Insects found in different ages of coconut viridis variety in Sri Tiga Village, Banyuasin District, South Sumatra, Indonesia

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ERISE ANGGRAINI
TESSIA MASNITA SINAGA
CHANDRA IRSAN
SITI HERLINDA
AHMAD MUSLIM
HARMAN HAMIDSON
MARLIN SEFRILA
ASTUTI KURNIANINGSIH
DESI ARYANI
MIRZA ANTONI
ZAHLUL IKHSAN

Abstract

Abstract. Anggraini E, Sinaga TM, Irsan C, Herlinda S, Muslim A, Hamidson H, Sefrila M, Kurnianingsih A, Aryani D, Antoni M, Ikhsan Z. 2024. Insects found in different ages of coconut viridis variety in Sri Tiga Village, Banyuasin District, South Sumatra, Indonesia. Biodiversitas 25: 2637-2647. Coconut (Cocos nucifera L.) is a high-value export commodity and has promising potential on the global market. The existence of insect species is very important in coconut cultivation. The coexistence of insects and plants is interconnected because plants provide habitat and food sources for insects. However, the correlation between plants and insects still needs to be discovered to many people. Therefore, a comprehensive assessment of insect biodiversity in an environment is important to be carried out. This study revealed the structure of the insect community associated with coconut plants and weeds around coconut trees. Therefore, this is a novel and pioneering study that aims to determine the insects associated with coconut plants. This study was conducted by surveying community-owned coconut plantations in Sri Tiga Village, Sumber Marga Telang Sub-district, Banyuasin District, South Sumatera, Indonesia. The observation was carried out during July and September of 2023. The data-gathering process involved identifying three coconut plantations with varying ages of coconut trees (8, 5, and 2 years old). Data collection was carried out using the purposive sampling method by direct observations and using traps such as insect nets, light traps, and pheromone traps. Collected specimens were identified using a microscope in the Laboratory of Entomology, Department of Plant Pests and Disease, Faculty of Agriculture, Universitas Sriwijaya. The results of this study found 12 insect species in coconut trees, namely Oryctes rhinoceros Linnaeus 1758, Aspidiotus sp., Nipaecoccus nipae Maskell 1893, Aleurocanthus sp., Apis cerana Fabricius 1793, Cotesia congregata Say 1836, Dolichoderus thoracicus Smith 1860, Oecophylla smaragdina Fabricus 1775, Provespa sp., Pteroma pendula de Joannis 1929, Metura sp., Metisa plana Walker 1883. The predominant insect pests identified were Aspidiotus sp., N. nipae, and Aleurocanthus sp. Furthermore, the most predominant insects that served as insect scavengers were Polyrhachis sp. and O. smaragdina. Meanwhile, in the weeds around coconut trees, there were found six insect species, namely Aulacophora lewisii Baly 1866, Eumorphus westwoodi Guérin 1858, Mactrotermes sp., Conocephalus sp., Dianemobius sp., and Tettigidea sp.

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References
Andersen AN, Kohout RJ, Trainor CR. 2013. Biogeography of timor and surrounding Wallacean Islands: Endemism in ants of the genus Polyrhachis Fr. Smith. Diversity 5 (1): 139-148. DOI: 10.3390/d5010139.
Arumugam T. 2022. Improving coconut using modern breeding technologies. Plants 11: 1-22. DOI: 10.3390/plants11243414.
Aulia AN, Chasanah N, Prasetyo AS, Nalawati AN. 2020. Competitiveness and export similarity of Indonesia'’s coconut oil. J Agribest 04: 123-132. DOI: 10.32528/agribest.v4i2.3546.
Badan Pusat Statistik. 2023. Luas Areal dan Produksi Perkebunan Kelapa Rakyat Menurut Kecamatan. https://banyuasinkab.bps.go.id/indicator/54/151/1/luas-areal-dan-produksi-perkebunan-kelapa-rakyat-menurut-kecamatan.html. [Indonesian]
Beaver EP. 2020. Revision of the genus Metura (Lepidoptera: Psychidae) with description of two new species. Zootaxa 4861 (2): 188-210. DOI: 10.11646/zootaxa.4861.2.2.
Benoit JB, Mccluney KE, Degennaro MJ. 2023. Dehydration dynamics in terrestrial arthropods: from water sensing to trophic interactions. Annu Rev Entomol 68: 129-149. DOI: 10.1146/annurev-ento-120120-091609.
Borror DJ, Delong DM. 1971. An Introduction To The Study Of Insect 3rd Ed. Holt. Rinehard and Winston, New York.
Chandra R., Abdul M, Sharma N, Bharathi K, Singh S. 2023. The role of insects in ecosystems, an in-depth review of entomological. Intl J Environ Clim Chang 13: 4340-4348. DOI: 10.9734/IJECC/2023/v13i103110.
Chowdhury S, Dubey VK, Choudhury S, Kumar N, Semwal A, Kumar V. 2023. Insects as bioindicator?: A hidden gem for environmental monitoring. Front Environ Sci 11: 1-16. DOI: 10.3389/fenvs.2023.1146052.
da Silva Santos AC, Pedroso SKB, Alves AL, Diniz AG, de Oliveira NT, Tiago PV. 2023. Fusarium species associated with citrus blackfly (Aleurocanthus woglumi) from an agroecological polyculture in Brazil, including an augmented description of F. volatile. Mycologia 116 (1): 92-105. DOI: 10.1080/00275514.2023.2283944.
David BV, Manjunatha M. 2003. A new species of Aleurocanthus Quaintance & Baker (Homoptera: Aleyrodidae) from Areca catechu in India, with comments on the status of Aleurodes nubilans Buckton. Zootaxa 173 (1): 1-4. DOI: 10.11646/zootaxa.173.1.1.
de Micheaux PL, Drouilhet R, Liquet B. 2013. The R Software: Fundamentals of Programming and Statistical Analysis. Springer, New York. DOI: 10.1007/978-1-4614-9020-3.
Dewi MAK, Aurina DM, Faturrahman AD, Fatikha LA, Rachmalia F, Ainaya FA, Kinanthi A, Rohman CM, Fadzilah FPA, Pramudita DA, Ramadhan MF, Mahajoeno E, Nugroho GD, Sujarta P, Dadiono MS, Yap CK, Rahim KABA, Setyawan AD. 2023. Ecological index and economic potential of mollusks (Gastropods and Bivalves) in Ayah Mangrove Forest, Kebumen District, Indonesia. Biodiversitas 24 (2): 1231-1241. DOI: 10.13057/biodiv/d240265.
Egonyu JP, Baguma J, Martínez LC, Priwiratama H, Subramanian S, Tanga CM, Anankware JP, Roos N, Niassy S. 2022. Global advances on insect pest management research in oil palm. Sustainability 14 (23): 16288. DOI: 10.3390/su142316288.
Exélis MP, Ramli R, Ibrahim RW, Idris AH. 2023. Foraging behaviour and population dynamics of asian weaver ants: assessing its potential as biological control agent of the invasive bagworms Metisa plana (Lepidoptera: Psychidae) in oil palm plantations. Sustainability 15 (1): 780. DOI : 10.3390/su15010780.
Ganganalli SM, Bhaskar H, Joshi, S, Vidya CV. 2023. Diversity of aphid fauna (Hemiptera: Aphididae) of Kerala. Indian J Entomol 86 (2): 478-485. DOI: 10.55446/ije.2023.742.
Haneda NF, Wibowo C, Hasbi M. 2017. Peranan arthropoda di ekosistem ekoton dan kelapa sawit. Jurnal Silvikultur Tropika 8: 116-122. DOI: 10.29244/j-siltrop.8.2.116-122. [Indonesian]
Hasibuan EW, Siregar AZ, Pinem MI. 2019. Diversity of insect in coconut plant in Kelurahan Besar, Medan Labuhan District, North of Sumatra. Intl J Trend Res Develop 6: 7-13.
Hassan R, Attia SSS, Elhefny A. 2023. Insecticidal Effects and chemical composition of lemongrass and peppermint essential oils against the Coconut Mealybug, Nipaecoccus nipae (Maskell), (Hemiptera: Pseudococcidae). Egypt J Biol Sci F Toxicol Pest Cont 15 (1): 47-61. DOI: 10.21608/eajbsf.2023.287294.
Heinrichs EA. 1994. Biology and Management of Rice Insect. International Rice Research Institute. Philippines.
Henrietta HM, Kalaiyarasi K, Raj AS. 2022. (Cocos nucifera) products?: A review of global cultivation and its benefits. J Sustain Environ Manag 1 (2): 257-264. DOI: 10.3126/josem.v1i2.45377.
Hill DS. 1994. Agricultural Entomology. Timber Press, Portland Oregon.
Hill DS. 1997. The Economic Importance of insect. Chapman & Hall, London. DOI: 10.1007/978-94-011-5348-5.
Hoe TK. 2019. The current scenario and development of the coconut industry. Planter Kuala Lumpur 94 (1108): 413-426. DOI: 10.56333/tp.2018.010.
Howard FW, Moore D, Giblin-Davis RM, Abad RG. 2001. Insect on Palms. CABI Publishing, London. DOI: 10.1079/9780851993263.0000.
Iswara D, Afifah L, Abadi S, Prabowo D, Irfan B, Widiawan AB. 2022. Kelimpahan serangga pada berbagai perangkap dengan beberapa teknik pengendalian berbeda pada pertanaman jagung pioneer 36. Jurnal Agroplasma 9: 213-224. DOI: 10.36987/agroplasma.v9i2.3173. [Indonesian]
Kalshoven LG. 1981. The Pest of Crops in Indonesia. Van Hoeve, Jakarta.
Kapantaidaki DE, Antonatos S, Kontodimas D, Milonas P, Papachristos DP. 2019. Presence of the invasive whitefly Aleurocanthus spiniferus (Hemiptera: Aleyrodidae) in Greece. EPPO Bull 49 (1): 127-131. DOI: 10.1111/epp.12533.
Karenina T, Herlinda S, Irsan C, Pujiastuti Y. 2019. Abundance and species diversity of predatory arthropods inhabiting rice of refuge habitats and synthetic insecticide application in freshwater swamps in South Sumatra, Indonesia. Biodiversitas 20 (8): 2375-2387. DOI: 10.13057/biodiv/d200836.
Kavitha K, Preetha G, Selvarani A, Hassan NS, Swarnapriya R. 2023. Occurrence and distribution of major pests and diseases of coconut during roving survey in Kanyakumari district of Tamil Nadu. J Krishi Vigyan 11 (Suppl): 156-160. DOI: 10.5958/2349-4433.2023.00104.6.
Keylock C. 2005. Simpson diversity and the Shannon-Wiener index as special cases of a generalized entropy. Oikos 109 (1): 203-207. DOI: 10.1111/j.0030-1299.2005.13735.x.
Lindenmayer DB, Laurance WF. 2016. The ecology, distribution, conservation and management of large old trees. Biol Rev 93: 1434-1458. DOI: 10.1111/brv.12290.
Manosathiyadevan M, Bhuvaneshwari V, Latha R. 2017. Impact of insects and pests in loss of crop production: a review. In: Dhanarajan (eds). Sustainable Agriculture Towards Food Security. Springer, Singapore 57-67. DOI: 10.1007/978-981-10-6647-4_4.
Manurung CF, Anwar R. 2023. Population dynamics of the bagworm, Clania tertia Templeton (Lepidoptera: Psychidae) on immature oil palm at Pelalawan Regency, Riau. IOP Conf Ser: Earth Environ Sci 1208 (1): 012019. DOI 10.1088/1755-1315/1208/1/012019.
Maruthadurai R, Ramesh, R. 2020. Mass trapping of red palm weevil and rhinoceros beetle in coconut with aggregation pheromone. Indian J Entomol 82: 439-441. DOI: 10.5958/0974-8172.2020.00114.5.
Mcalpine JF, Peterson BV, Shewel GE, Teskey HJ, Vockeroth JR, Wood DM. 1987. Manual of neartic Diptera. Agriculture Canada. Research Branch, Canada.
Melone G, Ascolese R, Nugnes F, Porcelli F, Rapisarda C, Farina A, Picciotti U, Garganese F, Laudonia S. 2024. An Eretmocerus species, parasitoid of Aleurocanthus spiniferus, Was Found in Europe: The Secret Savior of Threatened Plants. Sustainability 16 (7): 2970. DOI: 10.3390/su16072970.
Mohan C, Josephrajkumar A, Prathibha PS, Sujithra M, Sajan JV, Anes KM. 2022. Pests and their management in coconut. In: Mani M (eds). Trends in Horticultural Entomology. Springer, Singapore. DOI: 10.1007/978-981-19-0343-4_60.
Moreira MM, Reitas LF. 2020. Review of the pollination system by small diverse insects. Neotrop Entomol 49 (4): 472-481. DOI: 10.1007/s13744-020-00779-6.
Myers JH, Sarfraz RM. 2017. Impacts of insect herbivores on plant populations. Ann Rev Entomol 62 (1): 207-230. DOI: 10.1146/annurev-ento-010715-023826.
Ofer J. 1970. Polyrhachis simplex the weaver ant of israel Insectes Sociaux 17: 49-8117: 49-81. DOI: doi.org/10.1007/BF02223772.
Okazaki M, Kimura SD, Suzette LB, Igura M, Quevedo MA, Ando T, Yonebayashi K. 2012. Bagworm (Pteroma pendula) infestation of sago palm (Metroxylon sagu Rottb.) in Leyte, Philippines. Sago Palm 20 (2): 69-75. DOI: 10.57418/sagopalm.20.2_69.
Paliama HG, Latumahina FS, Wattimena CMA. 2022. Keanekaragaman serangga dalam kawasan hutan mangrove di Desa Ihamahu. Jurnal Tengkawang 12: 94-104. DOI: 10.26418/jt.v12i1.53861. [Indonesian]
Parnidi P, Sunarto DA, Marjani M. 2022. Shoot borers beetle pest of coconut (Oryctes rhinoceros L.) investment at Agave spp. Bioeduscience 6: 89-95. DOI: 10.22236/j.bes/616282.
Paudel S, Jackson TA, Mansfield S, Ero M, Moore A, Marshall SDG. 2023. Use of pheromones for monitoring and control strategies of coconut rhinoceros beetle (Oryctes rhinoceros): A review. Crop Protect 174: 106400. DOI: 10.1016/j.cropro.2023.106400.
Paudel S, Mansfield S, Villamizar LF, Jackson TA, Marshall SDG. 2021. Can biological control overcome the threat from newly invasive coconut rhinoceros beetle populations (Coleoptera: Scarabaeidae)? A review. Annals Entomol Soc Am 114: 247-256. DOI: 10.1093/aesa/saaa057.
Paudel S, Marshall SDG, Richards NK, Hazelman G, Tanielu P, Jackson TA. 2022. Coconut rhinoceros beetle in Samoa: Review of a century-old invasion and prospects for control in a changing future. Insects 13 (5): 487. DOI: 10.3390/insects13050487.
Purnomo H, Okarda B, Dermawan A, Pebrial Q, Pacheco P, Nurfatriani F, Suhendang E. 2020. Forest policy and economics reconciling oil palm economic development and environmental conservation in Indonesia: A value chain dynamic approach. For pol Econ 111: 1-12. DOI: 10.1016/j.forpol.2020.102089.
Rahayuwati S, Kusumah YM, Prawirosukarto S, Dadang, Santoso T. 2020. The status of Oryctes rhinoceros nudivirus (OrNV) infection in Oryctes rhinoceros (Coleoptera: Scarabaeidae) in Indonesia. J Oil Palm Res 32: 582-589.
Rao NBVC, Snehalatharani A, Nischala A, Ramanandam G, Maheswarappa HP. 2018. Management of rhinoceros beetle (Oryctes rhinoceros L.) by biological suppression with Oryctes baculovirus in Andhra Pradesh. J Plant Crops 46: 124-127. DOI: 10.25081/jpc.2018.v46.i2.3725.
Santi I, Tarmadja S, Priambada KJ, Elfatma O. 2023. Keanekaragaman serangga perkebunan kelapa sawit di Provinsi Kalimantan Tengah. Jurnal Ilmiah Hijau Cendekia 8: 45. DOI: 10.32503/hijau.v8i1.2917. [Indonesian]
Schowalter TD. 2016. Insect Ecology: An Ecosystem Approach. Academic Press, Cambridge.
Schowalter TD. 2017. Arthropod diversity and functional importance in old-growth forests of North America. Forests 8 (4): 97. DOI: 10.3390/f8040097.
Serrana JM, Almarinez BJM, Barrion AT, Amalin DM. 2023. Ultrastructural characterization of the scale cover of cryptic Aspidiotus spp. (Hemiptera: Diaspididae) and the ovipositor of their parasitoids. Microsc Microanal 29: 825-831. DOI: 10.1093/micmic/ozac041.
Serrana JM, Ishitani N, Carvajal TM, Almarinez BJM, Barrion AT, Amalin DM, Watanabe K. 2019. Unraveling the genetic structure of the coconut scale insect pest (Aspidiotus rigidus Reyne) outbreak populations in the Philippines. Insects 10 (11): 374. DOI: 10.3390/insects10110374.
Souza E, Follett PA, Price DK, Stacy EA. 2008. Field suppression of the invasive ant Wasmannia auropunctata (Hymenoptera: Formicidae) in a tropical fruit orchard in Hawaii. J Econ Entomol 101 (4): 1068-1074. DOI: 10.1093/jee/101.4.1068.
Stam JM, Kroes A, Li Y, Gols R, Loon JJAV, Poelman EH, Dicke M. 2014. Plant interactions with multiple insect herbivores: From community to genes. Ann Rev Plant Biol 65: 689-713. DOI: 10.1146/annurev-arplant-050213-035937.
Subedi B, Poudel A, Aryal S. 2023. The impact of climate change on insect pest biology and ecology: Implications for pest management strategies, crop production , and food security. J Agirc Food Res 14: 100733. DOI: 10.1016/j.jafr.2023.100733.
Thomas GV, Krishnakumar V, Dhanapal R, Srinivasa Reddy DV. 2018. Preharvest Approaches to Control Insect Infestation in fruit. Elsevier, Amsterdam. DOI: 10.1007/978-981-13-2754-4_7.
Tiemann TT, Donough CR, Lim YL, Härdter R, Norton R, Tao HH, Jaramillo R, Satyanarayana T, Zingore S, Oberthür T. 2018. Chapter four-feeding the palm: A review of oil palm nutrition. Adv Agron 152: 149-243. DOI: 10.1016/bs.agron.2018.07.001.
Tougeron K, Brodeur J, Le Lann C, van Baaren J. 2020. How climate change affects the seasonal ecology of insect parasitoids. Ecol Entomol 45: 167-181. DOI: 10.1111/een.12792.
Vislobokov NA. 2017. Flowering biology of Aspidistra (a Sparagaceae): New data on pollination by dipteran insects. Plant Species Biol 32: 412-422. DOI: 10.1111/1442-1984.12175.
Ximenes R, Nurmalina R, Rifin A. 2021. Demand analysis of Indonesia'’s coconut crude oil in Germany. Rev Econ Finance 19: 281-285. DOI: 10.55365/1923.x2021.19.39.
Zainol FA, Arumugam N, Norhayate W, Daud W, Aisyah N, Suhaimi M. 2023. Coconut value chain analysis: A systematic review. Agriculture 13 (7): 1379. DOI: 10.3390/agriculture13071379.

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