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International Journal Of Horticulture, Agriculture And Food Science(IJHAF)

Antifeedant test extracts of Hutun seeds against caterpillar pests Plutella xylostella on Sawi Plant

Alfrits Komansilan , Ni Wayan Suriani , Helen Joan Lawalata

International Journal of Horticulture, Agriculture and Food science(IJHAF), Vol-4,Issue-1, January - February 2020, Pages 1-9, 10.22161/ijhaf.4.1.1

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Application of the bioactive extract of the hutun seed (Barringtonia asiatica L.kurz) as an antifeedant in the Plutella xylostella Lcaterpillar pest on sawi plants ( Brassica juncea L.) was carried out. This study aims to determine the antifeedant activity of the hutun seed extract in controlling the caterpillar sawi Plutella xylostella. The method used in this research is a completely randomized design (CRD) method with 4 treatments and 3 repetitions. The concentrations used are 50 ppm, 100 ppm, 500 ppm and 1000 ppm as well as positive control and negative control. The results of the study were tested with one-way ANOVA and continued with the Least Significant Difference test (LSD). Results of the study show that there are differences antifeedant activity caterpillar pests Plutella xylostella on sawi plants that significant at different levels of concentration. The study was conducted in several stages starting from the stage of extraction of the hutun seed, phytochemical test, preparation of caterpillar test, antifeedant activity testing. As the treatment is the level of methanol concentration of 50 ppm, 100 ppm, 500 ppm and 1000 ppm. The parameter observed was the percentage of Feeding Reduction (FR). The test results showed antifeedant activity against caterpillars of Plutella xylostella supreme contained at a concentration of 500 ppm and 1000 ppm because it can hinder eating caterpillars test amounted to 27.80 % and 40.93 %.

Barringtonia asiatica seed, antifeedant, Plutella xylostella,sawi.

[1] Dono D & Prijono D. 1998. The insecticide activity of Aglaia harmsiana Perkins seed extracts and their fractions against larvae of Crocidolomia binotalis Zeller (Lepidoptera: Pyralidae). Bul. HPT.10: 19-28.
[2] Bernays EA and RF Chapman. 1994. Host Plant Selection by Phytophagous Insects. New York: Chapman &Hall.
[3] Prijono, D. and Pudjianto. 2008. Development of standardized formulations of plant-based insecticides based on pork leaf leaves (Tephrosia vogeliiHook. F., Leguminosae) and kemukus fruit (Piper cubebaL.f., Piperaceae) (Research Grant Program B Report). Bogor: Department of Plant Protection of IPB.
[4] Rompas, RMR, 2010. Marine Toxicology. Indonesian Maritime Council Secretariat. Ged Mina Bahari II. Ministry of Maritime Affairs and Fisheries. Jakarta.
[5] Rumape, O. 2013. Isolation and identification of compounds antif e e d an t From Leaves castor (Ricinus communisL) against the beetle Epilachna varivestis Mulsan t. Final Report Research doctor grant. Gorontalo State University. Gorontalo.
[6] Mitchell B. K and JF Sutcliffe. 1984. Sensory inhibition as a mechanism of feeding deterrence: effects of three alkaloids on leaf beetle feeding. Phys Entomol9: 57-64.
[7] Schmutterer H. 1997. Side-effects of neem (Azadirachta indica) products on insect pathogens and natural enemies of spider mites and insects. J. appl. Entomol. 121: 121-128.
[8] Kardinan, A 2005. Pesticides Vegetable Potions and Apklika sinya. Self-help Spreaders. Jakarta. Pp. 1-20.
[9] Komansilan A, Abdul L. A, Yanuwiadi B, and Kaligis DA 2012, Isolation and Identification of Biolarvicide from Soursop (Annona muricata Linn) Seeds to Mosquito (Aedes aegypti) Larvae. International Journal of Engineering & Technology IJET-IJENS Vol: 12 No: 03 pp 28-32
[10] Komansilan A, Suriani N W, Lawalata H. 2017. Toxic Tuba Root Extract Test as a Natural Insecticide on Larvae of Aedes aegypti Mosquito Vector of Dengue Fever . International Journal of ChemTech Research Vol.10, No.04 pp 522-528
[11] Komansilan A, Suriani NW, Lawalata HJ . 2019. Effectiveness of tuba root extract (Derris Elliptica L.) against the antifeedant of Crocidolomia binotalis caterpillar on sawi plant (Brassica juncea L). International Journal of Environment, Agriculture and Biotechnology. Vol-4, No. 5, pp 1505-1512. https://dx.doi.org/10.22161/ijeab.45.34
[12] Moniharapon, DD. 2001. The effectiveness of the Aglaia adorata branch extract Lour. (Meliaceae) Against Crocidolomia pavonana (F). (Lepidoptera: Pyralidae) in Broccoli plants. Thesis of the Bogor Agricultural Institute Postgraduate Program. 45-51.
[13] Syahputra, E. 2005. Bioactivity of Callophylum soutary Botanical Bypass I. (Clusiaceae) as Alternative Pest Control. Dissertation. IPB Graduate School.
[14] Syahputra, E. 2010. Barringtonia asiatica Seed Preparations: Activity on Crocidolomia pavonana Cabbage Pests in the Laboratory and Effectiveness in the Field. J. Tropical HPT. ISSN 1411-7525. Vol. 10, No. 2: 100-107.
[15] Rauf A, Prijono D, Dadang, Winasa IW & Russel DA. 2005. Survey on pesticide use by cabbage farmers in West Java, Indonesia. Report of Research Collaboration between Departments. Of plant Protection-IPB and LaTrobe University, Australia.
[16] Ayoola, GA, HAB Coker, SA Adesegun, AA Adepoju-Bello, K Obaweya, EC Ezennia and TO Atangbayila. Phytochmical Screening and Antioxidant Activities of Some Selected Medical Plants Used for Malaria Therapy in Nigeria, Tropical Journal of Pharmaceutical Research, September 2008; 7 (3): 1019-1024.
[17] Novian. 2004. Making and Utilizing Environmentally Friendly Pesticides. Kanisius. Yogyakarta.
[18] Farnsworth, NR, 1966, Biological and Phytochemical Screening of Plants. J. Pharm. Sci., 55 (3), 225-276.
[19] Mayanti T. et al., 2006. Antifeedant Compounds from Kokossan seeds, Relationship of Chemical Structures with Antifeedant Activity (Phase II). Research Report. Padjadjaran University. Bandung.
[20] Pracaya, 1999. Sawi Plant. Revised Edition. Self-help Spreaders. Jakarta in Sudarni 2010.
[21] Kalshoven, LGE 1981. The Pest of Crops in Indonesia. Rev. & trans by Van Der Laan & GHL Rothschild. PT Ichtiar Baru-Van Hoeve. Jakarta. 701 p.
[22] Garson, MJ (2010). Marine Natural Products as Antifeedant. In Comprehensive Natural Products II: Chemistry and Biology (pp. 503-537). Amsterdam: Elsevier.
[23] Tjokronegoro, RK, 1987. Search for Indonesian Plant Content Compounds Bioactive against insects, Desertasi, Bandung: Universitas Padjadjaran.
[24] Bell, E., Fellows, L.., & Simmonds, MS (1990) Natural Products from Plants for the Control of Insect Pests. In Safer Insecticides: Development and Use. New York: Marcel Dekker.
[25] Handayani, D., Edrada, RA, Proksch, P., Wray, V., Witte, L., Van Ofwegan, L., & Kunzmann, A. 1997. New Oxygenated sesquiterpenes from the Indonesian soft coral Nepthea chabrolii. Journal of Natural Products. 60 (7): 716-718.
[26] Liang, L, F., & Guo, YW 2013. Terpenes from the soft corals of the genus Sarcophyton: Chemistry and biological activities. Chemistry and Biodiversity. 10 (12): 2161-2196.
[27] Untung, K. 1996. Introduction to Integrated Pest Management. Yogyakarta: Gadjah Mada University Press.