Efficacy of electrospun bionanofibers as fumigant pesticides in foodstuff storage

• Języki publikacji: EN

Abstrakty

EN

Essential oils as alternative synthetic pesticides for pest management of foodstuffs have recently received increased attention. Controlled and slow release formulations of essential oils are used to enhance their efficiency. Two volatile essential oils of Mentha piperita L. and Salvia officinalis L. were investigated for release rate and mortality percentage by fumigant toxicity against 1st instar larvae of Plodia interpunctella. Electrospinning was used to incorporate various concentrations of essential oils in nanofibers. Th e essential oils can be released from the nanofibers for long periods of time, from several days to several weeks. Poly(lactic acid) was used as a green polymer carrier and the essential oils were incorporated into the nanofi bers (8–15v/v% PLA). Insecticidal bioassay revealed that oil-loaded nanofibers (NFOs) were more toxic than pure essential oils (PEOs) against tested larvae. Th e LC50 and LT50 of NFOs were 1.2 and 4 times, respectively, more than PEOs. Our results indicated that PEOs completely lost their insecticidal activity after 14 days, whereas at the same period, NFOs had an average of 93% mortality when applied against P. interpunctella. Therefore, it can be concluded that nanofibers improved the persistence of the oil. This study presents S. officinalis has more toxicity and M. piperita had more persistence for controlling the larvae of indian meal moth.

• Wydawca: -
• Czasopismo: Journal of Plant Protection Research
• Rocznik: 2017
• Tom: 57
• Numer: 1
• Opis fizyczny: p.72-80,fig.,ref.

Twórcy

Bibliografia

• Ali A., Ahmad F., Biondi A., Wang Y., Densneux N. 2012. Potential for using Datura alba leaf extracts against two major stored grain pests, the khapra beetle Trogoderma granarium and the rice weevil Sitophillus oryzae. Journal of Pest Science 85 (3): 359–366.
• Angeles M., Cheng H., Velankar S.S. 2008. Emulsion electrospinning: Composite fi bers from drop breakup during electrospinning. Polymers for Advanced Technologies 19 (7): 728–733.
• Athanassiou C.G., Kavallieratos N.G., Evergetis E., Katsoula A.M., Haroutounian S.A. 2013. Insecticidal efficacy of silica gel with Juniperus oxycedrus spp. oxycedrus (Pinales: cupressaceae) essential oil against Sitophilus oryzae (Coleoptera: Curculionidae) and Tribolium confusum (Coleoptera: Tenebrionidae). Journal of Economic Entomology 106 (4): 1902–1910.
• Augusto F., Hantao L.W., Mogollón N.G.S., Braga S.C.G.N. 2013. New materials and trends in sorbents for solid-phase extraction. TrAC Trends in Analytical Chemistry 43: 14−23.
• Badawy M.E.I., Rabea E.I. 2013. Synthesis and structure–activity relationship of N-(cinnamyl) chitosan analogs as antimicrobial agents. International Journal of Biological Macromolecules 57: 185–192.
• Desneux N., Decourtye A., Delpuech J.M. 2007. Th e sublethal eff ects of pesticides on benefi cial arthropods. Annual Review of Entomology 52: 81–106.
• Dorman H.J., Deans S.G. 2000. Antimicrobial agents from plants: Antibacterial activity of plant volatile oils. Journal of Applied Microbiology 88 (2): 308–316.
• Frey M.W. 2008. Electrospinning cellulose and cellulose derivatives. Polymer Reviews 48 (2): 378–391.
• Finney D.J. 1971. Probit Analysis. 3rd ed. Cambridge University Press, London, UK, 333 pp.
• Fontenot E.A., Arthur F.H., Nechols J.R., Th rone J.E. 2012. Using a population growth model to simulate response of Plodia interpunctella Hübner to temperature and diet. Journal of Pest Science 85 (1): 163–167.
• Gao Q., Lan P., Shao H., Hu X. 2002. Direct synthesis with melt polycondensation and microstructure analysis of poly( L-lactic acid-co-glycolic acid). Polymer Journal 34 (11): 786−793.
• Griffith A.A. 1921. Th e phenomena of rapture and fl ow in solids. Royal Society of London 221: 163–198.
• Hammer K.A., Carson C.F., Riley T.V. 1999. Antimicrobial activity of essential oils and other plant extracts. Journal of Applied Microbiology 86 (6): 985–990.
• Hellmann C., Greiner A., Wendorff J.H. 2009. Design of pheromone releasing nanofi bers for plant protection. Polymers for Advanced Technologies 22 (4): 407−413.
• Huang Z.M., Zhang Y.Z., Kotaki M., Ramakrishna S. 2003. A review on polymer nanofi bers by electrospinning and their applications in nanocomposites. Composites Science and Technology 63 (15): 2223–2253.
• Islam M.S., Hasan M.M., Lei C., Mucha-Pelzer T., MeWis I., Ulrichs C. 2010. Direct and admixture toxicity of diatomaceous earth and monoterpenoids against the storage pests Callosobruchus maculatus (F.) and Sitophyllus oryzae (L.). Journal of Pest Science 83 (2): 105−112.
• Johnson J.A., Woff ord P.L., Whitehand L.C. 1992. Eff ect of diet and tempreature on development rates, survival, and reproduction of the Indianmeal moth (Lepidoptera: Pyralidae). Journal of Economic Entomology 85: 561−566.
• Kavanaugh N.L., Ribbeck K. 2012. Selected antimicrobial essential oils eradicate Pseudomonas spp. and Staphylococcus aureus biofi lms. Applied and Environmental Microbiology Journal 78 (11): 4057–4061.
• Korunic Z. 1998. Diatomaceous earths, a group of natural insecticides. Journal of Stored Products Research 34 (2): 87–97.
• Liu S.J., Kau Y.C., Chou C.Y., Chen J.H., Wu R.C., Yeh W.L. 2010. Electrospun PLGA/collagen nanofi brous membrane as early-stage wound dressing. Journal of Membrane Science 355 (1−2): 53–59.
• Maze B., Vahedi Tafreshi H., Wang Q., Pourdeyhimi B. 2007. A simulation of unsteady-state fi lteration via nanofi ber media at reduced operating pressures. Journal of Aerosol Science 38 (5): 550−557.
• Moretti M.D.L., Sanna-Passino G., Demontis S., Bazzoni E. 2002. Essential oil formulations useful as a new tool for the insect pest control. AAPS PharmSciTech 3 (2): 1−11.
• Mori C.L.S.O., Passos N.A., Oliveira J.E., Mattoso L.H., Mori F.A., Carvalho A.G., Fonseca A.S., Tonoli G.H.D. 2014. Electrospinning of zein/tannin bio-nanofi bers. Industrial Crops and Products 52: 298−304.
• Mori C.L.S.O., Passos N.A., Oliveira J.E., Mattoso L.H., Scolforo J.R., Tonoli L.H., Roberto J., Gustavo H.D. 2015. Nanostructured polylactic acid (PLA)/candeia essential oil mats obtained by electrospinning. Journal of Nanomaterials. Available on: https://www.researchgate.net/fi gure/270903479_fi g5_Schematic-diagram-of-the-electrospinning-setup
• Ojagh S.M., Rezaei M., Razavi S.H., Hosseini S.M.H. 2010. Development and evaluation of a novel biodegradable fi lm made from chitosan and cinnamon essential oil with low affinity toward water. Food Chemistry 122 (1): 161–166.
• Osborne J.W. 2010. Improving your data transformations: applying the Box-Cox transformation. Practical Assessment, Research and Evaluation 15 (2): 1−9.
• Pakravan M., Heuzey M.-C., Ajji A. 2011. A fundamental study of chitosan/PEO electrospinning. Polymer 52 (21): 4813–4824.
• Pimentel M.A.G., Faroni L.R.D., Guedes R.N.C., Sousa A.H., Totola M.R. 2009. Phosphine resistance in Brazilian populations of Sitophyllus zeamais Motschulsky (Coleoptera: Curculionidae). Journal of Stored Products Research 45 (1): 71−74.
• Rajendran S., Sriranjini V. 2008. Plant products as fumigants for stored-product insect control. Journal of Stored Products Research 44 (2): 126–135.
• Ress D. 2004. Insects of Stored Products. p. 89–141. CSIRO Publishing Colling-Wood, Victoria, Australia.
• Rieger K.A., Birch N.P., Schiff man J.D. 2014. Electrospinning an essential oil: Cinnamaldehyde enhances the antimicrobial effi cacy of chitosan/poly(ethylene oxide) nanofi bers. Carbohydrate Polymers 113: 561–568.
• Robertson G.L. 2006. Food Packaging Principles and Practice. 2nd ed. Boca Raton, Florida: CRC Press, USA, XX pp.
• Robertson J.L., Russell R.M., Preisler H.K., Savin, N.E. 2007. Bioassays with Arthropods. 2nd ed. CRC Press, Taylor and Francis Group, Boca Raton, Fl, USA, 224 pp.
• Ruggieri F., D’Archivio A.A., Di Camillo D., Lozzi L., Maggi M.A., Mercorio R., Santucci S. 2015. Development of molecularly imprinted polymeric nanofi bers by electrospinning and applications to pesticide adsorption. Journal of Separation Science 38 (8): 1402−1410.
• Rutledge G.C., Fridrikh S.V. 2007. Formation of fi bers by electrospinning. Advanced Drug Delivery Reviews 59: 1384–1391.
• Sahaf B.Z., Moharramipour S., Meshkatalsadat M.H. 2007. Chemical constituents and fumigant toxicity of essential oil from Carum copticum against two stored product beetles. Insect Science 14 (3): 213–218.
• Sahaf B.Z., Moharramipour S. 2008. Fumigant toxicity of Carum copticum and Vitex pseudo-negundo essential oils against eggs, larvae and adults of Callosobruchus maculatus. Journal of Pest Science 81 (4): 213–220.
• SAS Institute. 1997. SAS/STAT soft ware: changes and enhancements through release 6.12 (Cary, NC).
• Silhacek D.L., Miller G.L. 1972. Growth and development of the Indian meal moth, Plodia interpunctella (Lepidoptera: Phycitidae) under laboratory mass-rearing conditions. Annals of the Entomological Society of America 65 (5): 1084–1087.
• Schiff man J.D., Schauer C.L. 2007. Cross-linking chitosan nanofibers. Biomacromolecules 8 (2): 594–601.
• Schiff man J.D., Schauer C.L. 2008. A review: Electrospinning of biopolymer nanofi bers and their applications. Polymer Reviews 48 (2): 317–352.
• Shojaaddini M., Moharramipour S., Sahaf B.Z. 2008. Fumigant toxicity of essential oil from Carum copticum against Indian meal moth, Plodia interpunctella. Journal of Plant Protection Research 48 (4): 411–419.
• SPSS. 2007. SPSS 16 for Windows User’s Guide Release. Spss Inc., Chicago.
• Tapondjou L.A., Adler C., Bouda H., Fontem D.A. 2002. Efficacy of powder and essential oil from Chenopodium ambrosioides leaves as post-harvest grain protectants against six-stored product beetles. Journal of Stored Product Research 38 (4): 395–402.
• Teo W.E., Ramakrishna S. 2006. A review on electrospinning design and nanofibre assemblies. Nanotechnology 17 (4): R89–R106.
• Tripathi A.K., Upadhyay S., Bhuiyan M., Bhattacharya P.R. 2009. A review of essential oils as biopesticide in insect-pest management. Journal of Pharmacognosy and Phytotherapy 1 (5): 52–63.
• Vukajlovic F.N., Pesic S. 2012. Contribution to the studies of the indian meal moth Plodia interpunctella Hbn. (Lepidoptera: Pyralidae) fecundity depending on diet type. Kragujevac Journal of Science 34: 107−115.
• Wei A., Wang J., Wang X., Hou D., Wei Q. 2012. Morphology and surface properties of poly (L-lactic acid)/captopril composite nanofi ber membrans. Journal of Engineered Fibers and Fabrics 7 (1): 129−135.
• Werdin G., Gutiérrez M.M., Ferrero A.A., Fernández Band B. 2014. Essential oils nanoformulations for stored-product pest control − characterization and biological properties. Chemopshere 100: 130–138.
• Werdin G., Laumann R.A., da Silveira S., Moraes M.C.B., Borges M., Ferrero A.A. 2013. Lethal and sublethal eff ects of four essential oils on the egg parasitoids Trissolcus basalis. Chemosphere 92 (5): 608–615.
• Zodrow K.R., Schiff man J.D., Elimelech M. 2012. Biodegradable polymer (PLGA) coatings featuring cinnamaldehyde and carvacrol mitigate biofilm formation. Langmuir 28 (39): 13993–13999.
• Zong X., Kwangsok K., Dufei F., Shaofeng R., Hsiao B.S., Chu B. 2002. Structure and process relationship of electrospun bioabsorbable nanofiber membranes. Polymer 43 (16): 4403−4412.
• Zaidi S.Ab. 2015. Recent developments in molecularly imprinted polymer nanofi bers and their applications. Analytical Methods 7: 7406−7415.

Identyfikatory

DOI

10.1515/jppr-2017-0010