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| Registros recuperados : 15 | |
| 2. |  | BENÍTEZ-GALEANO, M.J.; RUBIO, L.; BERTALMIO, A.; MAESO, D.; RIVAS, F.; COLINA, R. Phylogenetic studies of the three RNA silencing suppressor genes of south american ctv isolates reveal the circulation of a novel genetic lineage. Viruses, 2015, v.7, no.7, p.4152-4168. OPEN ACCESS. Article history: Received: 26 May 2015 / Accepted: 17 July 2015 / Published: 22 July 2015.| Biblioteca(s): INIA Las Brujas. |
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| 3. | | 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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| 4. | | CASTELLS, M.; BENÍTEZ-GALEANO, M.J.; MARANDINO, A.; CAFFARENA, D.; CASAUX, M.L.; PÉREZ, R.; GIANNITTI, F.; COLINA, R. Detection and genetic characterization of bovine Torovirus in Uruguay. Viruses, 2024, Volume16, Issue 6, 835. https://doi.org/10.3390/v16060835 -- OPEN ACCESS. Article history: Submission received 14 April 2024, Revised 20 May 2024, Accepted 20 May 2024, Published 24 May 2024. -- Academic Editor: Tohru Suzuki. -- This article belongs to the Special Issue Enteric and Respiratory Viruses in...| Biblioteca(s): INIA Las Brujas. |
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| 5. | | 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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| 7. | | 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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| 8. | | BERTALMIO, A.; MAESO, D.; GONCALVEZ, L..; ROLON, R.; JOFFRE, O.; DA ROSA, C.; FONTÁN, G.; DE LOS SANTOS, M.; COLINA, R.; BENÍTEZ-GALEANO, M.J.; RIVAS, F. Avances y Perspectivas del Programa Nacional de Saneamiento y Certificación de Cítricos. In: INIA (Instituto Nacional de Investigación Agropecuaria); Programa Nacional Producción Citrícola. Resultados de investigación en Citricultura: Genética, Sanidad, Productividad. Salto (Uruguay): INIA, 2015. P. 3-7 (Serie Actividades de Difusión; 752).| Biblioteca(s): INIA Las Brujas. |
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| 9. | | RUBIO, L.; ARRUABARRENA, A.; SALVO, M.; CASTELLS, M.; BERTALMIO, A.; HERNÁNDEZ-RODRÍGUEZ, L.; BENÍTEZ-GALEANO, M.J.; MAESO, D.; COLINA, R.; RIVAS, F. Biological and molecular characterization of a resistance-breaking isolate of citrus tristeza virus from Uruguay and its effects on Poncirus trifoliata growth performance. Archives of Virology, 2023, Volume 168, Issue 4, article 123. doi: https://doi.org/10.1007/s00705-023-05749-y Article history: Received 24 November 2022; Accepted 11 February 2023; Published online 29 March 2023. -- Correspondence author: Rubio, L.; Instituto Nacional de Investigación Agropecuaria (INIA), Estación Experimental INIA Salto Grande....| Biblioteca(s): INIA Las Brujas. |
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| 10. | | PARODI, P.; ARMÚA-FERNÁNDEZ, M.T.; SCHANZEMBACH, M.; MIR, D.; BENÍTEZ-GALEANO, M.J.; RODRÍGUEZ-OSORIO, N.; RIVERO, R.; VENZAL, J.M. Characterization of strains of Anaplasma marginale from clinical cases in bovine using major surface protein 1a in Uruguay. Frontiers in Veterinary Science, September 2022, Volume 920, Article 990228. OPEN ACCESS. doi: https://doi.org/10.3389/fvets.2022.990228 Article history: Received 09 July 2022; Accepted 30 August 2022; Published 20 September 2022. -- Correspondence author: Parodi, P.; Instituto Nacional de Investigación Agropecuaria (INIA), Plataforma de Salud Animal, Estación...| Biblioteca(s): INIA Las Brujas. |
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| 11. | | BENÍTEZ-GALEANO M.J.; CASTELLS, M.; BERTONI, E.; BERTALMIO, A.; RUBIO, L.; ARRUABARRENA, A.; HERNÁNDEZ-RODRÍGUEZ, L.; MAESO, D.; RIVAS, F.; COLINA, R. Citrus tristeza virus en la región sudamericana: sobre su diversidad genética y evolución. [Citrus tristeza virun in the south american region: about its genetic diversity and evolution.]. FVTO-19. 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. 37-38.| Biblioteca(s): INIA Las Brujas. |
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| 12. | | HERNÁNDEZ-RODRÍGUEZ, L.; BENÍTEZ-GALEANO, M.J.; BERTALMIO, A.; RUBIO, L.; RIVAS, F.; ARRUABARRENA, A.; ROLON, R.; COLINA, R.; MAESO, D. Diversity of Uruguayan citrus tristeza virus populations segregated after single aphid transmission. Tropical Plant Pathology, 2019, volume 44, Issue 4, pages 352-362 Article history: Received 16 November 2018 / Accepted 10 April 2019 / First Online 06 May 2019 // Published 15 August 2019.
Acknowledgments: This research was funded by the Instituto Nacional de Investigación Agropecuaria (INIA), Uruguay...| Biblioteca(s): INIA Las Brujas. |
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| 13. | | LLANES ALVAREZ, Y.; PEÑA BÁRZAGA, I.; BATISTA-LE RIVEREND, L.; PACHECO, R.; ZAMORA RODRÍGUEZ, V.; BENÍTEZ-GALEANO, M.J.; RIVAS, F.; BERTALMIO, A.; HERNÁNDEZ RODRÍGUEZ, L. Prevalence of mild citrus tristeza virus isolates of the T30 genotype in Cuban commercial citrus fields after the dissemination of huanglongbing. Crop Protection, 2021, v. 140, art. 105422. DOI: https://doi.org/10.1016/j.cropro.2020.105422 11 p. Article history: Received 5 May 2020; Received in revised form 8 October 2020; Accepted 12 October 2020; Available online 23 October 2020.| Biblioteca(s): INIA Treinta y Tres. |
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| 14. | | GIANNITTI, F.; SILVEIRA, C.S.; BULLOCK, H.; BERON, M.; FERNÁNDEZ-CIGANDA, S.; BENÍTEZ-GALEANO, M.J.; RODRÍGUEZ-OSORIO, N.; SILVA-FLANNERY, L.; PERDOMO, T.; CABRERA, A.; PUENTES, R.; COLINA, R.; RITTER, J.M.; CASTELLS, M. Bovine Polyomavirus-1 (Epsilonpolyomavirus bovis): An emerging fetal pathogen of cattle that causes renal lesions resembling Polyomavirus-associated nephropathy of humans. Viruses, 2022; 14 (9): 2042. OPEN ACCESS. doi: https://doi.org/10.3390/v14092042 Article history: Received 12 August 2022; Revised 8 September 2022: Accepted 9 September 2022; Published 14 September 2022.
Academic Editors: Fernando Bauermann and Mayara Maggioli.
Correspondence authors: Giannitti, F.; Plataforma de...| Biblioteca(s): INIA Las Brujas. |
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| 15. | | TZANETAKIS, I.E; AKNADIBOSSIAN, V.; SPAK, J.; CONSTABLE, F.; HARPER, S.J.; HAMMOND, J.; CANDRESSE, T.; FOLIMONOVA, S.Y.; FREITAS-ASTÚA, J.; FUCHS, M.; JELKMANN, W.; MALIOGKA, V.I.; MARAIS, A.; MARTIN, R.R.; MOLLOV, D.; VIDALAKIS, G.; ABOUGHANEM-SABANADZOVIC, N.; AL RWAHNIH, M.; ALABI, O.J.; ALIOTO, D.; ATANDA, H.Y.; BAGI, F.; BARANWAL, V.K.; BARBOSA, C.; BAR-JOSEPH, M.; BATISTA LE RIVEREND, L.; BELIEN, T.; BENÍTEZ-GALEANO, M.J.; BENNYPAUL, H.; BERTACCINI, A.; BESTER, R.; BLOUIN, A.G.; BLYSTAD, D.-R.; BOTERMANS, M.; BOZAN, O.; BRAKTA, A.; BRANS, Y.; BULAJIC, A.; CAGLAYAN, K.; CATARA, A.; CHOUEIRI, E.; CIESLINSKA, M.; COOK, G.; CUI, W.; DA GRAÇA, J.; DAVINO, S.; DELMIGLIO, C.; DEWDNEY, M.M.; DI SERIO, F.; DIAZ-LARA, A.; DIGIARO, M.; DJELOUAH, K.; DONG, Y.F.; DONOVAN, N.; DRUCIAREK, T.Z.; DURAN-VILA, N.; ELÇI, E.; ESQUIVEL-FARIÑA, A.; FALL, M.L.; FAN, X.D.; FIGUEROA, J.; FIORE, N.; FOWKES, A.R.; FOX, A.; FRÁNOVÁ, J.; FUCHS, R.; GAAFAR, Y.Z.A.; GARCÍA, M.L.; GHOSH, D.; GIRARDI, E.; GLASA, M.; GOMEZ TALQUENCA, S.; GRATZ, A.; GRITSENKO, D.; HAJERI, S.; HAJIZADEH, M.; HAMBORG, Z.; HO, T.; HOLEVA, M.; HOLKAR, S.K.; HORNER, M.; HURTADO-GONZALES, O.P.; IPPOLITO, A.; ISAC, V.; IWANAMI, T.; JOFRE-Y-GARFIAS, A.E.; JORDAN, R.; KATIS, N.; KOLONIUK, I.; KONINGS, H.; KRIZANAC, I.; KRUEGER, R.; KYRYCHENKO, A.; LARANJEIRA, F.; LAVAGI-CRADDOCK, I.; LEVY, A.; LICCIARDELLO, G.; LU, Q.-Y.; MACFARLANE, S.A.; MARCONE, C.; MAREE, H.J.; MARGARIA, P.; MARTIC, A.; MASSART, S.; MATHIOUDAKIS, M.M.; MATIC, S.; MAVRIC PLESKO, I.; MEEKES, E.T.M.; MEHLE N.; MELZER M.J.; MENG, B.; MENZEL, W.; MILJANIC, V.; MINAFRA, A.; MINUTOLO, M.; MITRA, A.; MORENO, P.; NAVARRO, L.; NAVARRO, B.; NERVA, L.; OKIC, A.; OLMOS, A.; ÖNELGE, N.; OSUNDAHUNSI, B.; PALACIOS, M.F.; PALLAS, V.; PANNO, S.; PEREZ-EGUSQUIZA, Z.; POUDEL-WARD B.; RADISEK, S.; RAMOS-GONZÁLEZ, P.L.; RAMTEKE, P.; RANABHAT, N.B.; RIVAREZ, M.P.S.; RIVAS, F.; ROENHORST, A.; ROY, A.; RUIZ-GARCÍA, A.B.; SABANADZOVIC, S.; SAFÁROVÁ, D.; SALDARELLI, P.; SALEM, N.; SANAHUJA SOLSONA, G.; SCHOEN, R.; SHARMA, S.K.; SHILTS, T.; SIERRA-MEJIA, A.; SINGH, S.; SKELTON, A.; SKORIC, D.; STAINTON, D.; STAJNER, N.; STAROVIC, M.; STUCHI, E.; SVOBODA, P.; TAHZIMA, R.; TANG, J.; TESSITORI, M.; THERMOZ, J.-P.; THOMPSON, E.; THOMPSON, J.; TREBICKI, P.; TURINA, M.; ULUBAS SERCE, C.; UMBLE, J.; VALIUNAS, D.; VARALLYAY, E.; VARMA, A.; VARVERI, C.; VÁSQUEZ-GUTIÉRREZ, U.; VAZQUEZ-IGLESIAS, I.; VEERAKONE, S.; VILLAMOR, D.E.; VIVES, M.C.; VONCINA D.; WANG, J.; WESTENBERG, M.; WETZEL, T.; WINTER, S.; WRIGHT, G.; WULFF, N.A.; XU, W.X.; YOKOMI, R.; ZHOU, C.; ZIKELI, K.; ZINDOVIC, J. Streamlining Global Germplasm Exchange: Integrating Scientific Rigor and Common Sense to Exclude Phantom Agents from Regulation. Plant Disease, April 2025, Volume 109, Issue 4, pages 736-755. https://doi.org/10.1094/PDIS-04-24-0745-FE -- OPEN ACCESS. Article history: Accepted 6 Aug 2024, Published 29 Dec 2024, Issue Date 30 Apr 2025. -- Publisher: American Phytopathological Society (APS). -- Authors' note: For an extensive literature review dating back to 1913 and a research summary...| Biblioteca(s): INIA Las Brujas. |
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Registro completo
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Biblioteca (s) : |
INIA Las Brujas. |
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Fecha actual : |
27/01/2021 |
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Actualizado : |
27/01/2021 |
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Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
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Circulación / Nivel : |
Internacional - -- |
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Autor : |
BERRUETA, C.; GIMÉNEZ, G.; DOGLIOTTI, S. |
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Afiliación : |
MARIA CECILIA BERRUETA MOREIRA, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; GUSTAVO GIMÉNEZ FRANQUEZ, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; SANTIAGO DOGLIOTTI, Facultad de Agronomía, Universidad de la República, Montevideo, Uruguay. |
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Título : |
Scaling up from crop to farm level: Co-innovation framework to improve vegetable farm systems sustainability. |
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Fecha de publicación : |
2021 |
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Fuente / Imprenta : |
Agricultural Systems, April 2021, Volume 189, Article number 103055. Doi: https://doi.org/10.1016/j.agsy.2021.103055 |
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ISSN : |
0308-521X |
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DOI : |
10.1016/j.agsy.2021.103055 |
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Idioma : |
Inglés |
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Notas : |
Article history: Received 6 July 2020; Received in revised form 7 January 2021; Accepted 8 January 2021; Available online 15 January 2021.
Corresponding author: Cecilia Berrueta. E-mail address: cberrueta@inia.org.uy |
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Contenido : |
Abstract-
CONTEXT: Successful scaling up from crop level research to adoption by farmers depends on its practitioners being aware of the constraints that arise as scaling up proceeds. Promising ideas from crop level research are not adopted by farmers in many cases. OBJECTIVE: Scaling up is explored here in a study conducted in five vegetable farms in south Uruguay, where tomato production was one of the main sources of income. We aimed to evaluate the redesign process at both levels (crop and farm) focusing on: synergies and trade-offs between crop yield and farm system improvement and how critical crop constraints could be solved at farm level. METHODS: Improved crop management practices were proposed following yield gap analysis recommendations developed in previous studies, aiming to maximise crop yield and inputs use efficiency. At the farm level, a multi-year plan defining crops choice, crops area and allocation of fields to crops was designed to match resource demands to supply, especially for labour. Redesign plans were implemented for one year, with 66% of redesigned activities adopted at farm level and 86% at crop level. RESULTS AND CONCLUSIONS: We found several examples where farm system adjustment conflicted with crop yield maximization. We also found constraints prioritised as bottlenecks for crop yield improvement, which require solutions at the farm level. For instance, fertigation problems (quantity and timing) explained part of the yield gap in tomato. Overcoming these constraints requires farm system settings, e.g. adjustment of cropping area to water availability, development of suitable water reservoirs and infrastructure for water distribution and fertilisers injection, besides adjustment of a fertigation plan according to crop demand, soil fertility and greenhouse environment at crop level. Crop yield limiting factors identified through yield gap analysis, considered inside a farm system redesign process, could be a powerful tool to better targeting crop management recommendations to overall farm performance improvement. SIGNIFICANCE: The consideration of farm systems as a whole showed greater economic and environmental impacts than focusing only on the main crop due to synergies and trade-offs among farm system components. Multi-scale analysis showed that recommendations from crop research need to be tailored to farm context and objectives considering synergies and trade-offs.
© 2021 Elsevier Ltd MenosAbstract-
CONTEXT: Successful scaling up from crop level research to adoption by farmers depends on its practitioners being aware of the constraints that arise as scaling up proceeds. Promising ideas from crop level research are not adopted by farmers in many cases. OBJECTIVE: Scaling up is explored here in a study conducted in five vegetable farms in south Uruguay, where tomato production was one of the main sources of income. We aimed to evaluate the redesign process at both levels (crop and farm) focusing on: synergies and trade-offs between crop yield and farm system improvement and how critical crop constraints could be solved at farm level. METHODS: Improved crop management practices were proposed following yield gap analysis recommendations developed in previous studies, aiming to maximise crop yield and inputs use efficiency. At the farm level, a multi-year plan defining crops choice, crops area and allocation of fields to crops was designed to match resource demands to supply, especially for labour. Redesign plans were implemented for one year, with 66% of redesigned activities adopted at farm level and 86% at crop level. RESULTS AND CONCLUSIONS: We found several examples where farm system adjustment conflicted with crop yield maximization. We also found constraints prioritised as bottlenecks for crop yield improvement, which require solutions at the farm level. For instance, fertigation problems (quantity and timing) explained part of the yield gap in tomato. Overc... Presentar Todo |
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Palabras claves : |
Crop management; Family farms; Farm system; Redesign at farm level; Yield gap analysis. |
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Asunto categoría : |
F01 Cultivo |
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Marc : |
LEADER 03464naa a2200241 a 4500
001 1061687
005 2021-01-27
008 2021 bl uuuu u00u1 u #d
022 $a0308-521X
024 7 $a10.1016/j.agsy.2021.103055$2DOI
100 1 $aBERRUETA, C.
245 $aScaling up from crop to farm level$bCo-innovation framework to improve vegetable farm systems sustainability.$h[electronic resource]
260 $c2021
500 $aArticle history: Received 6 July 2020; Received in revised form 7 January 2021; Accepted 8 January 2021; Available online 15 January 2021. Corresponding author: Cecilia Berrueta. E-mail address: cberrueta@inia.org.uy
520 $aAbstract- CONTEXT: Successful scaling up from crop level research to adoption by farmers depends on its practitioners being aware of the constraints that arise as scaling up proceeds. Promising ideas from crop level research are not adopted by farmers in many cases. OBJECTIVE: Scaling up is explored here in a study conducted in five vegetable farms in south Uruguay, where tomato production was one of the main sources of income. We aimed to evaluate the redesign process at both levels (crop and farm) focusing on: synergies and trade-offs between crop yield and farm system improvement and how critical crop constraints could be solved at farm level. METHODS: Improved crop management practices were proposed following yield gap analysis recommendations developed in previous studies, aiming to maximise crop yield and inputs use efficiency. At the farm level, a multi-year plan defining crops choice, crops area and allocation of fields to crops was designed to match resource demands to supply, especially for labour. Redesign plans were implemented for one year, with 66% of redesigned activities adopted at farm level and 86% at crop level. RESULTS AND CONCLUSIONS: We found several examples where farm system adjustment conflicted with crop yield maximization. We also found constraints prioritised as bottlenecks for crop yield improvement, which require solutions at the farm level. For instance, fertigation problems (quantity and timing) explained part of the yield gap in tomato. Overcoming these constraints requires farm system settings, e.g. adjustment of cropping area to water availability, development of suitable water reservoirs and infrastructure for water distribution and fertilisers injection, besides adjustment of a fertigation plan according to crop demand, soil fertility and greenhouse environment at crop level. Crop yield limiting factors identified through yield gap analysis, considered inside a farm system redesign process, could be a powerful tool to better targeting crop management recommendations to overall farm performance improvement. SIGNIFICANCE: The consideration of farm systems as a whole showed greater economic and environmental impacts than focusing only on the main crop due to synergies and trade-offs among farm system components. Multi-scale analysis showed that recommendations from crop research need to be tailored to farm context and objectives considering synergies and trade-offs. © 2021 Elsevier Ltd
653 $aCrop management
653 $aFamily farms
653 $aFarm system
653 $aRedesign at farm level
653 $aYield gap analysis
700 1 $aGIMÉNEZ, G.
700 1 $aDOGLIOTTI, S.
773 $tAgricultural Systems, April 2021, Volume 189, Article number 103055. Doi: https://doi.org/10.1016/j.agsy.2021.103055
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