: Apidae) di Kabupaten Gunungkidul. Biomedika 7: 42-45.
Pacini, E. 2000. From anther and pollen ripening to pollen presentation. In: A. Dafni, M. Hesse and E. Pacini (eds) Pollen and pollination. Springer, New York. pp. 19-43.
Pacini, E. and S. W. Nicolson. 2007. Introduction. In: Nectaries and Nectar. W.N. Susan., M. Nepi and E. Pacini (eds). Springer, New York. pp. 1 -18.
Partap, U. 2011. The pollination role of honeybees. In: Honeybees of Asia. R. Hepburn and Sarah E. Radolf (Eds). Springer, Berlin Heidelberg. pp. 227-255.
Pribadi, A. and Purnomo. 2013. Agroforestry sorghum (sorghum spp.) pada HTI acacia crassicarpa sebagai sumber pakan lebah Apis cerana di Propinsi Riau untuk mendukung budidaya lebah madu. Prosiding seminar nasional agroforestry. http://www.forda-mof.org/files/Makalah_Komisi_Budidaya.pdf. 36-41. Diakses pada 5 Oktober 2016.
Raguso, R. A. 2004. Why some floral nectars scented? Ecology 85: 1486-1494.
Raj, D., V. K. Rana and N. Devi. 1993. Comparative studies on pollen loads and pollen constancy of A. mellifera L. and A. cerana indica F. on rapeseed. J. Entomol. Res.17: 43-48.
Roubik, D. W. 1991. Aspects of Africanized honey bee ecology in tropical America. In: The African Honey Bee. M. Spivak, D.J.C. Fletcher and M.D. Breed (Eds.). Westview Press, Boulder. pp. 259-281.
Schmaranzer, S. 2000. Thermoregulation of water collecting honeybees (Apis mellifera). J. Insect Phys. 46:1187-1194.
Sihombing, D. T. H. 2005. Ilmu Ternak Lebah Madu. Gadjah Mada University Press, Yogyakarta.
Steel, R. G. D. dan J. H. Torrie. 1993. Prinsip dan Prosedur Statistika, Suatu Pendekatan Biometrik. Penerjemah : B. Sumantri. Gramedia Pustaka Utama, Jakarta.
Stone, G. N., P. G. Willmer and J. A. Rowe. 1998. Partitioning of pollinators during flowering in an African Acacia community. Ecology. 79: 2808-2827.
Stone, G. N., W. Pat and N. Sean. 1996. Daily partitioning of pollinators in an African acacia community. Proc. R. Soc. Biol. Sci. 263 (1375), 1389-1393.
Tautz, J. 2008. The buzz about bees : biology of a superorganism. Springer, New York.
Žilic´, S., J. Vancˇetovic´ and V. Maksimovic´. 2014. Chemical composition, bioactive compounds, antioxidant capacity and stability of floral maize (Zea mays L.) pollen. J. Functional Foods 10: 65-74.
DOI: https://doi.org/10.21059/buletinpeternak.v42i1.28294
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