Abstrak

Cabai merupakan tanaman yang banyak ditanam masyarakat. Selain dapat dikonsumsi, cabai juga dapat dijual untuk tambahan penghasilan. Perawatan tanaman cabai dewasa ini banyak menggunakan pestisida, padahal terdapat agen biologi yang dapat digunakan dengan lebih efektif dan ramah lingkungan. Penelitian ini bertujuan untuk menghitung tingkat keanekaragaman dan mengetahui jenis serangga musuh alami yang terdapat pada lahan cabai di Desa Wiyoro, Kecamatan Banguntapan, Kabupaten Bantul, Yogyakarta. Pengambilan sampel menggunakan perangkap sumuran (pitfall trap), nampan kuning berisi larutan detergent dan jaring serangga. Jaring serangga diayunkan sepanjang bedengan tanaman cabai secara vertical. Luas area pengamatan yang digunakan dalam penelitian ini adalah 20 x 100 m. Pemasangan nampan kuning dan pitfall dipasang sebanyak 15 buah untuk masing-masing jebakan. Pengambilan sampel dilakukan sebanyak 8 kali dalam 2 bulan. Hasil yang didapatkan berupa 7 ordo serangga sebagai musuh alami pada lokasi penelitian. Jumlah famili paling banyak ditemukan berasal dari ordo Hymenoptera 23 famili dan terendah Dermaptera dan Strepsiptera (1 famili). Spesies paling banyak sebagai musuh alami adalah Paratrechina longicornis. Kesimpulan penelitian ini adalah ordo serangga yang ditemukan sebagai musuh alami pada lokasi penelitian berjumlah 7, dengan jumlah famili terbanyak dari ordo Hymenoptera. Famili dengan jumlah individu terbanyak sebagai musuh alami adalah Formicidae dari Hymenoptera.

Abstract

Chili is one of the most widely planted plants. Besides being able to consumed, it also can be sold for additional income. Nowadays treatment on chili uses a lot of pesticides, even though there are biological agents that can control pest more effectively and environmentally friendly. This study aims to count the diversity index and determine species of natural enemy found in chili fields in Wiyoro, Banguntapan, Bantul, Yogyakarta. Sampling used insect nets, yellow pans, and pitfall. Insect nets were swung along the beds of chillies vertically. The area of this research was 20 x 100 m. Yellow trays and pitfalls were installed 15 units for each trap. Sampling was done 8 times in 2 months. The results that obtained were there were 7 orders of insects that became natural enemies at the research site, with the most number of families was Hymenoptera with 23 families and the lowest were Dermaptera and Strepsiptera with 1 family. The most commonly found species that act as natural enemies are Paratrechina longicornis. The conclusion of this study was the order of insects found as natural enemies at the research site were 7, with the largest number of families was in Hymenoptera. Family with the highest number of individuals as natural enemies was Formicidae from Hymenoptera.

Abrams, P. A. (2000). The evolution of predator-prey interactions: Theory and evidence. Annual Review of Ecology and Systematics, 31, 79-105. doi: 10.1146/annurev.ecolsys.31.1.79.

Aktar, W., Sengupta, D., & Chowdhury, A. (2009). Impact of pesticides use in agriculture: Their benefits and hazards. Interdisciplinary Toxicology, 2(1), 1-12. doi: 10.2478/v10102-009-0001-7.

Al-Zaidi, A. A., Elhag, E. A., Al-Otaibi, S. H., & Baig, M. B. (2011). Negative effects of pesticides on the environment and the farmers awareness in Saudi Arabia: A case study. Journal of Animal and Plant Sciences, 21(3), 605-611.

Alba, M. C. (1988). Trichogrammatids in the Philippines. Philipp Entomol, 7(3), 253-271.

Apriliyanto, E., & Sarno. (2001). Pemantauan keanekaragaman hama dan musuh alami pada ekosistem tepi dan tengah tanaman kacang tanah (Arachis hypogaea L.). Journal of Superconductivity, 14(4), 69-74. doi: 10.20884/1.mib.2018.35.2.603.

Ashmead, W. H. (1904). A list of the Hymenoptera of the Philippines Islands, with the descriptions of new species. Journal of the New York Entomological Society, 12(1), 1-22.

Baquero, E., & Jordana, R. (1999). Species of Anagrus Haliday, 1833 (Hymenoptera, Chalcidoidea, Mymaridae) in Navarra (Spain). Miscel-lania Zoologica, 22(2), 39-50.

Bischoff, M., Lord, J. M., Robertson, A. W., & Dyer, A. G. (2013). Hymenopteran pollinators as agents of selection on flower colour in the New Zealand mountains: Salient chromatic signals enhance flower discrimination. New Zealand Journal of Botany, 51(3), 181-193.

Buhl, P. N. (2006). Key to Platygaster (Hymenoptera, Platygastridae) from Denmark, with descriptions of new species. Steenstrupia, 29(2), 127-167.

Buhl, P. N. (2011). Species of Platygastrinae and Sceliotrachelinae from rainforest canopy in Tanzania, with keys to he Afrotropical species of Amblyaspis, Inostemma, Leptacis, Platygaster and Synopeas (Hymenoptera, Platygastridae). Tijdschrift voor Entomologie, 154, 75-126.

Choi, J. K., & Lee, J. W. (2008). Taxonomic study of the genus Charops Holmgren (Hymenoptera: Ichneumonidae: Campopleginae) from the Eastern Palaeartic Region. Entomological Research, 38, 157-164.

Efendi, S. (2016). Analisis keanekaragaman Coccinellidae predator dan kutu daun (Aphididae spp.) pada ekosistem pertanaman cabai di Sumatera Barat. Jurnal BiBieT: Penelitian Pertanian dan Peternakan, 1(2), 67-80. doi: 10.22216/jbbt.v1i2.1697.

Engel, M. S., & Haas, F. (2007). Family-group names for earwigs (Dermaptera). American Museum Novitates, 3567(1), 1. doi: 10.1206/0003-0082(2007)539[1:fnfed]2.0.co;2.

Erniwati,. & Ubaidillah, R. (2011). Hymenopteran parasitoids associated with the banana-skipper Erionata thrax L. (Insecta: Lepidoptera, Hesperiidae) in Java, Indonesia. Biodiversitas, 12(2), 76-85

Fernandes, F. L., Bacci, L., & Fernandes, M. S. (2010). Impact and selectivity of insecticides to predators and parasitoids. EntomoBrasilis, 3(1), 1-10. doi: 10.12741/ebrasilis.v3i1.52.

Forbes, A. A., Bagley, R. K., Beer, M. A., Hippee, A. C., & Widmayer, H. A. (2018). Quantifying the unquantifiable: Why Hymenoptera, not Coleoptera, is the most speciose animal order. BMC Ecology, 18(1), 1-11. doi: 10.1186/s12898-018-0176-x.

Ghazali, A., Asmah, S., Syafiq, M., Yahya, M. S., Aziz, N., Tan, L. P., … Azhar, B. (2016). Effects of monoculture and polyculture farming in oil palm smallholdings on terrestrial Arthropod diversity. Journal of Asia-Pacific Entomology, 19(2), 415-421. doi: 10.1016/j.aspen.2016.04.016.

Gibson, G. A. P., Huber, J. T., & Woolley, J. B. (1997). Annotated keys to the genera of nearctic Chalcidoidea (Hymenoptera). Ottawa, Canada (CA): NRC Research Press.

Goulet, H. & Huber, J. T. (1993). Hymenoptera of the world: An identification guide to families. Ottawa (UK): Centre for land and Biological Resources Research.

Grissell, E. E., & Schauff, M. E. (1990). A handbook of the families of nearctic Chalcidoidea (Hymenoptera). Washington (US): The Entomological Society of Washington.

Gunawardene, N., & Taylor, C. (2012). New records of Elasmus (Hymenoptera, Eulophidae) species from Barrow Island, Western Australia. Journal of Hymenoptera Research, 29, 21-35.

Hansson, C. (1986). Revision of the new world species of Chrysocharis Förster (Hymenoptera: Eulophidae). Entomologica Scandinavia Supplement, 29, 1-86.

Help, C. H. R., Herman, P. M. J., & Soetaert, K. (1998). Indices of diversity and evenness. Océanis, 24(2459), 61-87.

Hendrival, H., Hidayat, P., & Nurmansyah, A. (2015). Keanekaragaman dan kelimpahan musuh alami Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) pada pertanaman cabai merah di Kecamatan Pakem, Kabupaten Sleman, Daerah Istimewa Yogyakarta. Jurnal Entomologi Indonesia, 8(2), 96. doi: 10.5994/jei.8.2.96-109.

Huber, J. T. (2009). Introduction to the Mymaridae (Hymenoptera) of Fiji, with descriptions of two new species and comparison with the fairyflies of other Pacific Islands. Fiji Arthropods, 106, 17-34.

Inayat, T. P., Rana, S. A., Rana, N., Ruby, T., Siddiqi, M. J. I., & Khan, M. N. A. (2011). Predator-prey relationship among selected species in the croplands of central Punjab, Pakistan. Pakistan Journal of Agricultural Sciences, 48(2), 149-153.

Johnson, N. F. (1984). Sysmatics of neartic Telenomus. Classifications and revisions of the Podisi and Phymatae groups. Bulletin of the Ohio Biological Survey, 6(3), 113.

Kathirithamby, J. (1989). Review of the order Strepsiptera. Systematic Entomology, 14(1), 41-92. doi: 10.1111/j.1365-3113.1989.tb00265.x.

Kaur, G., & Sangha, K. S. (2016). Diversity of Arthropod fauna associated with chilli (Capsicum annuum L.) in Punjab. Journal of Entomology and Zoology Studies, 4(5), 390-396.

Kurniawati, N. (2015a). Keragaman dan kelimpahan musuh alami hama pada habitat padi yang dimanipulasi dengan tumbuhan berbunga. Ilmu Pertanian (Agricultural Science), 18(1), 31. doi: 10.22146/ipas.6175.

Kurniawati, N. (2015b). Peran tumbuhan berbunga sebagai media konservasi Artropoda musuh alami. Jurnal Perlindungan Tanaman Indonesia, 19(2), 53-59.

Lansky, E. P., Paavilainen, H. M., Pawlus, A. D., & Newman, R. A. (2008). Ficus spp.(fig): Ethnobotany and potential as anticancer and anti-inflammatory agents. Journal of Ethnopharmacology, 119(2), 195-213.

LaSalle, J., & Gauld, I. (1991). Parasitic Hymenoptera and the biodiversity crisis. Redia: Journal of Zoologi, 74(3), 515-334.

Mariyono, J., & Irham. (2001). Usaha menurunkan penggunaan pestisida kimia dengan program pengendalian hama terpadu. Manusia dan Lingkungan, VIII(l), 30-36. doi: 10.22146/jml.18570.

Markiewicz, K., & Meyer, G. A. (2016, April 7-9). Survey of Hymenoptera pollinator populations on Washington Island, Wisconsin. Paper presented at the Proceedings of The National Conference On Undergraduate Research (NCUR), University of North Carolina Aheville, Aheville, North Carolina, United States. Retrieved from https://www.ncurproceedings.org/ojs/index.php/NCUR2016/article/view/2052/1111

Masner, L. (2012). Revisionary notes and keys to world genera of Scelionidae (Hymenoptera: Proctotrupoidea). Memoirs of the Entomological Society of Canada, 97, 1-87.

Peverieri, G. S., Talamas, E., Bon, M. C., Marianelli, L., Bernardinelli, I., Malossini, G., … Hoelmer, K. (2018). Two Asian egg parasitoids of Halyomorpha halys (Stål) (Hemiptera, Pentatomidae) emerge in Northern Italy: Trissolcus mitsukurii (Ashmead) and Trissolcus japonicus (Ashmead) (Hymenoptera, Scelionidae). Journal of Hymenoptera Research, 53(67), 37-53. doi: 10.3897/jhr.67.30883.

Pohl, H., & Beutel, R. G. (2013). The Strepsiptera-Odyssey: The history of the systematic placement of an enigmatic parasitic insect order. Entomologia, 1e4, 17-26. doi: 10.4081/entomologia.2013.e4.

Qodir, H. A., Maryana, N., & Pudjianto, P. (2017). Biologi Scelio pembertoni Timberlake (Hymenoptera: Scelionidae) pada telur Oxya japonica (Thunberg) (Orthoptera: Acrididae). Jurnal Entomologi Indonesia, 14(2), 58-68. doi: 10.5994/jei.14.2.58.

Quicke, D. L. J., & Sharkey, M. J. (1989). A key to and notes on the genera of Braconinae (Hymenoptera: Braconidae) from America North of Mexico with descriptions of two genera and three new species. Canadian Entomologist, 121(4-5), 337-361.

Rasplus, J.-Y., Villemant, C., Paiva, R., M., Delvare, G., & Roques, A. (2010). Hymenoptera chapter 12. BioRisk, 4(July), 669-776. doi: 10.3897/biorisk.4.55.

Saeed, R., Razaq, M., & Hardy, I. C. W. (2015). The importance of alternative host plants as reservoirs of the cotton leaf hopper, Amrasca devastans, and its natural enemies. Journal of Pest Science, 88(3), 517-531. doi: 10.1007/s10340-014-0638-7.

Sheng, M. L., & Pei, H. C. (2002). Two new species of genus Cosmoconus Foerster from Henan (Hymenoptera: Ichneumonidae). Acta Entomologica Sinica, 45, 96-98.

Souza, I. L., Tomazella, V. B., Santos, A. J. N., Moraes, T., & Silveira, L. C. P. (2018). Parasitoids diversity in organic sweet pepper (Capsicum annuum) associated with basil (Ocimum basilicum) and marigold (Tagetes erecta). Brazilian Journal of Biology, 79(4), 603-611. doi: 10.1590/1519-6984.185417.

Stahlhut, J. K., Fernández-Triana, J., Adamowicz, S. J., Buck, M., Goulet, H., Hebert, P. D. N., … Smith, M. A. (2013). DNA barcoding reveals diversity of Hymenoptera and the dominance of parasitoids in a sub-arctic environment. BMC Ecology, 13(2), 1-13. doi: 10.1186/1472-6785-13-2.

Tamesse, J. L. (2009). Key for identification of the Hymenopteran parasitoids of the African citrus psylla Trioza erytreae Del Guercio (Hemiptera: Triozidae) in Cameroon. African Journal of Agricultural Research, 4(1), 85-91.

Taye, R. R., Bathari, M., & Borkataki, S. (2017). Diversity of Hymenopteran predators and parasitoids in Assam Agricultural University Campus, Jorhat. Journal of Entomology and Zoology Studies, 5(6), 2420-2423.

Van Achterberg, C. (2007). Revision of the genus Spinaria Brulle (Hymenoptera: Braconidae: Rogadinae), with keys to genera and species of the subtripe Spinariina van Achterberg. Zooligal Mededelingen, 81(2), 11-83.

Vanderhaegen, K., Naturinda, Z., Mesmer, L., Kouakou, M., & Vanderheyden, A. (2019). First record of the invasive longhorn crazy ant, Paratrechina longicornis (Latreille, 1802) (Hymenoptera: Formicidae) from Mt . Elgon, Eastern Uganda. BioInvasions Records, 8(3), 505-514.

Varenhorst, A. J., & O'neal, M. E. (2012). The response of natural enemies to selective insecticides applied to soybean. Environment Entomology, 41(6), 1565-1574.

Watanabe, C. (1932). Notes on Braconidae of Japan. Insecta Matsumurana, 7(1), 74-102.

Wetterer, J. K. (2008). Worldwide spread of the longhorn crazy ant, Paratrechina longicornis (Hymenoptera: Formicidae). Myrmecological News, 11, 137-149.

Wharton, R. A., Marsh, P. M., Sharkey, M. J., Dangerfield, P. C., Marsh, P. M., Quicke, D. L. J., … Whitfield, J. B., (1997). Manual of the new world genera of the family Braconidae (Hymenoptera). Washington DC (US): Allen Press.

Xu, Z. (2002). Revision of the genus Microterys (Hymenoptera: Encyrtidae) of China. Zooligal Mededelingen, 76(17), 211-270.