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Registros recuperados : 100 | |
62. | | DEVINCENZI, T.; JAURENA, M.; DURANTE, M.; SAVIAN, J.V.; CIAPPESONI, G.; NAVAJAS, E.; CIGANDA, V.; LATTANZI, F.; PARUELO, J. Building the GLENCOE Platform -Grasslands LENding eConomic and ecOsystems sErvices. Frontiers in Sustainable Food Systems, June 2021, volume 516, Article 547301. OPEN ACCESS. Doi: https://doi.org/10.3389/fsufs.2021.547301 Article history: Received 31 March 2020, Accepted 26 April 2021, Published 16 June 2021.
Edited by: Iain James Gordon, Australian National University, Australia. Reviewed by: Karl Behrendt, Harper Adams University, United Kingdom;...Biblioteca(s): INIA Las Brujas; INIA Treinta y Tres. |
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63. | | CLARIGET, J.M.; OTAÑO, C.; PEREZ, E.; ZARZA, R.; LEMA, O.M.; QUINCKE, A.; GARCIA, A.; LATTANZI, F. Efecto acumulado del pastoreo de cultivos de cobertura: 1. Desempeño animal y compactación del suelo.
2. Cobertura de suelo, enmalezamiento y rendimiento de soja. [Presentación oral]. En: CONGRESO ASOCIACIÓN URUGUAYA DE PRODUCCIÓN ANIMAL (6º, Marzo, 2018, Tacuarembó, Uruguay). Tacuarembó: AUPA, 2018.Biblioteca(s): INIA La Estanzuela. |
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64. | | GARELI, M.S.; MENDOZA, A.; BELLO, N.M.; LATTANZI, F.; FARIÑA, S.; DAVILA, J.; RAGGIO, V.; SAVIAN, J.V. Consumo y producción de leche de vacas pastoreando Dactylis glomerata durante la primavera: efecto del manejo del pastoreo y la asignación de concentrado. [abstract]. In: AUPA, Proceedings del VII Congreso Uruguayo de Producción Animal. Sección Cambio Climático y Producción Sostenible (Climate Change Section), 14 y 15 diciembre 2021. Archivos Latinoamericanos de Producción Animal, 29(Supl.1), p.3. (Archivos Latinoamericanos de Producción Animal, Vol.29, Supl.1) Corresponding author: M.S. Gareli, Instituto Nacional de Investigación Agropecuaria (INIA), Ruta 50 Km 11, La Estanzuela, Uruguay, mailto:sgareli@inia.org.uyBiblioteca(s): INIA Las Brujas. |
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65. | | KUHN, J.; MADEIRA, W.; DIAZ, S.; SOSA, M.; ALBORNOZ, A.; VIANA, A.; ELOY, L.; BREMM, C.; JAURENA, M.; LATTANZI, F. Em diferentes sistemas de manejo podemos identificar a matéria verde de pastagens naturais com base no NDVI? [Resumen]. In: CONGRESO ASOCIACIÓN URUGUAYA DE PRODUCCIÓN ANIMAL (6º, Marzo, 2018, Tacuarembó, Uruguay). Resúmenes. Tacuarembó: AUPA, 2018. p. 76Biblioteca(s): INIA Tacuarembó. |
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66. | | CUADRO, R.; MARINO, M.A.; ERRECART, P.M.; CICORE, P.L.; BORRAJO, C.I.; BERONE, G.D.; LATTANZI, F. Effect of phosphate fertilization on nitrogen use efficiency of forage pastures 2. Annual Ryegrass. [abstract] Theme 2 - Phosphorus acquisition by plants and microorganisms. Poster Session. In: Michelini, D.; Garaycochea, S. (Eds.). 7th Phosphorus in Soils and Plants Symposium (PSP7). "Towards a sustainable phosphorus utilization in agroecosystems." Book of abstracts. PSP7, 3-7 October 2022, Montevideo, Uruguay. p.39. Published By: The organizing committee of the 7th Symposium on Phosphorus in Soils and Plants (PSP7)- National Agricultural Research Institute and School of Agronomy, Universidad de la República, Uruguay.Biblioteca(s): INIA Las Brujas. |
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67. | | SCHWAB, M.; DI BELLA, C.E.; CASAS, C.; CLAVIJO, M.P.; DRUILLE, M.; LATTANZI, F.; SCHAUFELE, R.; GRIMOLDI, A.A. Evaluación de la incorporación de Panicum coloratum como fitorremediadora de suelos sódicos de la Pampa deprimida. PP 2. Producción y Utilización de Pasturas. IN: REVISTA ARGENTINA DE PRODUCCIÓN ANIMAL, 2016, VOL. 36, ISS.1 (SUPL). 39 CONGRESO ARGENTINO DE PRODUCCIÓN ANIMAL. 19-21 OCTUBRE 2016. ACTAS. Buenos Aires (Argentina): AAPA. p. 296.Biblioteca(s): INIA Treinta y Tres. |
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69. | | REYNO, R.; DALLA RIZZA, M.; CASTILLO, A.; DO CANTO, J.; CONDON, F.; MENESES, L.; LATTANZI, F.; MONZA, J. Estrategias de mejoramiento de forrajeras en Uruguay: enfrentando nuevos desafíos. [Presentación oral]. In: Encuentro Latinoamericano y del Caribe de Biotecnología Agropecuaria; Simposio RedBio Argentina, 11., Montevideo 12-15 noviembre, 2019. Serie Técnica 253: Libro de Resúmenes.Biblioteca(s): INIA Tacuarembó. |
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70. | | MARANGES, M.; DO CANTO, J.; GUTIERREZ, F.; REYNO, R.; ROSSI, C.; LATTANZI, F.; DÍAZ, J.; STEWART, A. Festuca "RIZAR": una nueva opción rizomatosa de alta productividad, persistencia y rusticidad. Revista INIA Uruguay, 2019, no. 56, p. 40-42. (Revista INIA; 56)Biblioteca(s): INIA Tacuarembó. |
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72. | | CASAS, C.; DI BELLA, C.E.; LATTANZI, F.; SCHWAB, M.; CLAVIJO, P.; SCHÄUFELE, R.; DRUILLE, M.; GRIMOLDI, A.A. A highly productive grass improves chemical and biological properties but does not aggregate stability in saline-sodic lowlands in Argentina. Archives of Agronomy and Soil Science, 18 September 2020, Volume 66, Issue 11, Pages 1532-1545. Doi: 10.1080/03650340.2019.1679783 Article history: Received 05 Mar 2019; Accepted 09 Oct 2019; Accepted author version posted online; 11 Oct 2019; Published online: 19 Oct 2019.Biblioteca(s): INIA Las Brujas. |
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73. | | LA MANNA, A.; MENDOZA, A.; MORALES-PIÑEYRUA, J.; DELUCCHI, M.; PLA, M.; HIRIGOYEN, D.; LATTANZI, F.; ROMAN, L.; FARIÑA, S. Ideas para aliviar el efecto del barro en el tambo. Revista INIA, 2016, no.45, p. 17-19. (Revista INIA; 45). Artículo publicado en: Revista Todotambo, 2016, no. 209, p. 62-64.Biblioteca(s): INIA La Estanzuela; INIA Tacuarembó. |
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75. | | FERNANDEZ, E.; CLARIGET, J.M.; ZARZA, R.; LATTANZI, F.; BANCHERO, G.; LA MANNA, A.; CANOZZI, M.E.A. Sistemas ganaderos intensivos de la región suroeste y centro sur del país: ¿cuáles son las prácticas tecnológicas y decisiones de manejo predominantes en las empresas?. Primera parte: Caracterización de los sistemas, especies y manejo del pastoreo. Socio-Economía. Revista INIA Uruguay, 2020, no.63, p.34-38. (Revista INIA; 63).Biblioteca(s): INIA La Estanzuela; INIA Las Brujas. |
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76. | | FERNANDEZ, E.; CLARIGET, J.M.; ZARZA, R.; LATTANZI, F.; BANCHERO, G.; LA MANNA, A.; CANOZZI, M.E.A. Sistemas ganaderos intensivos de la región suroeste y centro sur del país: ¿cuáles son las prácticas tecnológicas y decisiones de manejo predominantes en las empresas?. Segunda parte: Reservas forrajeras, suplementación y cultivos de cobertura. Socio-Economía. Revista INIA Uruguay, 2021, no.64, p.55-60. (Revista INIA; 64).Biblioteca(s): INIA Las Brujas. |
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78. | | ALECRIM, F.; DEVINCENZI, T.; REYNO, R.; MEDEROS, A.; SIMÓN, C.; MARIOTTA, J.; SANTANDER, D.; LATTANZI, F.; IRIGOYEN, L.; CIGANDA, V. El uso de leguminosas forrajeras en mejoramientos de campo natural como estrategia de intensificación sostenible para la ganadería de carne: su implicancia en las emisiones entéricas de metano y en la eficiencia de la utilización del nitrógeno. Sustentabilidad. Revista INIA Uruguay, Marzo 2024, no.76, p.51-55. (Revista INIA; 76).Biblioteca(s): INIA Las Brujas. |
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79. | | JÁUREGUI, J.M.; OJEDA, J.J.; BERONE, G.D.; LATTANZI, F.; BAUDRACCO, J.; FARIÑA, S.; MOOT, D.J. Yield gaps of lucerne (Medicago sativa L.) in livestock systems of Argentina. Annals of Applied Biology, July 2022, Volume 181, Issue 1, pages 22-32. doi: https://doi.org/10.1111/aab.12745 Article history: Received: 24 March 2021/ Revised: 8 October 2021/ Accepted: 9 October 2021. -- Corresponding author: Jáuregui, J.M.; Facultad de Ciencias Agrarias, Universidad Nacional del Litoral, Kreder 2807, Santa Fe, Esperanza,...Biblioteca(s): INIA La Estanzuela. |
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80. | | ALECRIM, F.; SIMÓN, C.; SANTANDER, D.; MARIOTTA, J.; MULETA, E.; MARCHELLI, J.P.; LATTANZI, F.; NÓBREGA, G.N.; RODRIGUES, R.A.R.; CIGANDA, V. AP 27. Nitrogen in beef cattle excreta as affected by the inclusion of high tannins legume on native grasslands. [abstract]. [Nitrógeno en excretas de ganado de carne afectados por la inclusión de leguminosas con alto contenido de taninos en NG]. [resumen]. En: Congreso Argentino de Producción Animal Virtual, 45, 16 al 18 de noviembre 2022. p.356. (Revista Argentina de Producción Animal ; 42 Suplemento 1). Corresponding author: Ciganda, V.S. Instituto Nacional de Investigación Agropecuaria (INIA, Uruguay). E-mail: vciganda@inia.org.uyBiblioteca(s): INIA Las Brujas. |
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Registros recuperados : 100 | |
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Registro completo
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Biblioteca (s) : |
INIA La Estanzuela. |
Fecha actual : |
16/06/2022 |
Actualizado : |
02/12/2022 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Circulación / Nivel : |
Internacional - -- |
Autor : |
JÁUREGUI, J.M.; OJEDA, J.J.; BERONE, G.D.; LATTANZI, F.; BAUDRACCO, J.; FARIÑA, S.; MOOT, D.J. |
Afiliación : |
JOSÉ MARTÍN JÁUREGUI, Facultad de Ciencias Agrarias, Universidad Nacional del Litoral, Kreder 2807, Esperanza, Santa Fe, 3080 Argentina; Gentos S.A., Dardo Rocha 3197, Martínez, Buenos Aires.; JONATHAN J. OJEDA, Regrow Ag, Brisbane, Queensland, Australia.; GERMÁN DARÍO BERONE, EEA Balcarce, Instituto Nacional de Tecnología Agropecuaria, Ruta 226, Km 73,5, Balcarce, Buenos Aires, 7620 Argentina Facultad de Ciencias Agrarias, Universidad Nacional de Mar del Plata, Ruta 226, km 73,5, Balcarce, Buenos Aires,Ar.; FERNANDO A. LATTANZI, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; JAVIER BAUDRACCO, Facultad de Ciencias Agrarias, Universidad Nacional del Litoral, Kreder 2807, Esperanza, Santa Fe, 3080 Argentina.; SANTIAGO FARIÑA, INIA (Instituto Nacional de Investigación Agropecuaria); DERRICK J. MOOT, Faculty of Agriculture and Life Sciences, Field Research Centre, PO Box 7647, Lincoln University, Canterbury, New Zealand. |
Título : |
Yield gaps of lucerne (Medicago sativa L.) in livestock systems of Argentina. |
Fecha de publicación : |
2022 |
Fuente / Imprenta : |
Annals of Applied Biology, July 2022, Volume 181, Issue 1, pages 22-32. doi: https://doi.org/10.1111/aab.12745 |
ISSN : |
0003-4746 |
DOI : |
10.1111/aab.12745 |
Idioma : |
Inglés |
Notas : |
Article history: Received: 24 March 2021/ Revised: 8 October 2021/ Accepted: 9 October 2021. -- Corresponding author: Jáuregui, J.M.; Facultad de Ciencias Agrarias, Universidad Nacional del Litoral, Kreder 2807, Santa Fe, Esperanza, Argentina; email:josemartinjauregui@gmail.com -- Funding:
The authors thank Dr Gonzalo Berhongaray for his insightful comments that helped to improve the manuscript and an anonymous referee who provided valuable feedback. The authors also wish to specially thank everyone involved in the data collection of the NLCEN (Valeria Arolfo, Ariel Odorizzi, Daniel Basigalup, Silvia Olivo, Luis Romero, Alejo Re, Cecilia Sardiña, Laura Fontana, Néstor Romero, Mario Funes, Mónica Cornacchione, Elena Di Nucci, Juan José Gallego, Fernanda Neira Zilli, Dante Pueyo and Lourdes Mijoevich). FAL was financially supported by PROCISUR and FONTAGRO through the project “Uso de leguminosas en sistemas ganaderos sudamericanos”. GDB was financially supported by INTA (project “Incremento sostenible de la producción y utilización de pasturas y forrajes conservados”) and FCA-UNMDP (project “Uso responsable del nitrógeno en ganadería: fertilización y leguminosas”). |
Contenido : |
Abstract:
Argentina grows the second-largest area of lucerne in the world. Despite its importance, a yield gap exists between potential and measured yields, but factors contributing to it are still unclear. This study aimed to identify management factors and research needs to reduce the lucerne yield gap to improve the livestock systems in this region. We used meteorological data coupled with lucerne crop modelling and measured yields from the National Lucerne Cultivar Evaluation Network (NLCEN) to quantify the lucerne yield gap in nine sites located within the Argentinian Pampas (between parallels 30?45°S and meridians 58?65°W) and three sites outside the Pampas. Specifically, we used the model developed by McCall & Bishop-Hurley (2003), adapted and calibrated for lucerne in Argentina by Berone et al. (2017) to estimate the potential yield (PY) for 12 locations (three irrigated and nine rainfed), and compared those results with measured yields from the NLCEN to calculate yield gaps. We found the average available photosynthetic active radiation (PAR) and temperatures were sufficient to achieve 21.5 ±?3.7 t dry matter (DM) ha?1 yr?1 under rainfed conditions (environments with mean annual rainfall from 400 to 1,200?mm). However, the average measured yield from the NLCEN was 16.8 ±?2.4 t DM ha?1 yr?1 (a 22% gap). Potential yields ranged between 10 and 25?t DM ha?1 yr?1 under rainfed conditions and between 25 and 39?t DM ha?1 yr?1 for irrigated crops. As latitude increased rainfed locations had lower yields, while irrigated locations had higher yields. Adding irrigation was predicted to increase yields to 35.4 ±?2.0 t DM ha?1 yr?1 (a 53% gap) in rainfed sites. For irrigated locations, the gap was smaller (27.3 ±?3.5 vs 32.4 ±?2.2 t DM ha?1 yr?1 for measured vs potential yield, respectively), and most likely linked to nutrient deficits. Also, current grazing management was estimated to achieve approximately 50% less grazing efficiency than optimal grazing management. Our results demonstrated that the livestock industry can potentially increase animal production under current environmental conditions. The four main adjustments to achieve this are increased use of irrigation, increased use of fertilisers, earlier commencement of grazing in spring and increased stocking rates. The costs of irrigation, fertilisers and grazing management are envisaged to be small compared with potential increases in incomes and thus profitability available to beef and dairy farmers using lucerne as a major feed source in Argentina. MenosAbstract:
Argentina grows the second-largest area of lucerne in the world. Despite its importance, a yield gap exists between potential and measured yields, but factors contributing to it are still unclear. This study aimed to identify management factors and research needs to reduce the lucerne yield gap to improve the livestock systems in this region. We used meteorological data coupled with lucerne crop modelling and measured yields from the National Lucerne Cultivar Evaluation Network (NLCEN) to quantify the lucerne yield gap in nine sites located within the Argentinian Pampas (between parallels 30?45°S and meridians 58?65°W) and three sites outside the Pampas. Specifically, we used the model developed by McCall & Bishop-Hurley (2003), adapted and calibrated for lucerne in Argentina by Berone et al. (2017) to estimate the potential yield (PY) for 12 locations (three irrigated and nine rainfed), and compared those results with measured yields from the NLCEN to calculate yield gaps. We found the average available photosynthetic active radiation (PAR) and temperatures were sufficient to achieve 21.5 ±?3.7 t dry matter (DM) ha?1 yr?1 under rainfed conditions (environments with mean annual rainfall from 400 to 1,200?mm). However, the average measured yield from the NLCEN was 16.8 ±?2.4 t DM ha?1 yr?1 (a 22% gap). Potential yields ranged between 10 and 25?t DM ha?1 yr?1 under rainfed conditions and between 25 and 39?t DM ha?1 yr?1 for irrigated crops. As latitude increased rain... Presentar Todo |
Palabras claves : |
ALFALFA; CROP MANAGEMENT; GRAZING MANAGEMENT; MEDICAGO SATIVA L. |
Thesagro : |
ARGENTINA. |
Asunto categoría : |
-- |
Marc : |
LEADER 04602naa a2200289 a 4500 001 1063318 005 2022-12-02 008 2022 bl uuuu u00u1 u #d 022 $a0003-4746 024 7 $a10.1111/aab.12745$2DOI 100 1 $aJÁUREGUI, J.M. 245 $aYield gaps of lucerne (Medicago sativa L.) in livestock systems of Argentina.$h[electronic resource] 260 $c2022 500 $aArticle history: Received: 24 March 2021/ Revised: 8 October 2021/ Accepted: 9 October 2021. -- Corresponding author: Jáuregui, J.M.; Facultad de Ciencias Agrarias, Universidad Nacional del Litoral, Kreder 2807, Santa Fe, Esperanza, Argentina; email:josemartinjauregui@gmail.com -- Funding: The authors thank Dr Gonzalo Berhongaray for his insightful comments that helped to improve the manuscript and an anonymous referee who provided valuable feedback. The authors also wish to specially thank everyone involved in the data collection of the NLCEN (Valeria Arolfo, Ariel Odorizzi, Daniel Basigalup, Silvia Olivo, Luis Romero, Alejo Re, Cecilia Sardiña, Laura Fontana, Néstor Romero, Mario Funes, Mónica Cornacchione, Elena Di Nucci, Juan José Gallego, Fernanda Neira Zilli, Dante Pueyo and Lourdes Mijoevich). FAL was financially supported by PROCISUR and FONTAGRO through the project “Uso de leguminosas en sistemas ganaderos sudamericanos”. GDB was financially supported by INTA (project “Incremento sostenible de la producción y utilización de pasturas y forrajes conservados”) and FCA-UNMDP (project “Uso responsable del nitrógeno en ganadería: fertilización y leguminosas”). 520 $aAbstract: Argentina grows the second-largest area of lucerne in the world. Despite its importance, a yield gap exists between potential and measured yields, but factors contributing to it are still unclear. This study aimed to identify management factors and research needs to reduce the lucerne yield gap to improve the livestock systems in this region. We used meteorological data coupled with lucerne crop modelling and measured yields from the National Lucerne Cultivar Evaluation Network (NLCEN) to quantify the lucerne yield gap in nine sites located within the Argentinian Pampas (between parallels 30?45°S and meridians 58?65°W) and three sites outside the Pampas. Specifically, we used the model developed by McCall & Bishop-Hurley (2003), adapted and calibrated for lucerne in Argentina by Berone et al. (2017) to estimate the potential yield (PY) for 12 locations (three irrigated and nine rainfed), and compared those results with measured yields from the NLCEN to calculate yield gaps. We found the average available photosynthetic active radiation (PAR) and temperatures were sufficient to achieve 21.5 ±?3.7 t dry matter (DM) ha?1 yr?1 under rainfed conditions (environments with mean annual rainfall from 400 to 1,200?mm). However, the average measured yield from the NLCEN was 16.8 ±?2.4 t DM ha?1 yr?1 (a 22% gap). Potential yields ranged between 10 and 25?t DM ha?1 yr?1 under rainfed conditions and between 25 and 39?t DM ha?1 yr?1 for irrigated crops. As latitude increased rainfed locations had lower yields, while irrigated locations had higher yields. Adding irrigation was predicted to increase yields to 35.4 ±?2.0 t DM ha?1 yr?1 (a 53% gap) in rainfed sites. For irrigated locations, the gap was smaller (27.3 ±?3.5 vs 32.4 ±?2.2 t DM ha?1 yr?1 for measured vs potential yield, respectively), and most likely linked to nutrient deficits. Also, current grazing management was estimated to achieve approximately 50% less grazing efficiency than optimal grazing management. Our results demonstrated that the livestock industry can potentially increase animal production under current environmental conditions. The four main adjustments to achieve this are increased use of irrigation, increased use of fertilisers, earlier commencement of grazing in spring and increased stocking rates. The costs of irrigation, fertilisers and grazing management are envisaged to be small compared with potential increases in incomes and thus profitability available to beef and dairy farmers using lucerne as a major feed source in Argentina. 650 $aARGENTINA 653 $aALFALFA 653 $aCROP MANAGEMENT 653 $aGRAZING MANAGEMENT 653 $aMEDICAGO SATIVA L 700 1 $aOJEDA, J.J. 700 1 $aBERONE, G.D. 700 1 $aLATTANZI, F. 700 1 $aBAUDRACCO, J. 700 1 $aFARIÑA, S. 700 1 $aMOOT, D.J. 773 $tAnnals of Applied Biology, July 2022, Volume 181, Issue 1, pages 22-32. doi: https://doi.org/10.1111/aab.12745
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