Toxicology of Nuclear Polyhedrosis Virus, Botanical and Synthetic Pesticides on Mortality Rate of Crocidolomia binotalis (Zeller)
DOI:
https://doi.org/10.21123/bsj.2022.6154Keywords:
Ijen Crater, NPV, Preference, Recommendation, SustainableAbstract
Crocidolomia binotalis (Cb) (Zeller) is one of the main pests of cabbage which is difficult for farmers to control in the Ijen Crater in Indonesia. The demand for cabbage in Indonesia is increasing every year, so intensification efforts are continuously being made. Farmers intensively use synthetic pesticides as the primary control of Cb. The purpose of this study is to examine several control agents that can be used as an alternative to synthetic pesticides. Then, it provides recommendations to Ijen Crater farmers to adapt in reducing the use of synthetic pesticides. The biopesticide used was based on the Nuclear Polyhedrosis Virus strains of Spodoptera litura (SlNPV) and Helicoverpa armigera (HaNPV), botanical pesticides, and synthetic pesticides as a comparison treatment. SlNPv and HaNPV isolates were obtained from the Indonesian Sweetener and Fiber Crops Research Institute. The botanical pesticide formulas come from a combination of Azadiracta indica, Aglaia odorata, Ageratum conyzoides dried for one week and proposed to form flour. Then, it was extracted using 96% ethanol solvent, 0.5% tween 90 using a rotary evaporator at a temperature of 40oC. For synthetic pesticide, the treatment used the active ingredient Permethrin 20 mgL-1. The cb collected from the field was re-filtered in a Petri dish by providing artificial feed soaked with this material for 5 minutes. The highest mortality test results were found in the botanical pesticide formula with a value of 100% at 72 hours. Mortality in SlNPV and HaNPV tended to be stable with a maximum value of 72.02%. The results of mortality testing in the laboratory can be a recommendation for alternative control of Cb pests in cabbage plants in the field. In this case, it is an effort to reduce farmers' dependence on using synthetic pesticides.
Received 23/3/2021
Accepted 13/2/2022
Published Online First 20/7/2022
References
Building a common vision for sustainable food and agriculture; Principles And Approaches.Food And Agriculture Organization Of The United Nations. FAO.Rome 2014.
Wojtkowski P. Agroecology; Simplified and Explained.Pittsfield, Springer.MA, USA: 2019; 2-14p.
Gliessman SR,E Engles. The Ecology of Sustainable Food Systems. CRC Press: Newyork ; 2015: 3-21p.
Weinberger K, Srinivasan R. Farmers’ management of cabbage and cauliflower pests in India and their approaches to crop protection. J Asia Pac Entomol. 2009; 12(4): 253–9.
Patra S, Ganguly P, Barik SR, Goon A, Mandal J, Samanta A. Persistence behaviour and safety risk evaluation of pyridalyl in tomato and cabbage. Food Chem. 2020; 309: 1-10.
Alhasan BK, Sabr SH. Influence of the Surrounding Plants by Rapeseed Field on Population Density of Cabbage Aphid (Brevicoryne brassicae L.) and its Biological Enemies. Baghdad Sci J. 2010; 7(1): 1-8.
Al-Rawy M, Abdulhay HS. Study The Predation Efficiency of Chrysoperla carnea (Stephens)(Neuroptera :Chrysopidae) Larvae in Controlling Nymphs and Adults of Cabbage Aphid Brevicoryne brassicae(L.) (Homoptera :Aphididae). Baghdad Sci J. 2012; 9(3): 424-430.
Choi SW, Kim SS. Six new records of Crambidae (Lepidoptera) from Korea. J Asia Pac Biodivers. 2019; 12(3): 433–7. https://doi.org/10.1016/j.japb.2019.03.009.
Tadle FPJ. Choice of feeding sites, growth and survival by Crocidolomia pavonana. Thesis , University of Queensland ; 2016: 2-7P.
Slimi C, Prost M, Cerf M, Prost L. Exchanges among farmers’ collectives in support of sustainable agriculture: From review to reconceptualization. J Rural Stud. 2021; 1-11.
Alfarisy FK. Inspecting resources management through model residue pesticide on soil and crop quality. Prosiding Seminar Nasional Perteta, Institut Pertanian STIPER, Yogyakarta – Indonesia, 29-31 Agustus 2018 : 90-94
Alfarisy FK, Petrina JM, Andriyani I, Adibowo C. Typology of Agricultural Upstream Area of Watershed on Intensive Fertilizer Behaviour on Conservation of Natural Resources in Bedadung. In: IOP Conf Ser Earth Environ Sci. 2020: 1-15.
Alfarisy FK, Andriyani I, Adibowo C. Evaluation of water quality due to the use of intensive fertilizer on farmer level in the upstream of Bedadung Jember Watershed, East Java, Indonesia. J Degrade Min Land Manage. 2020; 7(4): 2502–2458.
Bass C, Jones CM. Editorial overview: Pests and resistance: Resistance to pesticides inarthropod crop pests and disease vectors: mechanisms, models and tools. Curr Opin Insect Sci. 2018; 27
Lengai GMW, Muthomi JW, Mbega ER. Phytochemical activity and role of botanical pesticides in pest management for sustainable agricultural crop production. Scientific African. 2020; 7: 1-13.
Kakoki S, Kamimuro T, Tsuda K, Sakamaki Y. Effect of partial pesticide spraying on the number of major pests and damage to new shoots of tea plants. J Asia Pac Entomol. 2019; 22(3): 826–37.
Tjahjadi B, Soewarno N, Mustikaningtiyas F. Good corporate governance and corporate sustainability performance in Indonesia: A triple bottom line approach. Heliyon. 2021; 7(3): 1-11.
Nawaz A, Ali H, Sufyan M, Gogi MD, Arif MJ, Ranjha MH, et al. Comparative bio-efficacy of nuclear polyhedrosis virus (NPV) and Spinosad against American bollwormm, Helicoverpa armigera (Hubner). Rev Bras Entomol. 2019; 63(4): 277–282.
Kitajima M, Abe T, Miyano-Kurosaki N, Taniguchi M, Nakayama T, Takaku H. Induction of natural killer cell-dependent antitumor immunity by the autographa californica multiple nuclear polyhedrosis virus. Mol Ther. 2008; 16(2): 261–268.
Oberemok V V., Laikova K V., Zaitsev AS, Gushchin VA, Skorokhod OA. The RING for gypsy moth control: Topical application of fragment of its nuclear polyhedrosis virus anti-apoptosis gene as insecticide. Pestic Biochem Phys. 2016; 131: 32–39.
Kerebba N, Oyedeji AO, Byamukama R, Kuria SK. Pesticidal activity of Tithonia diversifolia (Hemsl.) A. Gray and Tephrosia vogelii (Hook f.); phytochemical isolation and characterization: A review. S Afr J Bot. 2019; 121: 366–376.
Yudhita M R, KusumahY M. Pengaruh Instar Larva Hyposidra talaca Walker dan Hari Panen Polihedra Pascainokulasi terhadap Produksi Polihedra Nucleopolyhedrovirus. Prosiding seminar nasional perlindungan tanaman. Bogor: IPB University; 2015: 59-69.
Hoesain M, Prastowo S, Pradana AP. Combination of plant growth-promoting bacteria and botanical pesticide increases organic red rice yield and reduces the Leptocorisa acuta population. Biodiversitas. 2021; 22(4): 1686–1694.
Radhika S, Sahayaraj K, Senthil-Nathan S, Hunter WB. Individual and synergist activities of monocrotophos with neem based pesticide, Vijayneem against Spodoptera litura Fab. Physiol Mol Plant Pathol. 2018; 101: 54–68.
Kostić M, Popović Z, Brkić D, Milanović S, Sivčev I, Stanković S. Larvicidal and antifeedant activity of some plant-derived compounds to Lymantria dispar L. (Lepidoptera: Limantriidae). Bioresour Technol. 2008; 99(16): 7897–7901.
Neto Bandeira G, Augusto Gomes da Camara C, Martins de Moraes M, Barros R, Muhammad S, Akhtar Y. Insecticidal activity of Muntingia calabura extracts against larvae and pupae of diamondback, Plutella xylostella (Lepidoptera, Plutellidae). J King Saud Univ Sci. 2013; 25(1): 83–89.
Charleston DS, Kfir R, Dicke M, Vet LEM. Impact of botanical extracts derived from Melia azedarach and Azadirachta indica on populations of Plutella xylostella and its natural enemies: A field test of laboratory findings. Biol Control. 2006; 39(1): 105–114.
Yang H, Piao X, Zhang L, Song S, Xu Y. Ginsenosides from the stems and leaves of Panax ginseng show antifeedant activity against Plutella xylostella (Linnaeus). Ind Crops Prod. 2018; 124(2888): 412–417.
Kannan M, Vijayaraghavan C, Jayaprakash SA, Uthamsamy S. Studies on the biology and toxicity of newer insecticide molecules on cabbagehead caterpillar , Crocidolomia binotalis ( Zeller ) ( Lepidoptera : Pyralidae ) in India. 6th Int Work Manag Diamondback Moth Other Crucif Pests. 2008 Oct: 31–7.
Campos EVR, Proença PLF, Oliveira JL, Bakshi M, Abhilash PC, Fraceto LF. Use of botanical insecticides for sustainable agriculture: Future perspectives. Ecol Indic. 2019; 105: 483–495.
Senthil Nathan S, Young Choi M, Yul Seo H, Hoon Paik C, Kalaivani K, Duk Kim J. Effect of azadirachtin on acetylcholinesterase (AChE) activity and histology of the brown planthopper Nilaparvata lugens (Stål). Ecotoxicol Environ Saf. 2008; 70(2): 244–250.
Oberemok V V, Laikova K V, Zaitsev AS, Gushchin VA, Skorokhod OA. Data for increase of Lymantria dispar male survival after topical application of single-stranded RING domain fragment of IAP-3 gene of its nuclear polyhedrosis virus. Data Brief. 2016; 7: 514–517.
Yodsaoue O, Sonprasit J, Karalai C, Ponglimanont C, Tewtrakul S, Chantrapromma S. Diterpenoids and triterpenoids with potential anti-inflammatory activity from the leaves of Aglaia odorata. Phytochemistry. 2012; 76: 83–91.
Nugroho BW, Edrada RA, Wray V, Witte L, Bringmann G, Gehling M, et al. An insecticidal rocaglamide derivatives and related compounds from Aglaia odorata (Meliaceae). Phytochemistry. 1999; 51(3): 367–76.
Zhang H, Song ZJ, Chen WQ, Wu XZ, Xu HH. Chemical constituents from Aglaia odorata Lour. Biochem Syst Ecol. 2012; 41(14027): 35–40:
Ndacnou M, Pantaleon A, Saha Tchinda J bosco, Ngonkeu Mangapche EL, Keumedjio F, Begoude Boyoguemo D. Phytochemical study and anti-oomycete activity of Ageratum conyzoides Linnaeus. Ind Crops Prod. 2020; 153: 1-12.
Rioba NB, Stevenson PC. Ageratum conyzoides L. for the management of pests and diseases by small holder farmers. Ind Crops Prod. 2017 June; 110 : 22–29.
Chen YW, Wu CP, Wu TC, Wu YL. Analyses of the transcriptome of Bombyx mori cells infected with either BmNPV or AcMNPV. J Asia Pac Entomol. 2018; 21(1): 37–45. https://doi.org/10.1016/j.aspen.2017.10.009.
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