La resistencia inducida por productos derivados de plantas: alternativa para el manejo de plagas agrícolas
Contenido principal del artículo
Resumen
Detalles del artículo
Aquellos autores/as que tengan publicaciones con esta revista, aceptan los términos siguientes:
- Los autores/as conservarán sus derechos de autor y garantizarán a la revista el derecho de primera publicación de su obra, el cual estará simultáneamente sujeto a la Licencia Creative Commons Attribution-NonCommercial 4.0 International (CC BY-NC 4.0) que permite a terceros compartir la obra, siempre que se indique su autor y la primera publicación en esta revista. Bajo esta licencia el autor será libre de:
- Compartir — copiar y redistribuir el material en cualquier medio o formato
- Adaptar — remezclar, transformar y crear a partir del material
- El licenciador no puede revocar estas libertades mientras cumpla con los términos de la licencia
Bajo las siguientes condiciones:
- Reconocimiento — Debe reconocer adecuadamente la autoría, proporcionar un enlace a la licencia e indicar si se han realizado cambios. Puede hacerlo de cualquier manera razonable, pero no de una manera que sugiera que tiene el apoyo del licenciador o lo recibe por el uso que hace.
- NoComercial — No puede utilizar el material para una finalidad comercial.
- No hay restricciones adicionales — No puede aplicar términos legales o medidas tecnológicas que legalmente restrinjan realizar aquello que la licencia permite.
- Los autores/as podrán adoptar otros acuerdos de licencia no exclusiva de distribución de la versión de la obra publicada (p. ej.: depositarla en un archivo telemático institucional o publicarla en un volumen monográfico) siempre que se indique la publicación inicial en esta revista.
- Se permite y recomienda a los autores/as difundir su obra a través de Internet (p. ej.: en archivos telemáticos institucionales o en su página web) antes y durante el proceso de envío, lo cual puede producir intercambios interesantes y aumentar las citas de la obra publicada. (Véase El efecto del acceso abierto).
Citas
Rienth M, Crovadore J, Ghaffari S, Lefort F. Oregano essential oil vapour prevents Plasmopara viticola infection in grapevine (Vitis vinifera) and primes plant immunity mechanisms. PLoS ONE. 2019; 14(9): e0222854. https://doi.org/10.1371/journal.pone.0222854
Borges RP, G Ciavareli, Perina FJ, Martins P, Alves E. Citronella essential oil in the control and activation of coffee plants defense response against rust and brown eye spot. Ciênc. agrotec., Lavras. 2012; 36(4): 383-390.
Bektas Y, Eulgem T. Synthetic plant defense elicitors. Front Plant Sci. 2015;5: 804.
Proietti S, Caarls L, Coolen S, Van Pelt JA, Van Wees SCM, Pieterse CMJ. Genome-wide association study reveals novel players in defense hormone crosstalk in Arabidopsis. Plant Cell Environment. 2018; 41(10): 2342-2356.
Caarls L, Pieterse CMJ, Van Wees SCM. How salicylic acid takes transcriptional control over jasmonic acid signaling. Front Plant Sci. 2015; 6: 170.
Paz MA, González-Coloma A, Andres MF, Berrocal-Lobo M, Domínguez-Núñez Ja, Cidral Da Costa A, et al. Antifungal Effect of Essential Oils, Potential of Essential Oils. Hany A. El-Shemy, IntechOpen, http://dx.doi.org/10.5772/intechopen.78008. [revisado: Mayo, 2020]
Prithiviraj B, Singh UP, Manickam M, Srivastava JS, Ray AB. Antifungal activity of bergenin, a constituent of Flueggea microcarpa. Plant Pathology. 1997; 46: 224-228.
Terumi A, Tolentino JB, Freitas Schwan-Estrada KR. Cymbopogon citratus essential oil bioactivity and the induction of enzymes related to the pathogenesis of Alternaria solani on tomato plants. IDESIA (Chile). noviembre-diciembre, 2013; 31(4):11-17.
Zhihui Y, Tangb J, Kharec T, Kumarc V. The alarming antimicrobial resistance in ESKAPEE pathogens: Can essential oils come to the rescue? Fitoterapia. 2020; 140: 104433
Gahukar RT. Management of pests and diseases of important tropical/subtropical medicinal and aromatic plants: A review. Journal of Applied Research on Medicinal and Aromatic Plants. 2018; 9: 1-18.
Houda B, Olivieri L, Santoro K, Garibaldi A, Gullino ML, Spadaro D. Thyme and Savory essential oil efficacy and Induction of Resistance against Botrytis cinerea through priming of defense responses in Apple. Foods. 2018; 7, 11; doi:10.3390/foods7020011
Klein JD, Firmansyah A, Panga N, Abu-Aklin W, Dekalo-Keren M, Gefe T, et al. Seed treatments with essential oils protect radish seedlings against drought. AIMS Agriculture and Food. 2017; 2(4): 345-353.
Herman A, Tambor K, Herman A. Linalool affects the antimicrobial efficacy of essential oils. Current Microbiology. 2016; 72: 165-172.
Moutassem D, Belabid L, Bellik Y, Ziouche S, Baali F. Efficacy of essential oils of various aromatic plants in the biocontrol of Fusarium wilt and inducing systemic resistance in chickpea seedlings. Plant Protection Science. 2019; 55(3): 202-217. https://doi.org/10.17221/134/2018-PPS
Ciavareli GL, Alves E, Borges R, Perina FJ, Magela de Souza R. Antibacterial activity of essential oils on Xanthomonas vesicatoria and control of bacterial spot in tomato. Pesq. Agropec. Bras. Brasília. 2012; 47(3): 351-359.
Ciavareli L G, Alves E, Borges Pereira R, Zacaroni AB, Perina FJ, de Souza M R. Indian clove essential oil in the control of tomato bacterial spot. Journal of Plant Pathology. 2012; 94 (1): 45-51.
Sateesh K, Marimuthua T, Thayumanavanb B, Nandakumara R, Samiyappana R. Antimicrobial activity and induction of systemic resistance in rice by leaf extract of Datura metel against Rhizoctonia solani and Xanthomonas oryzae pv. oryzae. Physiological and Molecular Plant Pathology. 2004; 65: 91-100.
Ben-Jabeur M, Ghabri E, Myriam M, Hamada W. Thyme essential oil as a defense inducer of tomato against gray mold and Fusarium wilt. Plant Physiology and Biochemistry. 2015; 94: 35-40.
Uwe C, Beckers JMGD, Flors V, García-Agustín P, Jakab G, Mauch F, et al. Priming: Getting Ready for Battle. MPMI. 2006; 19(10): 1062-1071.
Vargas LI. Inducción de resistencia como estrategia defensiva ante la invasión patógena en soja (Glycine max (L.) Merr.). [Tesis de Master en Ciencias]. Universidad Nacional de Córdoba, Facultad de Ciencias Agropecuarias, Escuela para Graduados, Argentina. 2015. 59 pp.
Mekawi EM, Khafagi EY, Abdel-Rahman FA. Effect of pre-harvest application with some organic acids and plant oils on antioxidant properties and resistance to Botrytis cinerea in pepper fruits. Scientia Horticulturae. 2019; 257: 108736
Asha AN, Kannabiran B. Effect of Datura metel leaf extract on the enzymatic and nucleic acid changes in the chilli seedlings infected with Colletotrichum capsici. Indian Phytopathology. 2001;54: 373-375.
Chakraborty BN, Sharma M, Das Biswas R, Sharma M. Induction of resistance in tea plants against Curvularia pallescens by foliar application of leaf extracts. Journal of Hill Research. 2005;18: 69-78.
Tapan KP, Bhattacharyaa S, Chakrabortyb K. Induction of Systemic Resistance in Rice by Leaf Extract of Cymbopogon citrus and Ocimum sanctum against Sheath Blight Disease Archives of Applied Science Research. 2011; 3 (1): 392-400.
Devaiah SP, Mahadevappa GH, Shetty HS. Induction of systemic resistance in pearl millet (Pennisetum glaucum) against downy mildew (Sclerospora graminicola) by Datura metel extract. Crop Protection. 2009; 28:783-791. http://dx.doi.org/10.1016/j.cropro.2009.04.009
Baysal O, Zeller W. Extract of Hedera helix induces resistance on apple rootstock M26 similar to Acibenzolar-S-methyl against Fire Blight (Erwinia amylovora). Physiological and Molecular Plant Pathology. 2004; 65:305-315.
Cavalcanti FR, Resende MLV, Carvalho CPS, Silveira JAG, Oliveira JTA. Induced defence responses and protective effects on tomato against Xanthomonas vesicatoria by an aqueous extract from Solanum lycocarpum infected with Crinipellis perniciosa. Biological Control. 2006; 39: 408-417.
Ben-Jabeur Maissa, Vicente R, López-Cristoffanini C, Alesami N, Djébali N, Gracia-Romero A, et al. A novel aspect of essential oils: Coating seeds with Thyme essential oil induces drought resistance in Wheat. Plants. 2019; 8:371; doi:10.3390/plants8100371 1-17
Latha P, Anand T, Ragupathi N, Prakasam V, Samiyappan R. Antimicrobial activity of plant extracts and induction of systemic resistance in tomato plants by mixtures of PGPR strains and Zimmu leaf extract against Alternaria solani. Biological Control. 2009; 50: 85-93.
Heil M, Walters DR. Ecological Consequences of Plant Defence Signalling. Advances in Botanical Research. 2009; 51: 668-716.
Heidel AJ, Baldwin IT. Microarray analysis of salicylic acid- and jasmonic acid-signaling in responses of Nicotiana attenuata to attack by insects from multiple feeding guilds. Plant, Cell & Environment. 2004; 27: 1362-1373.
Burketová L, Trdá L, Ott P, Valentová O. Bio-based resistance inducers for sustainable plant protection against pathogens, Biotechnol Adv. (2015), http://dx.doi.org/10.1016/j.biotechadv.2015.01.004 (revisado: Mayo 2020)
Oliveira MDM, Varanda CMR, Félix MRF. Induced resistance during the interaction pathogen x plant and the use of resistance inducers Induced resistance during the interaction pathogen x plant and the use of resistance inducers. Phytochemistry Letters. 2016; 15: 152-158.