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Toxin Reviews Volume 40, 2021 - Issue 4
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Research Article

Biologically active toxin identified from Artemisia annua against lesser mulberry pyralid, Glyphodes pyloalis

Marziyeh Oftadeha Faculty of Agricultural Sciences, Department of Plant Protection, University of Guilan, Rasht, IranView further author information
,
Jalal Jalali Sendia Faculty of Agricultural Sciences, Department of Plant Protection, University of Guilan, Rasht, Iran;b Faculty of Agricultural Sciences, Department of Silk research, University of Guilan, Rasht, IranCorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-4917-1068View further author information
ORCID Icon &
Asgar Ebadollahic Moghan College of Agriculture and Natural Resources, University of Mohaghegh Ardabili, Ardabil, IranView further author information
Pages 953-961 | Received 17 Jul 2020, Accepted 12 Aug 2020, Published online: 28 Aug 2020

References

  • Abbas, S., et al., 2014. Process optimization of ultrasound-assisted curcumin nanoemulsions stabilized by OSA-modified starch. Ultrasonics sonochemistry, 21 (4), 1265–1274.
  • Acosta, E., 2009. Bioavailability of nanoparticles in nutrient and nutraceutical delivery. Current opinion in colloid & interface science, 14 (1), 3–15.
  • Adak, T., et al., 2020. Nanoemulsion of eucalyptus oil: an alternative to synthetic pesticides against two major storage insects (Sitophilus oryzae (L.) and Tribolium castaneum (Herbst)) of rice. Industrial crops and products, 143, 111849.
  • Asbahani, A.E., et al., 2015. Essential oils: from extraction to encapsulation. International journal of pharmaceutics, 483 (1–2), 220–243.
  • Beltagy, B.I. and Omar, G.A., 2016. Alteration in some biological and biochemical parameters in Tribolium castaneum (Coleoptera: Tenebrionidae) due to garlic oil effect. International journal of Advanced biological and biomedical research, 9 (1), 1704–1714.
  • Benelli, G., et al., 2018. Mosquito control with green nanopesticides: towards the one health approach? A review of non-target effects. Environmental science and pollution research international, 25 (11), 10184–10206.
  • Benelli, G., et al., 2018. Acute and sub-lethal toxicity of eight essential oils of commercial interest against the filariasis mosquito Culex quinquefasciatus and the housefly Musca domestica. Industrial crops and products, 112, 668–680.
  • Bhakuni, R.S., et al., 2001. Secondary metabolites of Artemisia annua and their biological activity. Current science, 80, 35–48.
  • Coruh, S., Senel, G., and Ergun, O.N., 2010. A comparison of the properties of natural clinoptilolites and their ion-exchange capacities for silver removal. Journal of hazardous materials, 180 (1–3), 486–492.
  • Cheong, A. M., et al., 2018. Stability of bioactive compounds and antioxidant activities of kenaf seed oil-in-water nanoemulsions under different storage temperatures. Journal of Food Science, 83, 2457–2465.
  • Delams, T., et al., 2011. How to prepare and satbilize very small nanoemulsion. Langmuir journal, 27 (5), 1683–1692.
  • Detoni, C.B., et al., 2012. Evaluation of thermal-oxidative stability and antiglioma activity of Zanthoxylum tingoassuiba essential oil entrapped into multi- and unilamellar liposomes. Journal of liposome research, 22 (1), 1–7.
  • Ebadollahi, A. and Jalali Sendi, J., 2015. A review on recent research results on bio-effects of plant essential oils against major Coleopteran insect pests. Toxin reviews, 34 (2), 76–91.
  • Ebadollahi, A., Jalali Sendi, J., and Aliakbar, A., 2017. Efficacy of nanoencapsulated Thymus eriocalyx and Thymus kotschyanus essential oils by a mesoporous material MCM-41 against Tetranychus urticae (Acari: Tetranychidae). Journal of economic entomology, 110 (6), 2413–2420.
  • Ebadollahi, A., Ziaee, M., and Palla, F., 2020. Essential oils extracted from deferent species of the Lamiaceae plant family as prospective bioagents against several detrimental pests. Molecules, 25 (7), 1556.
  • Ghormade, V., Deshpande, M.V., and Paknikar, K.M., 2011. Perspectives for nano-biotechnology enabled protection and nutrition of plants. Biotechnology advances, 29 (6), 792–803.
  • Hashem, A.S., et al., 2018. Pimpinella anisum essential oil nanoemulsions against Tribolium castaneum-insecticidal activity and mode of action. Environmental science and pollution research international, 25 (19), 18802–18812.
  • Hasheminia, S.M., et al., 2011. The effect of Artemisia annua L. and Achillea millefolium L. crude leaf extracts on the toxicity, development, feeding efficiency and chemical activities of small cabbage Pieris rapae L. (Lepidoptera: Pieridae). Pesticide biochemistry and physiology, 99 (3), 244–249.
  • Horowitz, AR., Kontsedalov, S., and Ishaaya, I., 2004. Dynamics of resistance to the neonicotinoids actamiprid and thiamethoxam in Bemisia tabaci. Insecticides Resistance and Resistance Management, 97 (6), 2051–2056.
  • Ikbal, Ch., and Pavela, R., 2019. Essential oils as active ingredients of botanical insecticides against aphids. Journal of pest science, 92 (3), 971–986.
  • Isman, M.B., 2000. Plant essential oils for pest and disease management. Crop protection, 19 (8–10), 603–608.
  • Isman, M.B., 2015. A renaissance for botanical insecticides? Pest management science, 71 (12), 1587–1590.
  • Jalali, M. and Aliakbar, A., 2015. Synthesis, characterization and application of mercapto and polyaminophenol-bifunctionalised MCM-41 for dispersive micro solid phase extraction of Ni (II) prio to inductively coupled plasma-optical emission spectrometry (DMSPE-ICP-OES. International journal of environmental analytical chemistry, 95 (6), 542–555.
  • Jeelani, P.G., et al., 2020. Multifaceted application of silica nanoparticles. Silicon, 12 (6), 1337–1354.
  • Jesser, E., et al., 2020. Ultrasound assisted formation of essential oil nanoemulsions: emerging alternative for Culex pipiens pipiens Say (Diptera: Culicidae) and Plodia interpunctella Hübner (Lepidoptera: Pyralidae) management. Ultrasonics sonochemistry, 61, 104832.
  • Kalemba, D. and Kunicka, A., 2003. Antibacterial and antifungal properties of essential oils. Current medicinal chemistry, 10 (10), 813–829.
  • Khanahmadi, M., et al., 2017. Fumigant toxicity of Artemisia haussknechtii essential oil and its nano-encapsulated form. Journal of entomology and zoology studies, 5 (2), 1776–1783.
  • Khosravi, R., et al., 2011. Effect of sweet wormwood Artemisia annua crude leaf extracts on some biological and physiological characteristics of the lesser mulberry pyralid, Glyphodes pyloalis. Journal of insect science, 11 (1), 156.
  • Kljajic, P., et al., 2011. Possibilities of application of natural zeolites in stored wheat grain protection against pest insects. Journal on processing and energy in agriculture, 15 (1), 12–16.
  • Kumar, M., et al., 2017. Application of nanotechnology in enhancement of crop productivity and integrated pest management. In: R. Prasad, M. Kumar and V. Kumar, eds. Nanotechnology. Singapore (Singapore): Springer.
  • Lai, F., Wissing, S.A., and Müller, R.H., 2006. Artemisia arborescens l. essential oil loaded SLN for potential agricultural application: preparation and characterization. An official journal of the american association of pharmaceutical scientists, 7, E2.
  • Lee, B.H., et al., 2004. Fumigant toxicity of essential oils from the Myrtaceae family and 1,8-cineole against 3 major stored-grain insects. Journal of stored products research, 40 (5), 553–564.
  • LeOra Software., 2002. Polo Plus, a user’s guide to probit or logit analysis. Berkeley, CA: LeOra Software.
  • Liu, Y., et al., 2017. Comparative transcriptome analysis of Glyphodes pyloalis Walker (Lepidoptera: Pyralidae) reveals novel insights into heat stress tolerance in insects. BMC genomics, 18 (1), 974.
  • Martin, A., et al., 2010. Encapsulation and co-precipitation processes with supercritical fluids: applications with essential oil. The open chemical engineering journal, 4, 31–41.
  • Megha, P., et al., 2014. Insecticidal activity of eucalyptus oil nanoemulsion with karanja and jatropha aqueous filtrates. International biodeterioration & biodegradation, 91, 119–127.
  • Mojarab-Mahboubkar, M., Jalali Sendi, J., and Aliakbar, A., 2015. Effect of Artemisia annua L. essential oil on toxicity, enzyme activities, and energy reserves of cotton bollworm Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae). Journal of plant protection research, 55 (4), 371–377.
  • Natrajan, D., et al., 2015. Formulation of essential oil-loaded chitosan-alginate nanocapsules. Journal of food and drug analysis, 23 (3), 560–568.
  • Negahban, M., et al., 2013. Efficiency of nanoencapsulated essential oil of Artemisia sieberi Besser on nutritional indices of Plutella xylostella. Iranian Journal of Medicinal and Aromatic Plants, 29, 692–708.
  • Ormancey, X., Sisalli, S., and Coutiere, P., 2001. Formulation of essential oils in functional perfumery. Parfums, cosmetiques, actualities, 157, 30–40.
  • Osanloo, M., et al., 2017. Preparation and optimization nanoemulsion of Tarragon (Artemisia dracunculus) essential oil as effective herbal larvicide against Anopheles stephensi. Industrial crops and products, 109, 214–219.
  • Palla, F., et al., 2020. Essential oil as natural biocides in conservation of cultural heritage. Molecules, 25 (3), 730.
  • Pavela, R. and Benelli, G., 2016. Essential oils as ecofriendly biopesticides? Challenges and constraints. Trends in plant science, 21 (12), 1000–1007.
  • Pavoni, L., et al., 2020. An overview of micro- and nanoemulsions as vehicles for essential oils: formulation, preparation and stability. Nanomaterials, 10 (1), 135.
  • Pavoni, L., et al., 2019. Microemulsions: an effective encapsulation tool to enhance the antimicrobial activity of selected EOs. Journal of drug delivery science and technology, 53, 101101.
  • Raveau, R., Fontaine, J., and Sahraoui, A.L.H., 2020. Essential oils as potential alternative biocontrol products against plant pathogens and weeds: a review. Foods, 9 (3), 365.
  • Reddy, D.N.R. and Kotikal, Y.K., 1988. Pest of mulberry and their management. Indian silk, 10, 9–15.
  • Sahaf, B.Z., Moharramipour, S., and Meshkatalsadat, M.H., 2008. Fumigant toxicity of essential oil from Vitex pseudonegundo against Triboliumcastaneum (Herbst) and Sitophilusoryzae (L.). Journal of Asia-Pacific entomology, 11 (4), 175–179.
  • Sansukcharearnpon, A., et al., 2010. High loading fragrance encapsulation based on a polymer-blend: preparation and release behavior. International journal of pharmaceutics, 391 (1–2), 267–273.
  • Senthil-Nathan, S., 2020. A review of resistance mechanisms of synthetic insecticides and botanicals, phytochemicals, and essential oils as alternative larvicidal agents against mosquitoes. Frontiers In Physiology, 10, 1591
  • Shahriari, M., et al., 2019. Bio-efficacy and physiological effects of Eucalyptus globulus and Allium sativum essential oils against Ephestia kuehniella Zeller (Lepidoptera: Pyralidae). Toxin reviews, 1–12. DOI: https://doi.org/10.1080/15569543.2018.1554588.
  • Shekari, M., et al., 2008. Effects of Artemisia annua L. (Asteracea) on nutritional physiology and enzyme activities of elm leaf beetle. Pesticide biochemistry and physiology, 91 (1), 66–74.
  • Simonnet, X., Quennoz, M., and Carlen, C., 2008. New Artemisia annua hybrids with high artemisinin content. XXVII IHC-S2 Asian Plants with Unique Hort. Potential, Acta horticulturae, 769, 371–373.
  • Smith, K., Evans, D.A., and El-Hiti, G.A., 2008. Role of modern chemistry in sustainable arable crop protection. Philosophical transactions of the Royal Society of London. Series B, biological sciences, 363 (1491), 623–637.
  • Sugumar, S., et al., 2014. Nanoemulsion of eucalyptus oil and its larvicidal activity against Culex quinquefasciatus. Bulletin of entomological research, 104 (3), 393–402.
  • Suman, P.R., Jain, V.K., and Varma, A., 2010. Role of nanomaterials in symbiotic fungus growth enhancement. Current science, 99, 1189–1191.
  • Tadros, T., et al., 2004. Formation and stability of nanoemulsions. Advances in colloid and interface science, 108–109, 303–318.
  • Tripathi, A.K., et al., 2001. Toxicity, feeding deterrence, and effect of activity of 1,8-cineole from Artemisia annua on progeny production of Tribolium castanaeum (Coleoptera: Tenebrionidae). Journal of economic entomology, 94 (4), 979–983.
  • Wang, L., et al., 2007. Oil-in-water nanoemulsions for pesticide formulations. Journal of colloid and interface science, 314 (1), 230–235.
  • Watanabe, H., et al., 1988. Mulberry pyralid, Glyhodes pyloalis: habitual host of nonoccluded viruses pathogenic to the silkworm, Bombyx mori. Journal of invertebrate pathology, 52 (3), 401–408.
  • Xiao, F.S., et al., 2002. Hydrothermally stable ordered mesoporous titanosilicates with highly active catalytic sites. Journal of the American Chemical Society, 124 (6), 888–889.
  • Xie, D.-Y., et al., 2016. Artemisinin biosynthesis in Artemisia annua and metabolic engineering: questions, challenges, and perspectives. Phytochemistry reviews, 15 (6), 1093–1114.
  • Xu, R., et al., 2008. Chemistry of zeolites and related porous materials: synthesis and structure. Environmental engineering and management journal, 7 (1), 73–75.
  • Yazdani, E., Jalali Sendi, J., and Aliakbar, A., 2013. Chemical composition, toxicity and physiological effects of essential oil of Rosemarinus officinalis on lesser mulberry pyralid Glyphodes pyloalis walker (Lep: Pyralidae). Journal of crop protection, 3 (4), 461–476.
  • Yazdani, E., Jalali Sendi, J., and Hajizadeh, J., 2014. Effect of Thymus vulgaris L. and Origanum vulgare L. essential oils on toxicity, food consumption, and biochemical properties of lesser mulberry pyralid Glyphodes pyloalis Walker (Lepidoptera: Pyralidae). Journal of plant protection research, 54 (1), 53–61.
  • Yazdani, E., et al., 2013. Effect of Saturreja hortensis L. essential oil on feeding efficiency and biochemical properties of, Glyphodes pyloalis walker (Lep: Pyralidae). Archives of phytopathology and plant protection, 46 (3), 328–339.
  • Zaker, M., 2016. Natural plant products as eco-friendly fungicides for plant diseasescontrol–a review. The agriculturists, 14 (1), 134–141.
  • Zhang, Z., et al., 2017. Essential oil and polyacetylenes from Artemisia ordosica and their bioactivities against Tribolium castaneum Herbst (Coleoptera: Tenebrionidae). Industrial crops and products, 100, 132–137.
  • Zibaee, A., 2011. Botanical insecticides and their effects on insect biochemistry and immunity. Pesticides in the modern world–pests control and pesticides exposure and toxicity assessment, 4, 55–68.
  • Zibaee, A. and Bandani, A.R., 2010. A study on the toxicity of the medicinal plant, Artemisia annua L. (Astracea) extracts the Sunn pest, Eurygaster integriceps Puton (Heteroptera: Scutelleri dae). Journal of plant protection research, 50 (1), 54–79.

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