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| Registros recuperados : 144 | |
| 6. |  | UBIOS, D.; MENDOZA, A. ¿Hay diferencias productivas y económicas por concentrar y/o mover la época de parto?. En: INIA La Estanzuela; UCTT (Eds.). 2024. Jornada de lechería de INIA La Estanzuela. Tecnologías para sistemas pastoriles eficientes y sostenibles. Colonia (UY): INIA. (Serie Actividades de Difusión; 806). p.41-47. (Serie Actividades de Difusión; 806). Más información: http://www.inia.uy/estaciones-experimentales/direcciones-regionales/inia-la-estanzuela/Jornada-Lechera-de-INIA-La-Estanzuela-Tecnologias-para-sistemas-pastoriles-eficientes-y-sostenibles| Biblioteca(s): INIA Las Brujas. |
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| 7. | | FIOL, C.; MENDOZA, A. Management of dairy heifers in Uruguay: Effects of feeding level and social environment on prepubertal development. [Manejo de vaquillonas lecheras en Uruguay: Efectos del nivel de alimentación y el ambiente social sobre el desarrollo prepuberal.]. [Manejo de novilhas leiteiras no Uruguai: Efeitos no nível de alimentação e do ambiente social no desenvolvimento pré-puberal.]. Recent advances and emerging trends of dairy production in Uruguay. Agrociencia Uruguay, 2024, Vol.28 (NE1), e1217. https://doi.org/10.31285/AGRO.28.1217 -- OPEN ACCESS. Article history: Received 22 Jun 2023, Accepted 20 Feb 2024, Published 23 May 2024. -- Correspondence: Carolina Fiol, cfiolepera@gmail.com --
Correspondence: Alejandro Mendoza, amendoza@inia.org.uy -- Editor: Mariana Carriquiry,...| Biblioteca(s): INIA Las Brujas. |
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| 13. | | MENDOZA, A.; CAJARVILLE ,C.; REPETTO, J. Digestive response of dairy cows fed diets combining fresh forage with a total mixed ration. Journal of Dairy Science , v. 99, n.11, p. 8779-8789, 2016. Article history: Published online: August 18, 2016.//Accepted: May 11, 2016.//Received: February 11, 2016.| Biblioteca(s): INIA La Estanzuela. |
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| 19. | | BENOIT, I.; GARCÍA-ROCHE, M.; MENDOZA, A. Somatotropic axis of Holstein cows of diverging genetic origin under two pasture-based systems. (Session 97, Theatre 1). Session 97. Biological mechanisms regulating inflammatory and energy metabolism in livestock species. Theatre Session 97. Conference Proceedings. In: Annual Meeting of the European Federation of Animal Science (EAAP), 75., Florence, Italy, 1st-5th September, 2024. Book of Abstracts, No.34: pp. 1035. Conference website: https://eaap2024.org/| Biblioteca(s): INIA Las Brujas. |
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| 20. | | MENDOZA, A.; CAJARVILLE, C.; REPETTO, J.L. Short communication: Intake, milk production, and milk fatty acid profile of dairy cows fed diets combining fresh forage with a total mixed ration. Journal of Dairy Science, 2016, v.99, no.3, p.1938-1944. Received 14 August 2015, Accepted 15 November 2015, Available online 6 January 2016| Biblioteca(s): INIA Las Brujas. |
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 | Acceso al texto completo restringido a Biblioteca INIA Las Brujas. Por información adicional contacte bibliolb@inia.org.uy. |
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Registro completo
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Biblioteca (s) : |
INIA Las Brujas. |
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Fecha actual : |
30/10/2024 |
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Actualizado : |
30/10/2024 |
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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 : |
BARUSELLI, P. S.; ABREU, L. A.; MENCHACA, A.; BÓ, G. A. |
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Afiliación : |
P. S. BARUSELLI, Department of Animal Reproduction, University of São Paulo, São Paulo, Brazil; L. A. ABREU, Department of Animal Reproduction, University of São Paulo, São Paulo, Brazil; JOSE ALEJO MENCHACA BARBEITO, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; Instituto de Reproducción Animal Uruguay (Fundación IRAUy), Montevideo, Uruguay; G. A. BÓ, Instituto de Reproducción Animal Córdoba (IRAC), Córdoba, Argentina; Universidad Nacional de Villa Maria, Cordoba, Argentina. |
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Título : |
The future of beef production in South America. |
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Fecha de publicación : |
2024 |
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Fuente / Imprenta : |
Theriogenology, 2025, Volume 231, Pages 21-28. https://doi.org/10.1016/j.theriogenology.2024.10.004 |
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ISSN : |
0093-691X |
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DOI : |
10.1016/j.theriogenology.2024.10.004 |
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Idioma : |
Inglés |
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Notas : |
Article history: Received 1 September 2024, Revised 3 October 2024, Accepted 6 October 2024, Available online 8 October 2024, Version of Record 10 October 2024, To be published 1 January 2025. -- Corresponde: Baruselli, P.S.; Department of Animal Reproduction, University of São Paulo, São Paulo, Brazil; email:barusell@usp.br -- Funding: FAPESP (grant number 2019/14679-1), CNPq (grant number 315978/2021-0), and CAPES (grant number 001) for original research included in this review. -- Part of special issue: Anniversary SI in THE (https://www.sciencedirect.com/science/journal/0093691X/vsi/10JH4BB3RP7 ), Edited by Dr. Marc-Antoine Driancourt Astek, Boulogne Billancourt, France. |
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Contenido : |
ABSTRACT.- South American beef production varies due to diverse climates, environmental conditions, animal breeds (Bos indicus, Bos taurus and crossbreeds), management strategies, and nutritional sources. Applying technology in the South American beef production system can significantly enhance efficiency, sustainability, and profitability. Reproductive efficiency is a significant challenge, especially in cow-calf operation systems conducted under adverse conditions. Consequently, implementing effective assisted reproduction technologies (ART) can make a significant contribution. In the last two decades, the development of fixed-time artificial insemination (FTAI) protocols permitted the widespread application of artificial insemination for breeding management and genetic improvement in beef herds in South America. Nowadays, FTAI is being applied in South America in large-scale programs, with around 20 % of heifers and cows receiving this technology every year. This results in a greater calving rate and significant genetic gain occurring in this territory. Also, in vitro embryo production, mainly using sex-selected sperm has been widely applied in this region, leading to significant improvements in herd genetics and productivity. Recently, 94 % of all embryo transfers in South America consist of in vitro-produced embryos (41,429 being in vivo-derived and 650,782 being in vitro-produced embryos), mainly using fixed-time embryo transfer technology (FTET). Genomic selection combined with in vitro embryo production with oocytes from heifer calves provides a powerful technology platform to reduce generation interval and significantly increase the rate of genetic gain in beef cattle. Emerging biotechnologies, such as genome editing via the CRISPR/Cas system, are being developed to enhance productivity, confer resilience to adverse environmental conditions, increase disease resistance, and control pest species that affect livestock. Finally, while all these technologies offer significant potential, further progresses are needed to transform livestock production. The vast geographical scale and diverse climates of South America make regional knowledge crucial for aligning beef production with sustainability goals and supporting global food security. © 2024 MenosABSTRACT.- South American beef production varies due to diverse climates, environmental conditions, animal breeds (Bos indicus, Bos taurus and crossbreeds), management strategies, and nutritional sources. Applying technology in the South American beef production system can significantly enhance efficiency, sustainability, and profitability. Reproductive efficiency is a significant challenge, especially in cow-calf operation systems conducted under adverse conditions. Consequently, implementing effective assisted reproduction technologies (ART) can make a significant contribution. In the last two decades, the development of fixed-time artificial insemination (FTAI) protocols permitted the widespread application of artificial insemination for breeding management and genetic improvement in beef herds in South America. Nowadays, FTAI is being applied in South America in large-scale programs, with around 20 % of heifers and cows receiving this technology every year. This results in a greater calving rate and significant genetic gain occurring in this territory. Also, in vitro embryo production, mainly using sex-selected sperm has been widely applied in this region, leading to significant improvements in herd genetics and productivity. Recently, 94 % of all embryo transfers in South America consist of in vitro-produced embryos (41,429 being in vivo-derived and 650,782 being in vitro-produced embryos), mainly using fixed-time embryo transfer technology (FTET). Genomic selection com... Presentar Todo |
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Palabras claves : |
CO2 equivalent emissions; PLATAFORMA DE INVESTIGACIÓN EN SALUD ANIMAL - INIA; Productive and reproductive efficiency; Profitable beef and dairy industry; Sustainability. |
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Asunto categoría : |
L01 Ganadería |
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Marc : |
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022 $a0093-691X
024 7 $a10.1016/j.theriogenology.2024.10.004$2DOI
100 1 $aBARUSELLI, P. S.
245 $aThe future of beef production in South America.$h[electronic resource]
260 $c2024
500 $aArticle history: Received 1 September 2024, Revised 3 October 2024, Accepted 6 October 2024, Available online 8 October 2024, Version of Record 10 October 2024, To be published 1 January 2025. -- Corresponde: Baruselli, P.S.; Department of Animal Reproduction, University of São Paulo, São Paulo, Brazil; email:barusell@usp.br -- Funding: FAPESP (grant number 2019/14679-1), CNPq (grant number 315978/2021-0), and CAPES (grant number 001) for original research included in this review. -- Part of special issue: Anniversary SI in THE (https://www.sciencedirect.com/science/journal/0093691X/vsi/10JH4BB3RP7 ), Edited by Dr. Marc-Antoine Driancourt Astek, Boulogne Billancourt, France.
520 $aABSTRACT.- South American beef production varies due to diverse climates, environmental conditions, animal breeds (Bos indicus, Bos taurus and crossbreeds), management strategies, and nutritional sources. Applying technology in the South American beef production system can significantly enhance efficiency, sustainability, and profitability. Reproductive efficiency is a significant challenge, especially in cow-calf operation systems conducted under adverse conditions. Consequently, implementing effective assisted reproduction technologies (ART) can make a significant contribution. In the last two decades, the development of fixed-time artificial insemination (FTAI) protocols permitted the widespread application of artificial insemination for breeding management and genetic improvement in beef herds in South America. Nowadays, FTAI is being applied in South America in large-scale programs, with around 20 % of heifers and cows receiving this technology every year. This results in a greater calving rate and significant genetic gain occurring in this territory. Also, in vitro embryo production, mainly using sex-selected sperm has been widely applied in this region, leading to significant improvements in herd genetics and productivity. Recently, 94 % of all embryo transfers in South America consist of in vitro-produced embryos (41,429 being in vivo-derived and 650,782 being in vitro-produced embryos), mainly using fixed-time embryo transfer technology (FTET). Genomic selection combined with in vitro embryo production with oocytes from heifer calves provides a powerful technology platform to reduce generation interval and significantly increase the rate of genetic gain in beef cattle. Emerging biotechnologies, such as genome editing via the CRISPR/Cas system, are being developed to enhance productivity, confer resilience to adverse environmental conditions, increase disease resistance, and control pest species that affect livestock. Finally, while all these technologies offer significant potential, further progresses are needed to transform livestock production. The vast geographical scale and diverse climates of South America make regional knowledge crucial for aligning beef production with sustainability goals and supporting global food security. © 2024
653 $aCO2 equivalent emissions
653 $aPLATAFORMA DE INVESTIGACIÓN EN SALUD ANIMAL - INIA
653 $aProductive and reproductive efficiency
653 $aProfitable beef and dairy industry
653 $aSustainability
700 1 $aABREU, L. A.
700 1 $aMENCHACA, A.
700 1 $aBÓ, G. A.
773 $tTheriogenology, 2025, Volume 231, Pages 21-28. https://doi.org/10.1016/j.theriogenology.2024.10.004
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