Arturo Morales Pizarro, Isabel Neira Rojas, Elizabeth Saavedra Alberca, Karla Zapatel Sime, L. A. Álvarez, Ricardo Peña-Castillo, R. Aguilar-Anccota, Miguel Galecio-Julca, J. Javier-Alva
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Javier-Alva","doi":"10.56369/tsaes.4839","DOIUrl":null,"url":null,"abstract":"<p><strong>Background</strong>: Peru is considered the third largest exporter of mango in the world and Piura is the first mango producing region representing 68% of the national production; however, the fungus <em>Lasiodiplodia theobromae</em> has been associated with dieback and the presence of cankers in mango cultivation, reducing fruit production and quality. <strong>Objective</strong>: To evaluate sustainable alternatives for <em>in vitro</em> and <em>in vivo</em> control of <em>L. theobromae</em> in mango, using products based on copper sulfate pentahydrate and a liquid biofertilizer. <strong>Methodology</strong>: Treatments were applied: T0 (Control), T1 (Vacun-Q organic 0.35 mL100 mL<sup>-1</sup>), T2 (Vacun-Q organic 0.175 mL 100 mL<sup>-1</sup>), T3 (Phyton 27® 0.35 mL100 mL<sup>-1</sup>), T4 (Phyton 27® 0.175 mL100 mL<sup>-1</sup>), T5 (Biol 10%) and T6 (Biol 20%). Radial growth and mycelial growth inhibition percentage (GIP) of the pathogen were evaluated in the <em>in vitro</em> phase with poisoned media, and necrotic area progression was assessed in the <em>in vivo </em>phase on mango leaves. <strong>Results</strong>: At 72 h after inoculation, treatments T3, T5 and T6 showed the lowest radial growth of <em>L. theobromae</em>, statistically equal to each other and inferior to the control that completed its development in the Petri dish; likewise, they showed 100% GIP. Five days after inoculation of mango leaves, T5 and T6 presented the smallest necrotic areas with 1.44 cm2 and 1.61 cm2 respectively, followed by T4 with 1.64 cm<sup>2</sup> and T2 with 1.69 cm<sup>2</sup> compared to the control with 2.05 cm<sup>2</sup>. <strong>Implications</strong>: In view of the constant restrictions of active molecules, sustainable and innocuous alternatives for humans and the environment are sought for the control of <em>L. theobromae</em>. <strong>Conclusion</strong>: Treatments T5 and T6 based on liquid biofertilizers showed to be effective in the <em>in vitro</em> and <em>in vivo</em> control of <em>L. theobromae</em>.</p>","PeriodicalId":23259,"journal":{"name":"Tropical and Subtropical Agroecosystems","volume":"147 2","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-12-27","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"ALTERNATIVAS SOSTENIBLES PARA EL CONTROL DE Lasiodiplodia theobromae (Pat.) 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Javier-Alva\",\"doi\":\"10.56369/tsaes.4839\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background</strong>: Peru is considered the third largest exporter of mango in the world and Piura is the first mango producing region representing 68% of the national production; however, the fungus <em>Lasiodiplodia theobromae</em> has been associated with dieback and the presence of cankers in mango cultivation, reducing fruit production and quality. <strong>Objective</strong>: To evaluate sustainable alternatives for <em>in vitro</em> and <em>in vivo</em> control of <em>L. theobromae</em> in mango, using products based on copper sulfate pentahydrate and a liquid biofertilizer. <strong>Methodology</strong>: Treatments were applied: T0 (Control), T1 (Vacun-Q organic 0.35 mL100 mL<sup>-1</sup>), T2 (Vacun-Q organic 0.175 mL 100 mL<sup>-1</sup>), T3 (Phyton 27® 0.35 mL100 mL<sup>-1</sup>), T4 (Phyton 27® 0.175 mL100 mL<sup>-1</sup>), T5 (Biol 10%) and T6 (Biol 20%). Radial growth and mycelial growth inhibition percentage (GIP) of the pathogen were evaluated in the <em>in vitro</em> phase with poisoned media, and necrotic area progression was assessed in the <em>in vivo </em>phase on mango leaves. <strong>Results</strong>: At 72 h after inoculation, treatments T3, T5 and T6 showed the lowest radial growth of <em>L. theobromae</em>, statistically equal to each other and inferior to the control that completed its development in the Petri dish; likewise, they showed 100% GIP. 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ALTERNATIVAS SOSTENIBLES PARA EL CONTROL DE Lasiodiplodia theobromae (Pat.) Griffon & Maubl EN MANGO
Background: Peru is considered the third largest exporter of mango in the world and Piura is the first mango producing region representing 68% of the national production; however, the fungus Lasiodiplodia theobromae has been associated with dieback and the presence of cankers in mango cultivation, reducing fruit production and quality. Objective: To evaluate sustainable alternatives for in vitro and in vivo control of L. theobromae in mango, using products based on copper sulfate pentahydrate and a liquid biofertilizer. Methodology: Treatments were applied: T0 (Control), T1 (Vacun-Q organic 0.35 mL100 mL-1), T2 (Vacun-Q organic 0.175 mL 100 mL-1), T3 (Phyton 27® 0.35 mL100 mL-1), T4 (Phyton 27® 0.175 mL100 mL-1), T5 (Biol 10%) and T6 (Biol 20%). Radial growth and mycelial growth inhibition percentage (GIP) of the pathogen were evaluated in the in vitro phase with poisoned media, and necrotic area progression was assessed in the in vivo phase on mango leaves. Results: At 72 h after inoculation, treatments T3, T5 and T6 showed the lowest radial growth of L. theobromae, statistically equal to each other and inferior to the control that completed its development in the Petri dish; likewise, they showed 100% GIP. Five days after inoculation of mango leaves, T5 and T6 presented the smallest necrotic areas with 1.44 cm2 and 1.61 cm2 respectively, followed by T4 with 1.64 cm2 and T2 with 1.69 cm2 compared to the control with 2.05 cm2. Implications: In view of the constant restrictions of active molecules, sustainable and innocuous alternatives for humans and the environment are sought for the control of L. theobromae. Conclusion: Treatments T5 and T6 based on liquid biofertilizers showed to be effective in the in vitro and in vivo control of L. theobromae.
期刊介绍:
The journal is an international peer-reviewed publication devoted to disseminate original information contributing to the understanding and development of agroecosystems in tropical and subtropical areas. The Journal recognizes the multidisciplinary nature of its scope and encourages the submission of original manuscripts from all of the disciplines involved in this area. Original contributions are welcomed in relation to the study of particular components of the agroecosystems (i.e. plant, animal, soil) as well as the resulting interactions and their relationship/impact on society and environment. The journal does not received manuscripts based solely on economic acpects o food technology.
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