Abstract
Stored-product pests are a major problem in food production and storage. Essential oils (EOs) have been reported to have a wide range of insecticidal activities.
In this study, the EOs of flowers and leaves from Elsholtzia stauntoni were analyzed for their chemical composition by GC–MS. The two EOs and their two common main components (cuminol and caryophyllene) were evaluated for their bioactivities against T. castaneum adults. Results of GC–MS analysis indicated that the chemical composition of EOs of flowers and leaves from E. stauntoni had certain similarity and diversity. The two same major components of EOs of flowers and leaves were cuminol (27.81% and 27.62%, respectively) and caryophyllene (5.78% and 10.95%, respectively). The results of bioassays indicated that the EOs of flowers and leaves possessed obvious contact toxicities (LD50 = 19.05 and 18.75 µg/Adult, respectively) and repellent activities against T. castaneum. In addition, the EOs of flowers (LC50 = 16.26 mg/L Air) showed the higher fumigant toxicity than that of leaves (LC50 = 44.42 mg/L Air). Cuminol and caryophyllene exhibited contact toxicity and repellency against T. castaneum, but showed no fumigant toxicity. In particular, cuminol was still significantly repellent to T. castaneum within the testing concentration range of 78.63–0.13 nL/cm2 after 48 h. Furthermore, cuminol and caryophyllene exhibited synergistic contact activity against T. castaneum in all experimental ratios. Altogether, it suggests that EOs of E. stauntoni and their two major monomers have promising potential to serve as bio-insecticides for controlling T. castaneum.
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Baccari W, Znati M, Zardi-Bergaoui A, Chaieb I, Flamini G, Ascrizzi R, Ben-Jannet H (2019) Composition and insecticide potential against Tribolium castaneum of the fractionated essential oil from the flowers of the Tunisian endemic plant Ferula tunetana Pomel ex Batt. Ind Crop Prod 143:11188
Mahroof RM, Hagstrum DW (2012) Stored product protection. Kansas State University, Manhattan
Abdelghany AY, Awadalla SS, Abdel-Baky NF, El-Syrafi HA, Fields PG (2010) Stored-product insects in botanical warehouses—ScienceDirect. J Stored Prod Res 46:93–97
Hubert J, Stejskal V, Athanassiou CG, Throne JE (2018) Health hazards associated with arthropod infestation of stored products. Annu Rev Entomol 63:553–573
Ashworth JR (1993) The biology of Lasioderma serricorne. J Stored Prod Res 29:291–303
Talukder F (2009) Pesticide resistance in stored-product insects and alternative biorational management: a Brief Review. Agric Mar Sci 14:9–15
Zettler JL, Arthur FH (2000) Chemical control of stored product insects with fumigants and residual treatments. Crop Prot 19:577–582
Perry AS, Yamamoto I, Ishaaya I, Perry RY (1998) Insecticides in agriculture and environment: retrospects and prospects. Springer, Berlin
PNUMA (1994) Montreal protocol on substances that deplete the ozone layer: 1994 report of the flexible and rigid foams technical options committee for the 1995 assessment of the UNEP. Placenta 15:A35
Nayak MK, Daglish GJ, Phillips TW, Ebert PR (2020) Resistance to the fumigant phosphine and its management in insect pests of stored products: a global perspective. Annu Rev Entomol 65:333–350
Campolo O, Giunti G, Russo A, Palmer V, Zappalà L (2018) Essential oils in stored product insect pest control. J Food Quality 2018:1–18
Khan S, Taning CNT, Bonneure E, Mangelinckx S, Smagghe G, Shah MM (2017) Insecticidal activity of plant-derived extracts against different economically important pest insects. Phytoparasitica 45:113–124
Miresmailli S, Isman MB (2014) Botanical insecticides inspired by plant-herbivore chemical interactions. Trends Plant Sci 19:29–35
Pavela R (2016) History, presence and perspective of using plant extracts as commercial botanical insecticides and farm products for protection against insects-a review. Plant Protect Sci 52:229–241
Isman MB, Grieneisen ML (2014) Botanical insecticide research: many publications, limited useful data. Trends Plant Sci 19:140–145
Mithofer A, Boland W (2012) Plant defense against herbivores: chemical aspects. Annu Rev Plant Biol 63:431–450
Rattan RS (2010) Mechanism of action of insecticidal secondary metabolites of plant origin. Crop Prot 29:913–920
Ahl SA, Hikal WM, Tkachenko KG (2017) Essential oils with potential as insecticidal agents: a review. J Environ Plann Man 3:23–33
Burt SA (2004) Essential oils: their antibacterial properties and potential applications in foods-a review. Int J Food Microbiol 94:223–253
Tabassum N, Vidyasagar GM (2013) Antifungal investigations on plant essential oils. A review I. J Pharm Sci-US 5:19–28
Ntall NG, Caboni P (2012) Botanical nematicides: a review. J Agric Food Chem 60:9929–9940
Walia S, Koul O (2008) Sustainable crop protection. Kalyani Publishers, New Delhi
Singh P, Pandey AK (2018) Prospective of essential oils of the genus mentha as biopesticides: a review. Front Plant Sci 9:1–14
Pandey AK, Pooja S (2017) The Genus Artemisia: a 2012–2017 Literature review on chemical composition, antimicrobial, insecticidal and antioxidant activities of essential oils. Medicine 4:68–83
Regnault-Roger C, Vincent C, Arnason JT (2012) Essential oils in insect control: low-risk products in a high-stakes world. Annu Rev Entomol 57:405–420
Aharoni A, Jongsma MA, Bouwmeester HJ (2005) Volatile science? Metabolic engineering of terpenoids in plants. Trends Plant Sci 10:594–602
Pavela R (2015) Acute toxicity and synergistic and antagonistic effects of the aromatic compounds of some essential oils against Culex quinquefasciatus Say larvae. Parasitol Res 114:3835–3853
Pavela R, Benelli G (2016) Essential oils as ecofriendly biopesticides? Challenges and constraints. Trends Plant Sci 21:1000–1007
Nguyen HT, Radacsi P, Gosztola B, Rajhart P, Nemeth EZ (2018) Accumulation and composition of essential oil due to plant development and organs in wormwood (Artemisia absinthium L.). Ind Crop Prod 123:232–237
Bakkali F, Averbeck S, Averbeck D, Idaomar M (2008) Biological effects of essential oils-a review. Food Chem Toxicol 46:446–475
Li XW, Hedge IC (1994) Flora of China. Science Press, Beijing
National compilation group of Chinese herbal medicine (1978) National Chinese Herbal Medicine Compilation. People’s Medical Publishing House, Beijing
Lv JH, He YQ (2010) Fumigant toxicity of Ailanthus altissima Swingle, Atractylodes lancea (Thunb.) DC. and Elsholtzia stauntonii Benth extracts on three major stored-grain insects. Ind Crops Prod 32:681–683
Lv JH, Su XH, Zhong JJ (2012) Fumigant activity of Elsholtzia stauntonii extract against Lasioderma serricorne. S Afr J Sci 108:103–106
Wang JB, Xu ZX, Guo X, Song J (2017) Study on fumigation effect of four plant essential oils on Tribolium castaneum. J Mod Agr Tech 1:92
Adams RP (2005) Identification of essential oil components by gas chromatography/mass spectrometry. J Am Soc Mass Spectr 16:1902–1903
Liu ZL, Ho SH (1999) Bioactivity of the essential oil extracted from Evodia rutaecarpa Hook f. et Thomas against the grain storage insects, Sitophilus zeamais Motsch. and Tribolium castaneum (Herbst). J Stored Prod Res 35:317–328
Zhang JS, Zhao NN, Liu QZ, Liu ZL, Du SS, Zhou L, Deng ZW (2011) Repellent constituents of essential oil of Cymbopogon distans aerial parts against two stored-product insects. J Agric Food Chem 59:9910–9915
Chen I, Xu HH, Li YY, He LF, Zhao SH (2000) Discussion on the method of screening the best effective formula of pesticide compound. Acta Phytophys Sin 27:349–354
Gisi U, Binder H, Rimbach E (1985) Synergistic interactions of fungicides with different modes of action. Trans Br Mycol Soc 85:299
Xing XQ, Li MD, Gong YM, Niu B, Hao N, Tian YL, Yang L (2019) Comparative analysis of volatile components in essential oil of Elsholtzia stauntoni and different organs. Southern Agric 13:150–155
Zheng SZ, Kang SH, Shen XW, Lv JS, Liu HY (1999) Studies on the chemical component of essential oils of Elsholtzia stauntonii Benth. J Northwest Norm Univ 35:60–64
Zheng SZ, Li MCR, Dai R, Kang SH, Ren P, Shen XW (2001) Composition of Elsholtzia stauntonii essential oil prepared by steam distillation and supercritical CO2 fluid extraction. J Northwest Norm Univ 37:37–40
Kang SH, Shi YQ (2009) Supercritical CO2 fluid extraction of Elsholtzia Fruticosa and GC/MS analysis. J Chin Mass Spectrom Soci 1:38–42
Zhou Y, Liao F, Weng J, Mao Q, Hu Y (2019) Composition and acaricidal activity of essential oil from Elsholtzia densa Benth against Sarcoptes scabiei mites in vitro. Veterinární Medicína 64:178–183
Chalchat JC, Zcan MM (2008) Comparative essential oil composition of flowers, leaves and stems of basil (Ocimum basilicum L.) used as herb. Food Chem 110:501–503
Touati B, Chograni H (2011) Chemical composition of the leaf and flower essential oils of Tunisian Lavandula dentata L. (Lamiaceae). Chem Biodivers 8:1560–1569
Chen H, Yang K, You C, Du S, Cai Q, He Q, Geng Z, Deng Z (2014) Chemical constituents and biological activities against Tribolium castaneum (Herbst) of the essential oil from Citrus wilsonii leaves. J Serb Chem Soc 79:1213–1222
Liang JY, Guo SS, You CX, Zhang WJ, Wang CF, Geng ZF, Deng ZW, Du SS, Zhang J (2016) Chemical constituents and insecticidal activities of Ajania fruticulosa essential oil. Chem Biocivers 13:1053–1057
Cao JQ, Guo SS, Wang Y, Pang X, Geng ZF, Du SS (2018) Toxicity and repellency of essential oil from Evodia lenticellata Huang fruits and its major monoterpenes against three stored-product insects. Ecotoxicol Environ Saf 160:342–348
Machado KDC, Islam MT, Ali ES, Rouf R, Uddin SJ, Dev S, Shilpi JA, Shill MC, Reza HM, Das AK (2018) A systematic review on the neuroprotective perspectives of beta-caryophyllene. Phytother Res 32:2376–2388
Guo SS, Zhang WJ, You CX, Liang JY, Yang K, Geng ZF, Du SS, Wang CF (2016) Chemical composition of essential oil extracted from Laggera pterodonta and its bioactivities against two stored product insects. J Food Process Pres 41:1–9
Chaubey MK (2012) Responses of Tribolium castaneum (Coleoptera: Tenebrionidae) and Sitophilus oryzae (Coleoptera: Curculionidae) against essential oils and pure compounds. Herba Polonica 58:33–45
Liu ZL, Du SS (2011) Fumigant components from the essential oil of Evodia Rutaecarpa hort unripe fruits. J Chem 8:1937–1943
Liang JY, Guo SS, Zhang WJ, Geng ZF, Deng ZW, Du SS, Zhang J (2017) Fumigant and repellent activities of essential oil extracted from Artemisia dubia and its main compounds against two stored product pests. Nat Prod Res 32:1234–1238
Sun JS, Feng YX, Wang Y, Li J, Wu Y (2020) α-Pinene, Caryophyllene and β-Myrcene from Peucedanum terebinthaceum essential oil: insecticidal and repellent effects on three stored-product insects. Rec Nat Prod 1:177–189
Wang Y, Zhang LT, Feng YX, Zhang D, Du SS (2019) Comparative evaluation of the chemical composition and bioactivities of essential oils from four spice plants (Lauraceae) against stored- product insects. Ind Crops Prod 140:1–11
Liang JY, Guo SS, You CX, Zhang WJ, Wang CF, Geng ZF, Deng ZW, Du SS, Zhang J (2016) Chemical constituents and insecticidal activities of Ajania fruticulosa essential oil. Chem Biodivers 13:1053–1057
Conti B, Canale A, Cioni PL, Flamini G, Rifici A (2011) Hyptis suaveolens and Hyptis spicigera (Lamiaceae) essential oils: qualitative analysis, contact toxicity and repellent activity against Sitophilus granarius (L.) (Coleoptera: Dryophthoridae). J Pest Sci 84:219–228
Li S, Li M, Huang Y, Hua R, Lin H, He Y, Wei L, Liu Z (2013) Fumigant activity of Llicium verum fruit extracts and their effects on the acetylcholinesterase and glutathione S-transferase activities in adult Sitophilus zeamais. J Pest Sci 86:677–683
Jha AN, Yadav TD (1991) Olfactory response of Lasioderma serricorne Fab. and Stegobium paniceum (Linn.) to different spices. Indian J Ent 53:396–400
Gao Q, Song L, Sun J, Cao H, Wang L, Lin H (2019) Repellent action and contact toxicity mechanisms of the essential oil extracted from chinese chive against plutella xylostella larvae. Arch Insect Biochem Physiol 100:21509–21509
Liang JY, Xu J, Yang YY, Shao YZ, Wang JL (2020) Toxicity and synergistic effect of Elsholtzia ciliataEssential oil and its main components against the adult and larval stages of Tribolium castaneum. Foods 9:345–361
Tak JH, Isman MB (2017) Enhanced cuticular penetration as the mechanism of synergy for the major constituents of thyme essential oil in the cabbage looper, Trichoplusia ni. Ind Crops Prod 101:29–35
Fidyt K, Fiedorowicz A, Strządała L, Szumny A (2016) β caryophyllene and β caryophyllene oxide natural compounds of anticancer and analgesic properties. Cancer Med-US 5:3007–3017
Qiu H, Feng YP (2010) Development of reference materials for p-cymene in methanol. Chem Reagents 32(331–333):336
Acknowledgements
This project was funded by Science & Technology Innovation Service Platform Construction Project (NO. 18JR2TA017) and Gansu provincial fund for guiding scientific and technological innovation development (No. 2019ZX-05).
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Liang, J., Ning, A., Lu, P. et al. Biological activities and synergistic effects of Elsholtzia stauntoni essential oil from flowers and leaves and their major constituents against Tribolium castaneum. Eur Food Res Technol 247, 2609–2619 (2021). https://doi.org/10.1007/s00217-021-03829-4
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DOI: https://doi.org/10.1007/s00217-021-03829-4