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Registro completo
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Biblioteca (s) : |
INIA Las Brujas. |
Fecha : |
15/03/2022 |
Actualizado : |
15/03/2022 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Autor : |
FERNÁNDEZ, G.; SBRES, M.; LADO, J.; PEREZ, E. |
Afiliación : |
GERÓNIMO FERNÁNDEZ, Unión de Productores y Exportadores de Fruta del Uruguay (UPEFRUY), Rincón 487, Montevideo, Uruguay; MAURICIO SBRES, Departamento de Química Orgánica, Laboratorio de Biotecnología de Aromas, Facultad de Química, Universidad de la República, General Flores 2124, Montevideo, Uruguay; JOANNA LADO LINDNER, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; ELENA PEREZ FAGGIANI, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay. |
Título : |
Postharvest sour rot control in lemon fruit by natamycin and an Allium extract. |
Fecha de publicación : |
2022 |
Fuente / Imprenta : |
International Journal of Food Microbiology, 2022, Volume 368, Article number 109605. doi: https://doi.org/10.1016/j.ijfoodmicro.2022.109605 |
ISSN : |
0168-1605 |
DOI : |
10.1016/j.ijfoodmicro.2022.109605 |
Idioma : |
Inglés |
Notas : |
Article history: Received 9 November 2021; Received in revised form 15 February 2022; Accepted 25 February 2022; Available online 1 March 2022.
Corresponding author: Pérez-Faggiani, E.; Programa Nacional de Investigación en Producción Citrícola, Instituto Nacional de Investigación Agropecuaria (INIA), Camino al Terrible s/n, Casilla postal: 68033, Salto, Uruguay; email:elenaperez@inia.org.uy -- Funding text: We gratefully thanks to Ing. Agr Eduardo Blanco and Q. F. Miguel Castiglioni for providing the products tested in this study. We acknowledge UPEFRUY for their contribution in commercial experiments. This work was supported by the Agencia Nacional de Investigación e Innovacion (ANII-Uruguay) by the code RTS_1_2016_1_127275 and Instituto Nacional de Investigación Agropecuaria (INIA). |
Contenido : |
ABSTRACT. - Citrus sour rot caused by Geotrichum citri-aurantii is one of the most important postharvest diseases in citrus fruit, causing huge economic losses. Traditionally, it has been controlled by the postharvest application of guazatine and propiconazole fungicides, but restrictions in their use make it urgent to find an alternative for sour rot management. Natamycin, a common food preservative, and the organosulfuric compounds extracted from Allium species are safe food additives that control different foodborne pathogens. In the present study, the curative activities of commercial formulations of natamycin (Fruitgard Nat 20) and an Allium extract (PTSO: propyl thiosulfinate oxide; Proallium FRD®), were evaluated for the control of G. citri-aurantii in artificially inoculated lemon fruit. Trials in laboratory and in commercial conditions were carried out to explore the feasibility of including both compounds as part of a safe postharvest sour rot disease control strategy. Under controlled laboratory conditions, sour rot was significatively reduced by 500 mg L−1 of natamycin, 580 mL L−1 of PTSO and 290 mL L−1 of PTSO + 4% of a food coat, applied by immersion. Nevertheless, the maximum dose of PTSO (580 mL L−1) caused phytotoxicity on the fruit rind. In commercial drenching conditions, 290 mL L−1 of PTSO + 4% of a food coat reduced sour rot incidence similar to conventional treatment. In a packing line treatment, spray application of 500 mg L−1 of natamycin with a previous dip in sodium bicarbonate, resulted in nearly 70% reduction of disease incidence compared to conventional salt application. A second commercial experiment revealed that fruit drenching with 290 mL L−1 of PTSO + 4% food coat followed by an in-line cascade application of 500 mg L−1 of natamycin is completely effective for sour rot control after 20 days at 5 °C. Further exposure at room temperature for 7 d showed a 61% reduction in sour rot incidence compared to the control. Results revealed that natamycin and PTSO are promising tools for sour rot control used alone or combined as part of an integrated postharvest strategy. © 2022 Elsevier B.V. MenosABSTRACT. - Citrus sour rot caused by Geotrichum citri-aurantii is one of the most important postharvest diseases in citrus fruit, causing huge economic losses. Traditionally, it has been controlled by the postharvest application of guazatine and propiconazole fungicides, but restrictions in their use make it urgent to find an alternative for sour rot management. Natamycin, a common food preservative, and the organosulfuric compounds extracted from Allium species are safe food additives that control different foodborne pathogens. In the present study, the curative activities of commercial formulations of natamycin (Fruitgard Nat 20) and an Allium extract (PTSO: propyl thiosulfinate oxide; Proallium FRD®), were evaluated for the control of G. citri-aurantii in artificially inoculated lemon fruit. Trials in laboratory and in commercial conditions were carried out to explore the feasibility of including both compounds as part of a safe postharvest sour rot disease control strategy. Under controlled laboratory conditions, sour rot was significatively reduced by 500 mg L−1 of natamycin, 580 mL L−1 of PTSO and 290 mL L−1 of PTSO + 4% of a food coat, applied by immersion. Nevertheless, the maximum dose of PTSO (580 mL L−1) caused phytotoxicity on the fruit rind. In commercial drenching conditions, 290 mL L−1 of PTSO + 4% of a food coat reduced sour rot incidence similar to conventional treatment. In a packing line treatment, spray application of 500 mg... Presentar Todo |
Palabras claves : |
Biofungicide; Food additives; Geotrichum citri-aurantii; GRAS. |
Asunto categoría : |
F01 Cultivo |
Marc : |
LEADER 03771naa a2200241 a 4500 001 1062837 005 2022-03-15 008 2022 bl uuuu u00u1 u #d 022 $a0168-1605 024 7 $a10.1016/j.ijfoodmicro.2022.109605$2DOI 100 1 $aFERNÁNDEZ, G. 245 $aPostharvest sour rot control in lemon fruit by natamycin and an Allium extract.$h[electronic resource] 260 $c2022 500 $aArticle history: Received 9 November 2021; Received in revised form 15 February 2022; Accepted 25 February 2022; Available online 1 March 2022. Corresponding author: Pérez-Faggiani, E.; Programa Nacional de Investigación en Producción Citrícola, Instituto Nacional de Investigación Agropecuaria (INIA), Camino al Terrible s/n, Casilla postal: 68033, Salto, Uruguay; email:elenaperez@inia.org.uy -- Funding text: We gratefully thanks to Ing. Agr Eduardo Blanco and Q. F. Miguel Castiglioni for providing the products tested in this study. We acknowledge UPEFRUY for their contribution in commercial experiments. This work was supported by the Agencia Nacional de Investigación e Innovacion (ANII-Uruguay) by the code RTS_1_2016_1_127275 and Instituto Nacional de Investigación Agropecuaria (INIA). 520 $aABSTRACT. - Citrus sour rot caused by Geotrichum citri-aurantii is one of the most important postharvest diseases in citrus fruit, causing huge economic losses. Traditionally, it has been controlled by the postharvest application of guazatine and propiconazole fungicides, but restrictions in their use make it urgent to find an alternative for sour rot management. Natamycin, a common food preservative, and the organosulfuric compounds extracted from Allium species are safe food additives that control different foodborne pathogens. In the present study, the curative activities of commercial formulations of natamycin (Fruitgard Nat 20) and an Allium extract (PTSO: propyl thiosulfinate oxide; Proallium FRD®), were evaluated for the control of G. citri-aurantii in artificially inoculated lemon fruit. Trials in laboratory and in commercial conditions were carried out to explore the feasibility of including both compounds as part of a safe postharvest sour rot disease control strategy. Under controlled laboratory conditions, sour rot was significatively reduced by 500 mg L−1 of natamycin, 580 mL L−1 of PTSO and 290 mL L−1 of PTSO + 4% of a food coat, applied by immersion. Nevertheless, the maximum dose of PTSO (580 mL L−1) caused phytotoxicity on the fruit rind. In commercial drenching conditions, 290 mL L−1 of PTSO + 4% of a food coat reduced sour rot incidence similar to conventional treatment. In a packing line treatment, spray application of 500 mg L−1 of natamycin with a previous dip in sodium bicarbonate, resulted in nearly 70% reduction of disease incidence compared to conventional salt application. A second commercial experiment revealed that fruit drenching with 290 mL L−1 of PTSO + 4% food coat followed by an in-line cascade application of 500 mg L−1 of natamycin is completely effective for sour rot control after 20 days at 5 °C. Further exposure at room temperature for 7 d showed a 61% reduction in sour rot incidence compared to the control. Results revealed that natamycin and PTSO are promising tools for sour rot control used alone or combined as part of an integrated postharvest strategy. © 2022 Elsevier B.V. 653 $aBiofungicide 653 $aFood additives 653 $aGeotrichum citri-aurantii 653 $aGRAS 700 1 $aSBRES, M. 700 1 $aLADO, J. 700 1 $aPEREZ, E. 773 $tInternational Journal of Food Microbiology, 2022, Volume 368, Article number 109605. doi: https://doi.org/10.1016/j.ijfoodmicro.2022.109605
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81. | | MIGUES, I.; CESIO, V.; GÁMBARO, A.; MOYNA, G.; RODRÍGUEZ, C.; LADO, J.; RIVAS, F.; HEINZEN, H. NMR metabolomics as a prediction tool for consumers acceptance of mandarins. (SI-O-7) [oral presentation]. Session I: Breeding, Genomics and Genetics. In: RIivas, F. (Ed.). IV International Symposium on Citrus Biotechnology. Book of Abstracts. Montevideo (UY): INIA. p. 17. (INIA Serie Técnica; 244).Tipo: Presentaciones Orales |
Biblioteca(s): INIA Las Brujas. |
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83. | | MANZI, M.; LADO, J.; RODRIGO, M.J.; ZACARÍAS, L.; ARBONA, V.; GÓMEZ-CADENAS, A. Root ABA accumulation in long-term water-stressed plants is sustained by hormone transport from aerial organs. Plant and Cell Physiology, 2015, v. 56, no.12, p. 2457-2466. Received July 24, 2015. Accepted October 22, 2015. First published online: November 4, 2015Tipo: Artículos en Revistas Indexadas Internacionales | Circulación / Nivel : Internacional - -- |
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85. | | CABOT, M.I.; LADO, J.; BAUTISTA, I.; RIBAL, J.; SANJUÁN, N. On the relevance of site specificity and temporal variability in agricultural LCA: a case study on mandarin in North Uruguay. International Journal of Life Cycle Assessment. 2023, https://doi.org/10.1007/s11367-023-02186-6 -- OPEN ACCESS. [Article in Press] Article history: Received 29 December 2022; Accepted 15 May 2023; Published 19 June 2023. -- Correspondence author: Cabot, M.I.; Grup ASPA, Departament de Tecnologia d?Aliments, Edifici 3F, Universitat Politècnica de València, Camí de...Tipo: Artículos en Revistas Indexadas Internacionales | Circulación / Nivel : Internacional - -- |
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87. | | VICENTE, E.; ARES, G.; RODRIGUEZ, G.; VARELA, P.; BOLOGNA, F.; LADO, J. Selection of promising sweet potato clones using projective mapping. Research article. Journal of the Science of Food & Agriculture, 2017, v.97, no.1, p.158-164. Article information: Issue online: 7 November 2016 // Version of record online: 13 April 2016 // Accepted manuscript online: 9 March 2016 // Manuscript Accepted: 3 March 2016
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89. | | LADO, J.; MOLTINI, A.; PINTOS, P.; LUQUE, E.; VICENTE, E.; GHELFI, B.; MANZZIONI, A.; ARES, G. Porque el sabor importa: la evaluación sensorial integrada al mejoramiento genético de hortalizas uruguayas. Revista INIA Uruguay, 2018, no. 55, p. 31-34. (Revista INIA; 55).Tipo: Artículos en Revistas Agropecuarias |
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90. | | SALVO, M.; REY, F.; ARRUABARRENA, A.; GAMBETTA, G.; RODRIGO, M. J.; ZACARÍAS, L.; LADO, J. Transcriptional analysis of C-repeat binding factors in fruit of citrus species with differential sensitivity to chilling injury during postharvest storage. International Journal of Molecular Sciences, 2 January 2021, Volume 22, Issue 2, Article number 804, Pages 1-20. OPEN ACCESS. Doi: https://doi.org/10.3390/ijms22020804 Article history: Received 9 December 2020; Revised 5 January 2021; Accepted 12 January 2021; Published 15 January 2021.
This work was supported by a research grant from the National Agency of Research and Innovation (ANII-Uruguay) by the...Tipo: Artículos en Revistas Indexadas Internacionales | Circulación / Nivel : Internacional - -- |
Biblioteca(s): INIA Las Brujas. |
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91. | | LADO, J.; MOLTINI, A.; PINTOS, P.; LUQUE, E.; GONCALVEZ, L.; RIVAS, F.; ALCAIRE, F.; ARES, G. Unraveling factors affecting consumers' liking of novel Uruguayan mandarins. [Descifrando los factores que afectan la aceptabilidad de nuevas mandarinas Uruguayas]. [Descifrando os fatores que afetam a aceitabilidade de novas tangerinas uruguaias]. Agrociencia Uruguay, 2021, vol. 25, n.2, article E540. DOI: https://doi.org/10.31285/AGRO.25.540 Article history: Received 10 Feb 2021; Accepted 3 Aug 2021; Published 18 Aug 2021.
Editor: Gustavo González-Neves, Universidad de la República, Montevideo, Uruguay.
Correspondence: Joanna Lado, mail: jlado@inia.org.uyTipo: Artículos en Revistas Indexadas Nacionales | Circulación / Nivel : Nacional - -- |
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93. | | VICENTE, E.; MANZZIONI, A.; GIAMBIASI, M.; LADO, J.; VARELA, P.; ARRUABARRENA, A.; SILVERA, E.; MACHÍN, A.; GONZÁLEZ-ARCOS, M. La búsqueda de variedades de frutilla adaptadas al nuevo escenario de la zona de Salto. Revista INIA Uruguay, 2019, no. 57, p. 18-22. (Revista INIA; 57)Tipo: Artículos en Revistas Agropecuarias |
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94. | | RIVAS, F.; BERNAL, R.; BERTALMIO, A.; BUENAHORA, J.; GOÑI, C.; LADO, J.; PEREZ, E.; OTERO, A.; MARA, H. La citricultura bajo estrés: un enfoque integral. Revista INIA, 2009, no. 17, p. 68-72.Tipo: Artículos en Revistas Agropecuarias |
Biblioteca(s): INIA La Estanzuela; INIA Las Brujas; INIA Tacuarembó; INIA Treinta y Tres. |
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95. | | VICENTE, E.; RODRÍGUEZ, G.; GHELFI, B.; LADO, J.; ARRUABARRENA, A.; ARIAS, M.; GONZÁLEZ-ARCOS, M.; ZUNINI, N. ¿Cómo se obtienen las variedades de boniato?- Hortifruticultura. Revista INIA Uruguay, Diciembre 2023, no.75 p.68-70. (Revista INIA; 75).Tipo: Artículos en Revistas Agropecuarias |
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98. | | VICENTE, E.; RODRIGUEZ, G.; GHELFI, B.; REGGIO, A.; VARELA, P.; GONZÁLEZ-ARCOS, M.; ARRUABARRENA, A.; ARES, G.; LADO, J. Los cultivares CAMBARÁ y CHAPICUY: nuevas oportunidades para la mejora de la calidad en boniato. Revista INIA Uruguay, 2016, No.44, p. 34-38. (Revista INIA; 44)Tipo: Artículos en Revistas Agropecuarias |
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99. | | VICENTE, E.; MANZZIONI, A.; GONZÁLEZ-ARCOS, M.; GIMÉNEZ, G.; LADO, J.; ARRUABARRENA, A.; RUBIO, L.; SILVERA, E.; VARELA, P. El cultivar de frutilla para cultivo protegido INIA Ágata (SGN48.3). Montevideo (Uruguay): INIA, 2017. 4 p. (Hoja de Divulgación; 108)Tipo: Hojas de Divulgación |
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100. | | VICENTE, E.; MANZZIONI, A.; GIMÉNEZ, G.; GONZÁLEZ-ARCOS, M.; LADO, J.; BUENAHORA, J.; VILARO, F.; SILVEIRA, D. Cultivar de frutilla YURI (SGK 3.2) "Mejorando la calidad de la oferta invernal" Revista INIA Uruguay, 2011, no. 25 p. 23-25 (Revista INIA; 25)Tipo: Artículos en Revistas Agropecuarias |
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