EFEKTIVITAS BAHAN ORGANIK SEBAGAI ATRAKTAN TERHADAP HAMA WALANG SANGIT (Leptocorisa sp.) PADA TANAMAN PADI
DOI:
https://doi.org/10.35335/fruitset.v11i2.3785Keywords:
Attractant, Carcass, Trap Height, VolatileAbstract
Leptocorisa sp. is a pest of rice plants that can reduce crop yields by up to 50%. The use of chemical pesticides is still the main choice in controlling Leptocorisa sp. However, excessive use of pesticides can be bad for the environment and humans. This study aims to determine the type and height of attractant traps that are effective in controlling Leptocorisa sp. on rice plants. The study used a factorial Randomized Block Design (RBD) consisting of two factors. Observations were made for seven days with four repetitions. The distance between the traps is 5 meters. The results showed that Leptocorisa sp. males and females preferred golden snail traps compared to other types of material traps, namely 4.0 males and 2.5 females at a height of 0 cm, while at a height of 20 cm, there were 3.8 males and 3.3 females. This shows that Leptocorisa sp. males prefer golden snail traps to females. Leptocorisa sp. eggs. The highest was found in the pineapple skin bait treatment at a trap height of 40 cm with an average of 12.3 eggs, while the lowest was found in the golden snail bait treatment at a height of 20 cm with an average of 5.3 eggs. There are four insect families apart from Leptocorisa sp. those interested in traps include Calliphoridae, Muscidae, Blattellidae, and Formicidae.
References
Abd El-Ghany, M. N. (2020). Pheromones and Chemical Communication in Insects. In Kontogiannatos Dimitrios, Kourti Anna, & Mendes Kassio Ferreira (Eds.), Pests, Weeds and Diseases in Agricultural Crop and Animal Husbandry Production (pp. 1–13). IntechOpen. https://doi.org/10.5772/intechopen.92384
Borror, D. J., & Delong, D. M. (1971). An introduction to the study of insects. An Introduction to the Study of Insects., Ed. 3.
Buida, R. K., Kandowangko, D., & Montong, V. B. (2021). Pengendalian Hama Walang Sangit (Leptocorisa acuta Thunb.) dengan Menggunakan Perangkap Bangkai Ikan dan Keong pada Tanaman Padi. Cocos, 14(2).
Dad, K., Zhao, F., Hassan, R., Javed, K., Nawaz, H., Saleem, M. U., Fatima, T., & Nawaz, M. (2022). Pesticides Uses, Impacts on Environment and their Possible Remediation Strategies-A Review. Pakistan Journal of Agricultural Research, 35(2), 274–284. https://doi.org/10.17582/JOURNAL.PJAR/2022/35.2.274.284
Dara, S. K. (2019). The New Integrated Pest Management Paradigm for the Modern Age. Journal of Integrated Pest Management, 10(1). https://doi.org/10.1093/jipm/pmz010
Dibner, H., Mangca Valdez, C., & Carter, D. O. (2019). An Experiment to Characterize the Decomposer Community Associated with Carcasses (Sus scrofa domesticus) on Oahu, Hawaii. Journal of Forensic Sciences, 64(5), 1412–1420. https://doi.org/10.1111/1556-4029.14009
Hussin, N., & Azmir, I. A. (2022). Morphological and Meristic Study on Rice Bugs Leptocorisa oratorius (Fabricius, 1764) at Kuala Pilah and Bahau Paddy Fields. Journal of Academia, 10(2), 108 – 121.
Kurniati, Y., Khasanah, I. E., & Firdaus, K. (2021). Study on Making Bioethanol from Pineapple Peel Waste (Ananas comosus. L). Jurnal Teknik Kimia USU, 10(2), 95–101. https://talenta.usu.ac.id/jtk
Luo, X. Y., Newman, C., Luo, Y., & Zhou, Z. M. (2023). Comparing Ant Assemblages and Functional Groups across Urban Habitats and Seasons in an East Asia Monsoon Climate Area. Animals, 13(1). https://doi.org/10.3390/ani13010040
Mashaly, A. M., Al-Ajmi, R. A., Rady, A., Al-Musawi, Z., & Farrukh, A. (2019). Species richness of scavenger insects on different carcass types. In Tropical Biomedicine (Vol. 36, Issue 3).
Matuszewski, S., & M?dra-Bielewicz, A. (2022). Competition of insect decomposers over large vertebrate carrion: Necrodes beetles (Silphidae) vs. blow flies (Calliphoridae). Current Zoology, 68(6), 645–656. https://doi.org/10.1093/CZ/ZOAB100
Neupane, A. chandra. (2022). Food Detection and Feeding Behavior of Three Species of Household Cockroaches, Blatella germanica (L.), Periplaneta americana (L.), and Supella longipalpa (F.) . In Arthropods - New Advances and Perspectives [Working Title]. IntechOpen. https://doi.org/10.5772/intechopen.108499
Nooten, S. S., Chan, K. H., Schultheiss, P., Bogar, T. A., & Guénard, B. (2022). Ant body size mediates functional performance and species interactions in carrion decomposer communities. Functional Ecology, 36(5), 1279–1291. https://doi.org/10.1111/1365-2435.14039
Nordin, N. H., Ahmad, U. K., Abdul Rahim, N. A., Kamaluddin, M. R., Ismail, D., Muda, N. W., Abdul Wahab, R., & Mahat, N. A. (2020). Development patterns of necrophagous flies infesting rabbit carcasses decomposing in Mount Kapur Cave and its surrounding primary forest in Kuching, Sarawak. In Tropical Biomedicine (Vol. 37, Issue 2). www.google.com.my/
Putra, A. H. (2018). Preferensi Pakan Beberapa Strain Kecoak Jerman, Blattella Germanica (Dictyoptera: Blattellidae). In BIOCOLONY: Jurnal Pendidikan Biologi dan Biosains BIOCOLONY (Vol. 1, Issue 1).
Rumalolas, N., Tiblola, Z. N., Krey, K., & Dwiranti, F. (2022). Ant eating behavior. Inornatus: Biology Education Journal, 2(2), 78–84. https://doi.org/10.30862/inornatus.v2i2.363
Ryan, M. F. (2002). Insect Chemoreception. Insect Chemoreception. https://doi.org/10.1007/0-306-47581-2
Solikhin. (2001). Ketertarikan Walang Sangit (Leptocorisa oratorius F.) terhadap Beberapa Bahan Organik yang Membusuk. Jurnal Hama dan Penyakit Tumbuhan Tropika, 1(1), 16–24. https://doi.org/10.23960/J.HPTT.1116-24
Sumini, Bahri, S., & Holidi. (2019). Populasi dan Serangan Walang Sangit di Tanaman Padi Sawah Irigasi Teknis Kecamatan Tugumulyo. Klorofil: Jurnal Penelitian Ilmu-Ilmu Pertanian, 13(2), 67–70. https://doi.org/10.32502/JK.V13I2.1321
Yuliani, Sadiah, & Sari, W. (2021). Uji Efektivitas Beberapa Bahan Perangkap Organik terhadap Walang Sangit (Leptocorisa oratorius) pada Tanaman Padi. AGROSCIENCE, 11(1), 66–75. https://doi.org/10.35194/AGSCI.V11I1.1529
