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Registros recuperados : 9 | |
3. | | GIANNITTI, F.; GARCÍA, J.P.; ROOD, J.I.; ADAMS, V.; ARMENDANO, J.I.; BEINGESSER, J.; UZAL, F.A. Cardiopulmonary Lesions in Sheep Produced by Experimental Acute Clostridium Perfringens Type D Enterotoxemia. Veterinay Pathology, volumen 58, number 1, pag. 103-113, 2021. Doi: https://doi.org/10.1177/0300985820965554 Article history: First Published October 15, 2020. Corresponding Author:Francisco A. Uzal, Email: fuzal@cahfs.ucdavis.edu. The author(s) disclosed receipt of the following financial support for the research, authorship, and/or...Biblioteca(s): INIA La Estanzuela. |
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4. | | LOUGE URIARTE, E.; GONZÁLEZ PASAYO, R.; MASSÓ, M.; CARRERA PAÉZ, L.; DOMÍNGUEZ MONCLA, M.; DONIS, N.; MALENA, R.; MÉNDEZ, A.; MORRELL, E.; GIANNITTI, F.; ARMENDANO, J.I.; FAVERIN, C.; CENTRÓN, D.; PARREÑO, V.; ODEÓN, A.C.; QUIROGA, M.P.; MOREIRA, A.R. Molecular characterization of multidrug-resistant Escherichia coli of the phylogroups A and C in dairy calves with meningitis and septicemia. Microbial Pathogenesis, 2022, Volume 163, Article number 105378. doi: https://doi.org/10.1016/j.micpath.2021.105378 Article history: Received 8 October 2021; Received in revised form 21 December 2021; Accepted 28 December 2021; Available online 1 January 2022.
Corresponding authors: Louge Uriarte, E.L.; Instituto Nacional de Tecnología Agropecuaria...Biblioteca(s): INIA Las Brujas. |
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5. | | MACÍAS-RIOSECO, M.; ARMENDANO, J.I.; COSTA, R.A. DA; FRAGA, M.; CAFFARENA, D.; ARÁOZ, V.; PLA, M.; GIANNITTI, F.; RIET-CORREA, F. Caída en la producción láctea, signos respiratorios agudos y muertes asociadas a estrés calórico en bovinos lecheros de Uruguay.(Drop in milk production, acute respiratory signs and deaths associated with heat stress in dairy cattle in Uruguay). Veterinaria (Montevideo), 2018, v. 55 n. 209. p.4-8. Article History: Recibido: 21/09/2017 // Aceptado: 21/02/2018.Biblioteca(s): INIA La Estanzuela. |
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6. | | RODRIGUEZ, A.M.; SCHILD, C.; CANTÓN, G.J.; RIET-CORREA, F.; ARMENDANO, J.I.; CAFFARENA, D.; BRAMBILLA, E.C.; GARCÍA, J.A.; MORRELL, E.L; POPPENGA, R.; GIANNITTI, F. White muscle disease in three selenium deficient beef and dairy calves in Argentina and Uruguay. (Doença do músculo branco em três bezerros para carne e leite deficientes em selênio na Argentina e Uruguai). Ciência Rural, Santa Maria, v.48, 2018. Epub May 21, 2018. Article History: Received 10.11.17//Approved 04.02.18// Returned by the author 04.28.18.Biblioteca(s): INIA La Estanzuela. |
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7. | | SCHILD, C.; ARMENDANO, J.I.; LIBOREIRO, M.; BRESKY, F.; MORRELL, E.; ODRIOZOLA, E.; CANTÓN, G. Caudal vena cava thrombosis in a dairy cow (Bos taurus) in Argentina. [Trombose da veia cava caudal em uma vaca leiteira (Bos taurus) na Argentina.] Ciência Rural, 47(6), e20160917. Epub May 04, 2017. Article history: Received: October 05, 2016; Accepted: March 08, 2017; Revised: April 10, 2017.Biblioteca(s): INIA Las Brujas. |
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8. | | SCHILD, C.; BOABAID, F.M.; OLIVEIRA, L.G.S.; ARMENDANO, J.I.; SARAVIA, A.; CUSTODIO, A.; ALGORTA, J.; ALVAREZ, C.; JAURENA, M.; DIXON, R.M.; RIET-CORREA, F. Response of cows with osteomalacia grazing sub-tropical native pastures to phosphorus supplementation with loose mineral mix or feed blocks. Veterinary Journal. 2023, Volume 298-299, 106013. https://doi.org/10.1016/j.tvjl.2023.106013 Article history: Accepted 20 June 2023; Available online 22 June 2023. -- Correspondence author: Riet-Correa, F.; Programa de pós-graduação em Ciência Animal nos Trópicos, Escola de Medicina Veterinária e Zootecnia, Universidade Federal...Biblioteca(s): INIA Las Brujas. |
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9. | | SILVEIRA, C.S.; ARMENDANO, J.I.; MOORE, D.P.; CANTÓN, G.J.; MACÍAS-RIOSECO, M.; RIET-CORREA, F.; GIANNITTI, F. A comparative study of commercial ELISAs for antibody detection in the diagnostic investigation of Neospora caninum-associated abortion in dairy cattle herds in Uruguay. [Comparación de ELISAs comerciales para la detección de anticuerpos en la investigación diagnóstica del aborto asociado a Neospora caninum en rodeos lecheros de Uruguay]. Revista Argentina de Microbiología, April - June 2020, Volume 52, Issue 2, Pages 107-114. OPEN ACCESS. Doi: https://doi.org/10.1016/j.ram.2019.06.004 Article history: Recibido 01 marzo 2019. / Aceptado 24 junio 2019. / Disponible online 28 de Noviembre de 2019.
Corresponding author: da Silva Silveira, C.; Instituto Nacional de Investigación Agropecuaria (INIA), Plataforma de...Biblioteca(s): INIA Las Brujas; INIA Tacuarembó. |
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Registros recuperados : 9 | |
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| Acceso al texto completo restringido a Biblioteca INIA Tacuarembó. Por información adicional contacte bibliotb@tb.inia.org.uy. |
Registro completo
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Biblioteca (s) : |
INIA Tacuarembó. |
Fecha actual : |
21/02/2014 |
Actualizado : |
01/10/2019 |
Tipo de producción científica : |
Artículos en Revistas Indexadas Internacionales |
Circulación / Nivel : |
Internacional - -- |
Autor : |
STEWART, J.E.; ROSS-DAVIS, A.L.; GRAÇA, R.N.; ALFENAS, A.C.; PEEVER, T.L.; HANNA, J.W.; UCHIDA, J.Y.; HAUFF, R.D.; KADOOKA, C.Y.; KIM, M.S.; CANNON, P.G.; NAMBA, S.; SIMETO, S.; PÉREZ, C.A.; RAYMAJHI, M.B.; LODGE, D.J.; ARGUEDAS, M.; MEDEL-ORTIZ, R.; LÓPEZ-RAMIREZ, M.A.; TENNANT, P.; GLEN, M.; MACHADO, P.S.; MCTAGGART, A.R.; CARNEGIE, A.J.; KLOPFENTEIN, N.B. |
Afiliación : |
1Department of Bioagricultural Science and Pest Management, Colorado State University, USA.; USDA Forest Service, Rocky Mountain Research Station, Moscow Forestry Sciences Laboratory, USA.; FuturaGene Brasil Tecnologia Ltda, Brazil.; Department of Plant Pathology, Universidade Federal de Viçosa, Brazil.; Department of Plant Pathology, Washington State University, USA.; USDA Forest Service, Rocky Mountain Research Station, Moscow Forestry Sciences Laboratory, USA.; Department of Plant and Environmental Protection Sciences, University of Hawaii at Manoa, USA.; Division of Forestry and Wildlife, Department of Lands and Natural Resources, Honolulu, USA.; Department of Plant and Environmental Protection Sciences, University of Hawaii at Manoa, Honolulu, USA.; Department of Forestry, Environment and Systems, Kookmin University, Seoul, South Korea.; USDA Forest Service, Forest Health Protection, USA.; Department of Agricultural and Environmental Biology, The University of Tokyo, Japan.; SOFIA SIMETO FERRARI, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; Departamento de Protección Vegetal, EEMAC, Facultad de Agronomía, Universidad de la República, Paysandú, Uruguay.; USDA, Agricultural Research Service, Invasive Plant Research Laboratory, Fort Lauderdale, FL, USA.; USDA Forest Service, Northern Research Station, Luquillo, Puerto Rico.; Escuela de Ingeniería Forestal, Instituto Tecnológico de Costa Rica, Cartago, Costa Rica.; Instituto de Investigaciones Forestales, Universidad Veracruzana, Xalapa, Mexico.; Instituto de Investigaciones Forestales, Universidad Veracruzana, Xalapa, Mexico.; The Biotechnology Centre, University of the West Indies, Mona, Jamaica.; Tasmanian Institute of Agriculture, University of Tasmania, Hobart, Australia.; Department of Plant Pathology, Universidade Federal de Viçosa, Brazil.; Queensland Alliance for Agriculture and Food Innovation, The University of Queensland, Brisbane, Australia.; NSW Department of Primary Industries, NSW Forest Science, Parramatta, Australia.; USDA Forest Service, Rocky Mountain Research Station, Moscow Forestry Sciences Laboratory, Moscow, USA. |
Título : |
Genetic diversity of the myrtle rust pathogen (Austropuccinia psidii) in the Americas and Hawaii: Global implications for invasive threat assessments. |
Fecha de publicación : |
2017 |
Fuente / Imprenta : |
Forest Pathology, v. 48, no. 1, 2017. |
DOI : |
10.1111/efp.12378 |
Idioma : |
Inglés |
Notas : |
Article history: Received: 14 February 2017 // Accepted: 3 August 2017. |
Contenido : |
Since the myrtle rust pathogen (Austropuccinia psidii) was first reported (as Puccinia psidii) in Brazil on guava (Psidium guajava) in 1884, it has been found infecting diverse myrtaceous species. Because A. psidii has recently spread rapidly worldwide with an extensive host range, genetic and genotypic diversities were evaluated within and among A. psidii populations in its putative native range and other areas of myrtle rust emergence in the Americas and Hawaii. Microsatellite markers revealed several unique multilocus genotypes (MLGs), which grouped isolates into nine distinct genetic clusters [C1?C9 comprising C1: from diverse hosts from Costa Rica, Jamaica, Mexico, Puerto Rico, and USA-Hawaii, and USA-California; C2: from eucalypts (Eucalyptus spp.) in Brazil/Uruguay and rose apple (Syzygium jambos) in Brazil; C3: from eucalypts in Brazil; C4: from diverse hosts in USA-Florida; C5: from Java plum (Syzygium cumini) in Brazil; C6: from guava and Brazilian guava (Psidium guineense) in Brazil; C7: from pitanga (Eugenia uniflora) in Brazil; C8: from allspice (Pimenta dioica) in Jamaica and sweet flower (Myrrhinium atropurpureum) in Uruguay; C9: from jabuticaba (Myrciaria cauliflora) in Brazil]. The C1 cluster, which included a single MLG infecting diverse host in many geographic regions, and the closely related C4 cluster are considered as a ?Pandemic biotype,? associated with myrtle rust emergence in Central America, the Caribbean, USA-Florida, USA-Hawaii, Australia, China-Hainan, New Caledonia, Indonesia and Colombia. Based on 19 bioclimatic variables and documented occurrences of A. psidii contrasted with reduced sets of specific genetic clusters (subnetworks, considered as biotypes), maximum entropy bioclimatic modelling was used to predict geographic locations with suitable climate for A. psidii which are at risk from invasion. The genetic diversity of A. psidii throughout the Americas and Hawaii demonstrates the importance of recognizing biotypes when assessing the invasive threats posed by A. psidii around the globe. MenosSince the myrtle rust pathogen (Austropuccinia psidii) was first reported (as Puccinia psidii) in Brazil on guava (Psidium guajava) in 1884, it has been found infecting diverse myrtaceous species. Because A. psidii has recently spread rapidly worldwide with an extensive host range, genetic and genotypic diversities were evaluated within and among A. psidii populations in its putative native range and other areas of myrtle rust emergence in the Americas and Hawaii. Microsatellite markers revealed several unique multilocus genotypes (MLGs), which grouped isolates into nine distinct genetic clusters [C1?C9 comprising C1: from diverse hosts from Costa Rica, Jamaica, Mexico, Puerto Rico, and USA-Hawaii, and USA-California; C2: from eucalypts (Eucalyptus spp.) in Brazil/Uruguay and rose apple (Syzygium jambos) in Brazil; C3: from eucalypts in Brazil; C4: from diverse hosts in USA-Florida; C5: from Java plum (Syzygium cumini) in Brazil; C6: from guava and Brazilian guava (Psidium guineense) in Brazil; C7: from pitanga (Eugenia uniflora) in Brazil; C8: from allspice (Pimenta dioica) in Jamaica and sweet flower (Myrrhinium atropurpureum) in Uruguay; C9: from jabuticaba (Myrciaria cauliflora) in Brazil]. The C1 cluster, which included a single MLG infecting diverse host in many geographic regions, and the closely related C4 cluster are considered as a ?Pandemic biotype,? associated with myrtle rust emergence in Central America, the Caribbean, USA-Florida, USA-Hawaii, Australia, China-... Presentar Todo |
Thesagro : |
PATOLOGIA FORESTAL. |
Asunto categoría : |
H20 Enfermedades de las plantas |
Marc : |
LEADER 03365naa a2200445 a 4500 001 1028016 005 2019-10-01 008 2017 bl uuuu u00u1 u #d 024 7 $a10.1111/efp.12378$2DOI 100 1 $aSTEWART, J.E. 245 $aGenetic diversity of the myrtle rust pathogen (Austropuccinia psidii) in the Americas and Hawaii$bGlobal implications for invasive threat assessments.$h[electronic resource] 260 $c2017 500 $aArticle history: Received: 14 February 2017 // Accepted: 3 August 2017. 520 $aSince the myrtle rust pathogen (Austropuccinia psidii) was first reported (as Puccinia psidii) in Brazil on guava (Psidium guajava) in 1884, it has been found infecting diverse myrtaceous species. Because A. psidii has recently spread rapidly worldwide with an extensive host range, genetic and genotypic diversities were evaluated within and among A. psidii populations in its putative native range and other areas of myrtle rust emergence in the Americas and Hawaii. Microsatellite markers revealed several unique multilocus genotypes (MLGs), which grouped isolates into nine distinct genetic clusters [C1?C9 comprising C1: from diverse hosts from Costa Rica, Jamaica, Mexico, Puerto Rico, and USA-Hawaii, and USA-California; C2: from eucalypts (Eucalyptus spp.) in Brazil/Uruguay and rose apple (Syzygium jambos) in Brazil; C3: from eucalypts in Brazil; C4: from diverse hosts in USA-Florida; C5: from Java plum (Syzygium cumini) in Brazil; C6: from guava and Brazilian guava (Psidium guineense) in Brazil; C7: from pitanga (Eugenia uniflora) in Brazil; C8: from allspice (Pimenta dioica) in Jamaica and sweet flower (Myrrhinium atropurpureum) in Uruguay; C9: from jabuticaba (Myrciaria cauliflora) in Brazil]. The C1 cluster, which included a single MLG infecting diverse host in many geographic regions, and the closely related C4 cluster are considered as a ?Pandemic biotype,? associated with myrtle rust emergence in Central America, the Caribbean, USA-Florida, USA-Hawaii, Australia, China-Hainan, New Caledonia, Indonesia and Colombia. Based on 19 bioclimatic variables and documented occurrences of A. psidii contrasted with reduced sets of specific genetic clusters (subnetworks, considered as biotypes), maximum entropy bioclimatic modelling was used to predict geographic locations with suitable climate for A. psidii which are at risk from invasion. The genetic diversity of A. psidii throughout the Americas and Hawaii demonstrates the importance of recognizing biotypes when assessing the invasive threats posed by A. psidii around the globe. 650 $aPATOLOGIA FORESTAL 700 1 $aROSS-DAVIS, A.L. 700 1 $aGRAÇA, R.N. 700 1 $aALFENAS, A.C. 700 1 $aPEEVER, T.L. 700 1 $aHANNA, J.W. 700 1 $aUCHIDA, J.Y. 700 1 $aHAUFF, R.D. 700 1 $aKADOOKA, C.Y. 700 1 $aKIM, M.S. 700 1 $aCANNON, P.G. 700 1 $aNAMBA, S. 700 1 $aSIMETO, S. 700 1 $aPÉREZ, C.A. 700 1 $aRAYMAJHI, M.B. 700 1 $aLODGE, D.J. 700 1 $aARGUEDAS, M. 700 1 $aMEDEL-ORTIZ, R. 700 1 $aLÓPEZ-RAMIREZ, M.A. 700 1 $aTENNANT, P. 700 1 $aGLEN, M. 700 1 $aMACHADO, P.S. 700 1 $aMCTAGGART, A.R. 700 1 $aCARNEGIE, A.J. 700 1 $aKLOPFENTEIN, N.B. 773 $tForest Pathology$gv. 48, no. 1, 2017.
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