https://orcid.org/0000-0003-1981-834X
References
- Ayvaz A, Sagdic O, Karaborklu S, Ozturk I. 2010. Insecticidal activity of the essential oils from different plants against three stored-product insects. J Insect Sci. 10(1):21.
- Belmain SR, Amoah BA, Nyirenda SP, Kamanula JF, Stevenson PC. 2012. Highly variable insect control efficacy of Tephrosia vogelii chemotypes. J Agric Food Chem. 60(40):10055–10063.
- Bernardi D, Araujo ES, Zawadneak MAC, Botton M, Mogor AF, Garcia MS. 2013. Aphid species and population dynamics associated with strawberry. Neotrop Entomol. 42(6):628–633.
- Cédola C, Greco N. 2010. Presence of the aphid, Chaetosiphon fragaefolii, on strawberry in Argentina. J Insect Sci. 10(1):9.
- Costantin MB, Sartorelli P, Limberger R, Henriques AT, Steppe M, Ferreira MJ, Ohara MT, Emerenciano VP, Kato MJ. 2001. Essential oils from Piper cernuum and Piper regnellii: antimicrobial activities and analysis by GC/MS and 13C-NMR. Planta Med. 67(8):771–773.
- de Lira Pimentel CS, Albuquerque BNdL, da Rocha SKL, da Silva AS, da Silva ABV, Bellon R, Agra-Neto AC, de Aguiar JCRdOF, Paiva PMG, Princival JL, et al. 2022. Insecticidal activity of the essential oil of Piper corcovadensis leaves and its major compound (1‐butyl‐3, 4‐methylenedioxybenzene) against the maize weevil, Sitophilus zeamais. Pest Manag Sci. 78(3):1008–1017.
- Deuschle RA, Camargo TD, Alves SH, Mallmann CA, Heizmann BM. 2007. Fracionamento do extrato diclorometânico de Senecio desiderabilis Vellozo e avaliação da atividade antimicrobiana. Rev Bras Farmacogn. 17(2):220–223.
- Dos Santos ATB, Junior JSZ, Parreira LA, de Abreu KMP, de Oliveira BC, de Carvalho JR, Menini L. 2021. Chemical identification and insecticidal effect of Tephrosia vogelii essential oil against Cerosipha forbesi in strawberry crop. Crop Prot. 139:105405.
- Drioueche A, Boutoumi H, Benmansour N, Lettreuch H. 2022. Hemi-synthesis of Thione and Thiol Derivatives from Artemisia judaica L. Essential Oil, and Antimicrobial Tests. Kemija u Industriji. 71(5–6):287–293.
- Dzenda T, Ayo JA, Adelaiye AB, Adaudi AO. 2008. Ethno-medical and veterinary uses of Tephrosia vogelii hook. F.: a review. Nig Vet J. 28(3):24–39.
- Hashem AS, Awadalla SS, Zayed GM, Maggi F, Benelli G. 2018. Pimpinella anisum essential oil nanoemulsions against Tribolium castaneum—insecticidal activity and mode of action. Environ Sci Pollut Res Int. 25(19):18802–18812.
- Kerebba N, Oyedeji AO, Byamukama R, Kuria SK, Oyedeji OO. 2019. Pesticidal activity of Tithonia diversifolia (Hemsl.) A. Gray and Tephrosia vogelii (Hook f.); phytochemical isolation and characterization: a review. S Afr J Bot. 121:366–376.
- Ketoh GK, Koumaglo HK, Glitho IA, Huignard J. 2006. Comparative effects of Cymbopogon schoenanthus essential oil and piperitone on Callosobruchus maculatus development. Fitoterapia. 77(7–8):506–510.
- Mgbeahuruike EE, Yrjönen T, Vuorela H, Holm Y. 2017. Bioactive compounds from medicinal plants: focus on Piper species. S Afr J Bot. 112:54–69.
- Morais LAS. 2009. Influência dos fatores abióticos na composição química dos óleos essenciais. Hortic Bras. 27:4050–4063.
- Nowicka A, Kucharska AZ, Sokół-Łętowska A, Fecka I. 2019. Comparison of polyphenol content and antioxidant capacity of strawberry fruit from 90 cultivars of Fragaria × ananassa Duch. Food Chem. 270:32–46.
- Oliveira GL, Matos CC, Santos RR, Maia JTS, Martins ER, Figueiredo LS, Kaplan MAC. 2016. Rooting of cuttings and analysis of essential oils from wild and cultivated Piper macedoi Yunck. Rev Bras Plant Med. 18:782–790.
- Pavela R, Sedlák P. 2018. Post-application temperature as a factor influencing the insecticidal activity of essential oil from Thymus vulgaris. Ind Crops Prod. 113:46–49.
- Pereira Filho AA, Pessoa GCD, Yamaguchi LF, Stanton MA, Serravite AM, Pereira RHM, Neves WS, Kato MJ. 2021. Larvicidal activity of essential oils from Piper species against strains of Aedes aegypti (Diptera: culicidae) resistant to pyrethroids. Front Plant Sci. 12:685864.
- Ríos N, Stashenko EE, Duque JE. 2017. Evaluation of the insecticidal activity of essential oils and their mixtures against Aedes aegypti (Diptera: culicidae). Rev Bras Entomol. 61(4):307–311.
- Shaaya E, Rafaeli A. 2007. Essential oils as biorational insecticides–potency and mode of action. In: Insecticides design using advanced technologies Springer. Berlin, Heidelberg: Springer.
- Shahbazi Y, Shavisi N, Karami N. 2021. Development of edible bioactive coating based on mucilages for increasing the shelf life of strawberries. Food Meas. 15(1):394–405.
- Shahbazi Y. 2018. Application of carboxymethyl cellulose and chitosan coatings containing Mentha spicata essential oil in fresh strawberries. Int J Biol Macromol. 112:264–272.
- Simões CMO, Schenkel EP, Gosmann G, Mello JCP, Mentz LA, Petrovick PR. 2007. Farmacognosia: da planta ao medicamento. Florianópolis: Editora da UFSC.
- Sumitomo K, Akutsu H, Fukuyama S, Minoshima A, Kukita S, Yamamura Y, Sato Y, Hayasaka T, Osanai S, Funakoshi H, et al. 2015. Conifer-derived monoterpenes and forest walking. Mass Spectrom (Tokyo). 4(1):A0042.
- Yakhlef G, Hambaba L, Pinto DC, Silva AM. 2020. Chemical composition and insecticidal, repellent and antifungal activities of essential oil of Mentha rotundifolia (L.) from Algeria. Ind Crops Prod. 158:112988.
- Zhang Y, Seeram NP, Lee R, Feng L, Heber D. 2008. Isolation and identification of strawberry phenolics with antioxidant and human cancer cell antiproliferative properties. J Agric Food Chem. 56(3):670–675.