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Registros recuperados : 116 | |
83. | | MAESO, D.; RUBIO, L.; BENÍTEZ-GALEANO, M.J.; HERNÁNDEZ, L.; BERTALMIO, A.; ARRUABARRENA, A.; RIVAS, F.; COLINA, R. Aportes al conocimiento de Citrus tristeza virus en Uruguay. [resumen] In: INIA (Instituto Nacional de Investigación Agropecuaria); INIA Las Brujas; Biotecnología. Jornada de Agrobiotecnología, XI. Encuentro Nacional de REDBIO, III. Jornada técnica. Las Brujas, Canelones (UY): INIA, 2018. p. 12 (Serie Actividades de Difusión; 786)Biblioteca(s): INIA Las Brujas. |
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84. | | SIMETO, S.; CORALLO, B.; LUPO, S.; BETTUCCI, L.; GÓMEZ, D.; GONZALEZ, P.; MARTÍNEZ, G.; ABREO, E.; RIVAS, F.; ALTIER, N. Biological control of Thaumastocoris peregrinus Carpintero and Dellappé (Heteroptera: Thaumastocoridae): towards the development of a mycoinsecticide. [Resumen]. In: Anniversary Congress, 125th, 19-22 September, Freiburg, Germany, 2017. p. 187Biblioteca(s): INIA Tacuarembó. |
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85. | | BURGUEÑO, A.P.; AMORÓS, M E.; UMPIÉRREZ, M.L.; GALVAN, V.; RODRIGUEZ, A.; RIVAS, F.; BUENAHORA, J.; ROSSINI, C. Claves químicas y biológicas mediando oviposición de Diaphorina citri (Hemiptera: Liviidae). In: Sociedad Uruguaya de Fitopatología Jornada Uruguaya de Fitopatología, 6., Jornada Uruguaya de Protección Vegetal, 4., 21-22 octubre, 2021, Montevideo, Uruguay. Libro de resúmenes. Montevideo (UY): Sociedad Uruguay de Fitopatología (SUFIT), 2021. p. 65 Financiamiento: FMV-ANII.Biblioteca(s): INIA Treinta y Tres. |
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86. | | RIVAS, F.; HAMPTON, J.G.; ALTIER, N.; ROSTÁS, M.; WESSMAN, P.; JACKSON, T.A.; GLARE, T.R. Delivery of the entomopathogenic fungus Metarhizium spp. in seed coatings for plant growth promotion and plant protection against pests and diseases. (O19-5). [Abstract] XIX International Plant Protection Congress, IPPC 2019. 10-14 November 2019, Hyderabad, Telangana, India. "Crop Protection to Outsmart Climate Change for Food Security & Environmental Conservation". Organized by ICRISAT (International Crops Research Institute for the Semi-Arid Tropics). In: INTERNATIONAL PLANT PROTECTION CONGRESS, 19, 2019, Hyderabad, India. Abstract Book... Hyderabad: IPPC, 2019. p. 100.Biblioteca(s): INIA Las Brujas. |
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87. | | SIMETO, S.; LUPO, S.; BETTUCCI, L.; PÉREZ, C.; GÓMEZ, D.; TORRES, D.; MARTÍNEZ, G.; ALTIER, N.; RIVAS, F. Desarrollo de bioinsecticidas (hongos entomapatógenos) para el control de la chinche del eucalipto Thaumastocoris peregrinus. ln: INIA TACUAREMBÓ. PROGRAMA NACIONAL DE INVESTIGACIÓN EN PRODUCCIÓN FORESTAL. V Jornada de Protección Forestal, 14 y 15 de noviembre, Tacuarembó. Tacuarembó (Uruguay): INIA, 2012. p. 8 (INIA Serie Actividades de Difusión; 703)Biblioteca(s): INIA Tacuarembó. |
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88. | | GUIBAUD, A.; BEYHAUT, E.; LOPEZ, V.; MORTALENA, M.; DINI, B.; CABRERA, M.N.; CLAVIJO, L.; RIVAS, F. Desarrollo de films a partir de polímeros lignocelulósicos para el encapsulamiento de bioinsumos de uso agrícola. O16. Módulo 4: Avances en tecnologías de formulación y aplicación. In: Abreo, E.; Beyhaut, E.; Rivas, F. (Eds.). Simposio Microorganismos para la Agricultura, 2. [Resúmenes y Posters]. Canelones (UY): INIA, 2022. p.34. (Serie Actividades de Difusión; 801). Financiamiento: Beca de Maestría, INIA.Biblioteca(s): INIA Las Brujas. |
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89. | | 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.Biblioteca(s): INIA La Estanzuela; INIA Las Brujas; INIA Tacuarembó; INIA Treinta y Tres. |
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90. | | RIVAS, F.; HAMPTON, J.G.; NARCISO, J.; ROSTÁS, M.; WESSMAN, P.; SAVILLE, D.J.; JACKSON, T.A.; GLARE, T.R. Effects of a maize root pest and fungal pathogen on entomopathogenic fungal rhizosphere colonization, endophytism and induction of plant hormones. Biological Control, November 2020, Volume 150, Article number 104347. Doi: https://doi.org/10.1016/j.biocontrol.2020.104347 Article history: Received 16 March 202 // Revised 12 June 2020 // Accepted 15 June 2020 // Available online 18 June 2020.
Corresponding author: Rivas-Franco, F.; Plataforma de Bioinsumos, National Institute for Agricultural Research...Biblioteca(s): INIA Las Brujas. |
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91. | | HERNÁNDEZ-RODRÍGUEZ, L.; BERTALMIO, A.; ARRUABARRENA, A.; RUBIO, L.; RIVAS, F.; BENÍTEZ-GALEANO, M.J.; COLINA, R.; MAESO, D. First Report of the Citrus tristeza virus Trifoliate Resistance-Breaking (RB) Genotype in "Newhall" Sweet Orange in South America Plant Disease, 2017, v.101 (6), p.1063. (Abstract) DISEASE NOTES: Posted online on 30 Mar 2017.Biblioteca(s): INIA Las Brujas. |
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92. | | RIVAS, F.; LAXAGUE, J.; SUÁREZ, D.; MENES, R.; SPINA, A.; LUQUE, E.; PINTOS, P.; VARELA, P.; VIGNALE, B. Mejoramiento Genético de Cítricos: Nuevas Alternativas Promisorias en Mandarinas. Revista INIA Uruguay, 2013, no. 33, p. 44-48. (Revista INIA; 33)Biblioteca(s): INIA Salto Grande; INIA Tacuarembó. |
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93. | | RUBIO, L.; HERNÁNDEZ, L.; BERTALMIO, A.; ARRUABARRENA, A.; RIVAS, F.; BENÍTEZ, M.J.; COLINA, R.; MAESO, D. Obtención de aislados de Citrus tristeza virus promisorios para protección cruzada en cítricos. [o4]. Bloque 1: Detección y caracterización de plagas y enfermedades. In: Sociedad Uruguaya de Fitopatología Jornada Uruguaya de Fitopatología, 4., Jornada Uruguaya de Protección Vegetal, 2., 1° setiembre, 2017, Montevideo, Uruguay. Libro de resúmenes. Montevideo (UY): Sociedad Uruguay de Fitopatología (SUFIT), 2017. p. 15Biblioteca(s): INIA Las Brujas. |
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94. | | GIAMBIASI, M.; BRITOS, A.; CASTILLO, A.; BERTALMIO, A.; ROLON, R.; BERTONI, E.; GONCALVEZ, L.; LAXAGUE, J.; ADALID, E.; RIVAS, F. Obtención de poliploides de mandarinas para la producción de frutas sin semillas. [poster]. In: IX Congreso Argentino de Citricultura, Tucumán (Argentina), 11 - 14 de junio 2019.Biblioteca(s): INIA Las Brujas. |
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95. | | ALTIER, N.; ABREO, E.; BEYHAUT, E.; RIVAS, F.; BARLOCCO, C.; GARAYCOCHEA, S.; DINI, B.; LÓPEZ, V.; MATTOS, N.; MORTALENA, M. Plataforma de Bioinsumos de uso agrícola: desarrollo de tecnologías y productos basados en microorganismos benéficos. Revista INIA Uruguay, 2020, no. 61, p. 85-90. (Revista INIA; 61).Biblioteca(s): INIA Las Brujas. |
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96. | | BERTALMIO, A.; MAESO, D.; FONTÁN, G.; DA ROSA, C.; SANTOS, M. DE LOS; MONTES, F.; RIVAS, F. Programa Nacional de Saneamiento y Certificación de cítricos de Uruguay: bases para una citricultura innovadora y productiva. [National Uruguay citrus Sanitation and Certification Program: bases for innovative and productive citrus industry.]. FVP-25 Sección científica: Vigilancia fitosanitaria y manejo de plagas. [Scientific sesion: Phytosanitary surveillance and pest management]. In: Instituto de Investigaciones en Fruticultura Tropical (IIFT). Simposio Internacional de Fruticultura Tropical y Subtropical, 5.; Simposio Internacional de Piña, 9., "Fruticultura 2017". Libro de resúmenes."Por una fruticultura competitiva y sostenible". Cuba: Instituto de Investigaciones en Fruticultura Tropical. p. 25-26.Biblioteca(s): INIA Las Brujas. |
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98. | | BERTALMIO, A.; MAESO, D.; SANGUINETTI, G.; FONTÁN, G.; DE LOS SANTOS, M.; BORDE, J.; MONTES, F.; COLINA, R.; RIVAS, F. Saneamiento y certificación de cítricos Revista INIA Uruguay, 2012, no. 31, p. 49-53 (Revista INIA; 31)Biblioteca(s): INIA Las Brujas; INIA Salto Grande. |
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99. | | AMORÓS, M.E.; PEREIRA DAS NEVES, V.; RIVAS, F.; BUENAHORA, J.; MARTINI, X.; STELINSKI, L.L.; ROSSINI, C. Response of Diaphorina citri (Hemiptera: Liviidae) to volatiles characteristic of preferred citrus hosts. Arthropod-Plant Interactions, 1 June 2019, Volume 13, Issue 3, Pages 367-374. Doi: https://doi.org/10.1007/s11829-018-9651-8 Article history: Received 21 May 2018 // Accepted 21 October 2018 // First Online 14 November 2018.
Handling Editor: Anna-Karin Borg-Karlson.Biblioteca(s): INIA Las Brujas. |
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100. | | BENÍTEZ-GALEANO, M.J.; VALLET, T.; CARRAU, L.; HERNÁNDEZ-RODRÍGUEZ, L.; BERTALMIO, A.; RIVAS, F.; RUBIO, L.; MAESO, D.; VIGNUZZI, M.; MORATORIO, G.; COLINA, R. Complete genome sequence of a novel recombinant Citrus tristeza virus, a resistance-breaking isolate from Uruguay. Genome Announcements, 1 May 2018, Volume 6, Issue 22, Article number e00442-18. OPEN ACCESS. Article history: Received 19 April 2018 / Accepted 24 April / 2018 Published 31 May 2018.
Accession number(s). The genomic sequence for isolate CTV DSST-17 was deposited in GenBank under accession number MH186146.Biblioteca(s): INIA Las Brujas. |
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Registros recuperados : 116 | |
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| Acceso al texto completo restringido a Biblioteca INIA Las Brujas. Por información adicional contacte bibliolb@inia.org.uy. |
Registro completo
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Biblioteca (s) : |
INIA Las Brujas. |
Fecha actual : |
08/07/2020 |
Actualizado : |
08/07/2020 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Circulación / Nivel : |
Internacional - -- |
Autor : |
RIVAS, F.; HAMPTON, J.G.; NARCISO, J.; ROSTÁS, M.; WESSMAN, P.; SAVILLE, D.J.; JACKSON, T.A.; GLARE, T.R. |
Afiliación : |
FEDERICO RIVAS FRANCO, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; Bio-Protection Research Centre, Lincoln University, Canterbury, New Zealand; JOHN G. HAMPTON, Bio-Protection Research Centre, Lincoln University, Canterbury, New Zealand; JOSEFINA NARCISO, Bio-Protection Research Centre, Lincoln University, Canterbury, New Zealand; MICHAEL ROSTÁS, Bio-Protection Research Centre, Lincoln University, Canterbury, New Zealand; PER WESSMAN, Research Institute of Sweden (RISE), Boras, Sweden; DAVID J. SAVILLE, Saville Statistical Consulting Limited, Canterbury, New Zealand; TREVOR A. JACKSON, AgResearch, Lincoln Research Centre, Lincoln, Canterbury, New Zealand; TRAVIS R. GLARE, Bio-Protection Research Centre, Lincoln University, Canterbury, New Zealand. |
Título : |
Effects of a maize root pest and fungal pathogen on entomopathogenic fungal rhizosphere colonization, endophytism and induction of plant hormones. |
Fecha de publicación : |
2020 |
Fuente / Imprenta : |
Biological Control, November 2020, Volume 150, Article number 104347. Doi: https://doi.org/10.1016/j.biocontrol.2020.104347 |
ISSN : |
1049-9644 |
DOI : |
10.1016/j.biocontrol.2020.104347 |
Idioma : |
Inglés |
Notas : |
Article history: Received 16 March 202 // Revised 12 June 2020 // Accepted 15 June 2020 // Available online 18 June 2020.
Corresponding author: Rivas-Franco, F.; Plataforma de Bioinsumos, National Institute for Agricultural Research (INIA), Las Brujas, Ruta 48 ? Km. 10, CP. 90200, Rincón del Colorado, Canelones, Uruguay; email:frivas@inia.org.uy
We thank to the National Agency for Research and Innovation (ANNI - Uruguay) for funding F. Rivas-Franco's PhD studies (POS_EXT_2014_1_105884). Operational funding was supplied by the Bio-Protection Research Centre?s Next Generation Biopesticide programme (CX10X1310 NZ MBIE) and Smarts Seeds Programme (LINX0702 NZ MBIE) |
Contenido : |
ABSTRACT.
Some entomopathogenic fungi, such as Metarhizium spp. and Beauveria spp., closely interact with plants by colonizing the rhizosphere or growing endophytically inside root tissues. These characteristics increase the potential for endophytic entomopathogenic fungi to persist in the root system when used as biological control agents. The mechanism by which endophytic entomopathogenic fungi are capable to colonize the internal plant tissues is also influenced by plants and can be regarded as an adaptive protection acquired by plants against herbivorous insects. The mutual benefits obtained by plants and fungi through this peculiar endophytic association supports the bodyguard hypothesis. The objectives of this study were to evaluate the ability of different isolates of Metarhizium spp. and a single isolate of Beauveria bassiana, coated onto seeds, to colonize the rhizosphere and root tissues of maize (Zea mays) and to assess whether the presence of an insect pest and fungal root pathogen influenced this interaction. All the entomopathogenic fungal isolates tested were able to colonize the rhizosphere to some extent, but one isolate of M. anisopliae and the one of M. robertsii performed best. Overall, the presence of Costelytra giveni (Scarabaeidae) larvae significantly decreased rhizosphere colonization by the entomopathogens, while the phytopathogenic fungus Fusarium graminearum (Nectriaceae: Hypocreales) did not. Similarly, the presence of C. giveni decreased endophytic growth in root tissues by around 75% when considering all entomopathogens together. In contrast, a 112% increase in overall root endophytic colonization occurred in the presence of F. graminearum. Salicylic acid (SA) and jasmonic acid (JA) content in maize plants changed depending on the isolate of M. anisopliae incorporated through seed coating and root herbivory by larval presence. In the absence of C. giveni, plants treated with M. anisopliae A1080 had higher SA and JA root content than control plants. Conversely, when larvae were present, maize plants treated with M. anisopliae F672 had increased levels of both phytohormones, indicating a potentially primed state. The observed decrease in root colonization by some entomopathogenic fungal isolates in the presence of larvae of C. giveni and the increase in endophytic colonization in the presence of F. graminearum are in accordance with the bodyguard hypothesis. Additionally, the changes observed in the SA and JA content in Metarhizium treated plants corresponded to plant responses related to systemic acquired resistance and to induced systemic resistance. Our results demonstrate that biotic soil factors can shape the outcome of endophytic entomopathogenic fungi-plant interaction, as well as affecting the plant physiology.
© 2020 Elsevier Inc. MenosABSTRACT.
Some entomopathogenic fungi, such as Metarhizium spp. and Beauveria spp., closely interact with plants by colonizing the rhizosphere or growing endophytically inside root tissues. These characteristics increase the potential for endophytic entomopathogenic fungi to persist in the root system when used as biological control agents. The mechanism by which endophytic entomopathogenic fungi are capable to colonize the internal plant tissues is also influenced by plants and can be regarded as an adaptive protection acquired by plants against herbivorous insects. The mutual benefits obtained by plants and fungi through this peculiar endophytic association supports the bodyguard hypothesis. The objectives of this study were to evaluate the ability of different isolates of Metarhizium spp. and a single isolate of Beauveria bassiana, coated onto seeds, to colonize the rhizosphere and root tissues of maize (Zea mays) and to assess whether the presence of an insect pest and fungal root pathogen influenced this interaction. All the entomopathogenic fungal isolates tested were able to colonize the rhizosphere to some extent, but one isolate of M. anisopliae and the one of M. robertsii performed best. Overall, the presence of Costelytra giveni (Scarabaeidae) larvae significantly decreased rhizosphere colonization by the entomopathogens, while the phytopathogenic fungus Fusarium graminearum (Nectriaceae: Hypocreales) did not. Similarly, the presence of C. giveni decreased endophy... Presentar Todo |
Palabras claves : |
Beauveria bassiana; BIOCONTROL; Costelytra giveni; Endophytic entomopathogenic fungi; Fusarium graminearum; Induced resistance; Jasmonic acid; Metarhizium spp; Rhizosphere competence; Salicylic acid; Seed coating. |
Asunto categoría : |
H20 Enfermedades de las plantas |
Marc : |
LEADER 04680naa a2200373 a 4500 001 1061206 005 2020-07-08 008 2020 bl uuuu u00u1 u #d 022 $a1049-9644 024 7 $a10.1016/j.biocontrol.2020.104347$2DOI 100 1 $aRIVAS, F. 245 $aEffects of a maize root pest and fungal pathogen on entomopathogenic fungal rhizosphere colonization, endophytism and induction of plant hormones.$h[electronic resource] 260 $c2020 500 $aArticle history: Received 16 March 202 // Revised 12 June 2020 // Accepted 15 June 2020 // Available online 18 June 2020. Corresponding author: Rivas-Franco, F.; Plataforma de Bioinsumos, National Institute for Agricultural Research (INIA), Las Brujas, Ruta 48 ? Km. 10, CP. 90200, Rincón del Colorado, Canelones, Uruguay; email:frivas@inia.org.uy We thank to the National Agency for Research and Innovation (ANNI - Uruguay) for funding F. Rivas-Franco's PhD studies (POS_EXT_2014_1_105884). Operational funding was supplied by the Bio-Protection Research Centre?s Next Generation Biopesticide programme (CX10X1310 NZ MBIE) and Smarts Seeds Programme (LINX0702 NZ MBIE) 520 $aABSTRACT. Some entomopathogenic fungi, such as Metarhizium spp. and Beauveria spp., closely interact with plants by colonizing the rhizosphere or growing endophytically inside root tissues. These characteristics increase the potential for endophytic entomopathogenic fungi to persist in the root system when used as biological control agents. The mechanism by which endophytic entomopathogenic fungi are capable to colonize the internal plant tissues is also influenced by plants and can be regarded as an adaptive protection acquired by plants against herbivorous insects. The mutual benefits obtained by plants and fungi through this peculiar endophytic association supports the bodyguard hypothesis. The objectives of this study were to evaluate the ability of different isolates of Metarhizium spp. and a single isolate of Beauveria bassiana, coated onto seeds, to colonize the rhizosphere and root tissues of maize (Zea mays) and to assess whether the presence of an insect pest and fungal root pathogen influenced this interaction. All the entomopathogenic fungal isolates tested were able to colonize the rhizosphere to some extent, but one isolate of M. anisopliae and the one of M. robertsii performed best. Overall, the presence of Costelytra giveni (Scarabaeidae) larvae significantly decreased rhizosphere colonization by the entomopathogens, while the phytopathogenic fungus Fusarium graminearum (Nectriaceae: Hypocreales) did not. Similarly, the presence of C. giveni decreased endophytic growth in root tissues by around 75% when considering all entomopathogens together. In contrast, a 112% increase in overall root endophytic colonization occurred in the presence of F. graminearum. Salicylic acid (SA) and jasmonic acid (JA) content in maize plants changed depending on the isolate of M. anisopliae incorporated through seed coating and root herbivory by larval presence. In the absence of C. giveni, plants treated with M. anisopliae A1080 had higher SA and JA root content than control plants. Conversely, when larvae were present, maize plants treated with M. anisopliae F672 had increased levels of both phytohormones, indicating a potentially primed state. The observed decrease in root colonization by some entomopathogenic fungal isolates in the presence of larvae of C. giveni and the increase in endophytic colonization in the presence of F. graminearum are in accordance with the bodyguard hypothesis. Additionally, the changes observed in the SA and JA content in Metarhizium treated plants corresponded to plant responses related to systemic acquired resistance and to induced systemic resistance. Our results demonstrate that biotic soil factors can shape the outcome of endophytic entomopathogenic fungi-plant interaction, as well as affecting the plant physiology. © 2020 Elsevier Inc. 653 $aBeauveria bassiana 653 $aBIOCONTROL 653 $aCostelytra giveni 653 $aEndophytic entomopathogenic fungi 653 $aFusarium graminearum 653 $aInduced resistance 653 $aJasmonic acid 653 $aMetarhizium spp 653 $aRhizosphere competence 653 $aSalicylic acid 653 $aSeed coating 700 1 $aHAMPTON, J.G. 700 1 $aNARCISO, J. 700 1 $aROSTÁS, M. 700 1 $aWESSMAN, P. 700 1 $aSAVILLE, D.J. 700 1 $aJACKSON, T.A. 700 1 $aGLARE, T.R. 773 $tBiological Control, November 2020, Volume 150, Article number 104347. Doi: https://doi.org/10.1016/j.biocontrol.2020.104347
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