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Registro completo
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Biblioteca (s) : |
INIA Las Brujas. |
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Fecha : |
22/05/2023 |
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Actualizado : |
22/05/2023 |
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Tipo de producción científica : |
Artículos en Revistas Indexadas Nacionales |
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Autor : |
FASSANA , C.N.; HOFFMAN , E.M.; BERGER, A.; ERNST, O. |
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Afiliación : |
CÉSAR NICOLÁS FASSANA, Universidad de la República, Facultad de Agronomía, Departamento de Producción Vegetal, Paysandú, Uruguay; ESTEBAN MARTÍN HOFFMAN, Universidad de la República, Facultad de Agronomía, Departamento de Producción Vegetal, Paysandú, Uruguay; ANDRES GUSTAVO BERGER RICCA, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; OSWALDO ERNST, Universidad de la República, Facultad de Agronomía, Departamento de Producción Vegetal, Paysandú, Uruguay. |
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Título : |
Nitrogen nutrition index at GS 3.3 is an effective tool to adjust nitrogen required to reach attainable wheat yield. [El índice de nutrición nitrogenada en GS 3.3 es una herramienta eficaz para ajustar el nitrógeno necesario para lograr el rendimiento de trigo alcanzable]. [O índice de nutrição de nitrogênio no GS 3.3 é uma ferramenta eficaz para ajustar o nitrogênio necessário para alcançar a produtividade de trigo atingível]. |
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Complemento del título : |
Plant production. |
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Fecha de publicación : |
2022 |
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Fuente / Imprenta : |
Agrociencia Uruguay, 2022, Vol.26, number 2, e924. https://doi.org/10.31285/AGRO.26.924 -- OPEN ACCESS. |
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ISSN : |
2730-5066 |
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DOI : |
10.31285/AGRO.26.924 |
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Idioma : |
Inglés |
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Notas : |
Article history: Received 8 Jul 2021; Accepted 21 Jun 2022; Published 30 Aug 2022. -- Correspondence: Nicolás Fassana, fassana@fagro.edu.uy -- Editor: José A. Terra,
Instituto Nacional de Investigación Agropecuaria (INIA), Treinta y Tres, Uruguay. -- License: This work is licensed under a Creative Commons Attribution 4.0 International License. (https://creativecommons.org/licenses/by/4.0/ ) |
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Contenido : |
ABSTRACT.- Current nitrogen (N) fertilization schedule for spring wheat was developed under a dominant crop-pasture rotation. After the year 2002, this cropping system was converted to continuous annual cropping systems under no-till, reducing soil N supply capacity progressively. Additionally, highest grain yield of new varieties ncreased N demand. The required additional N fertilizer can be adjusted by monitoring nutritional status of the crop. .-.-.-.-.-.-.-.-. RESUMEN.- El esquema actual de fertilización con nitrógeno (N) para el trigo de primavera se desarrolló bajo una rotación dominante de cultivo-pastura. Después de 2002, este sistema se convirtió en un sistema de cultivo anual continuo con labranza cero, reduciendo progresivamente la capacidad de suministro de N del suelo. Además, el mayor rendimiento en grano de las nuevas variedades aumentó la demanda de N. El fertilizante nitrogenado adicional requerido se puede ajustar monitoreando el estado nutricional del cultivo. .-.-.-.-.-.-.-.-.-.-.-.-.-.-.-
RESUMO.- O esquema atual de fertilização com nitrogênio (N) para o trigo de primavera foi desenvolvido sob uma rotação dominante de cultivo e pastagem. A partir de 2002, esse sistema passou a ser um sistema de cultivo anual contínuo com plantio direto, reduzindo progressivamente a capacidade de suprimento de N do solo. Além disso, o maior rendimento de grãos das novas variedades aumentou a demanda por N. O fertilizante de nitrogênio adicional necessário pode ser ajustado monitorando o estado nutricional da cultura. Copyright (c) 2022 Agrociencia Uruguay MenosABSTRACT.- Current nitrogen (N) fertilization schedule for spring wheat was developed under a dominant crop-pasture rotation. After the year 2002, this cropping system was converted to continuous annual cropping systems under no-till, reducing soil N supply capacity progressively. Additionally, highest grain yield of new varieties ncreased N demand. The required additional N fertilizer can be adjusted by monitoring nutritional status of the crop. .-.-.-.-.-.-.-.-. RESUMEN.- El esquema actual de fertilización con nitrógeno (N) para el trigo de primavera se desarrolló bajo una rotación dominante de cultivo-pastura. Después de 2002, este sistema se convirtió en un sistema de cultivo anual continuo con labranza cero, reduciendo progresivamente la capacidad de suministro de N del suelo. Además, el mayor rendimiento en grano de las nuevas variedades aumentó la demanda de N. El fertilizante nitrogenado adicional requerido se puede ajustar monitoreando el estado nutricional del cultivo. .-.-.-.-.-.-.-.-.-.-.-.-.-.-.-
RESUMO.- O esquema atual de fertilização com nitrogênio (N) para o trigo de primavera foi desenvolvido sob uma rotação dominante de cultivo e pastagem. A partir de 2002, esse sistema passou a ser um sistema de cultivo anual contínuo com plantio direto, reduzindo progressivamente a capacidade de suprimento de N do solo. Além disso, o maior rendimento de grãos das novas variedades aumentou a demanda por N. O fertilizante de nitrogênio adicional necessário pode ser ajustad... Presentar Todo |
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Palabras claves : |
Diagnosis; Diagnóstico; Nutrição do trigo; Nutrición de trigo; Sincronizar oferta/demanda; Synchronize supply/demand; Wheat nutrition. |
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Thesagro : |
TRITICUM AESTIVUM. |
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Asunto categoría : |
F01 Cultivo |
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URL : |
http://www.ainfo.inia.uy/digital/bitstream/item/17163/1/2730-5066-924.pdf
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Marc : |
LEADER 03239naa a2200289 a 4500
001 1064151
005 2023-05-22
008 2022 bl uuuu u00u1 u #d
022 $a2730-5066
024 7 $a10.31285/AGRO.26.924$2DOI
100 1 $aFASSANA , C.N.
245 $aNitrogen nutrition index at GS 3.3 is an effective tool to adjust nitrogen required to reach attainable wheat yield. [El índice de nutrición nitrogenada en GS 3.3 es una herramienta eficaz para ajustar el nitrógeno necesario para lograr el rendimiento de trigo alcanzable]. [O índice de nutrição de nitrogênio no GS 3.3 é uma ferramenta eficaz para ajustar o nitrogênio necessário para alcançar a produtividade de trigo atingível].$h[electronic resource]
260 $c2022
500 $aArticle history: Received 8 Jul 2021; Accepted 21 Jun 2022; Published 30 Aug 2022. -- Correspondence: Nicolás Fassana, fassana@fagro.edu.uy -- Editor: José A. Terra, Instituto Nacional de Investigación Agropecuaria (INIA), Treinta y Tres, Uruguay. -- License: This work is licensed under a Creative Commons Attribution 4.0 International License. (https://creativecommons.org/licenses/by/4.0/ )
520 $aABSTRACT.- Current nitrogen (N) fertilization schedule for spring wheat was developed under a dominant crop-pasture rotation. After the year 2002, this cropping system was converted to continuous annual cropping systems under no-till, reducing soil N supply capacity progressively. Additionally, highest grain yield of new varieties ncreased N demand. The required additional N fertilizer can be adjusted by monitoring nutritional status of the crop. .-.-.-.-.-.-.-.-. RESUMEN.- El esquema actual de fertilización con nitrógeno (N) para el trigo de primavera se desarrolló bajo una rotación dominante de cultivo-pastura. Después de 2002, este sistema se convirtió en un sistema de cultivo anual continuo con labranza cero, reduciendo progresivamente la capacidad de suministro de N del suelo. Además, el mayor rendimiento en grano de las nuevas variedades aumentó la demanda de N. El fertilizante nitrogenado adicional requerido se puede ajustar monitoreando el estado nutricional del cultivo. .-.-.-.-.-.-.-.-.-.-.-.-.-.-.- RESUMO.- O esquema atual de fertilização com nitrogênio (N) para o trigo de primavera foi desenvolvido sob uma rotação dominante de cultivo e pastagem. A partir de 2002, esse sistema passou a ser um sistema de cultivo anual contínuo com plantio direto, reduzindo progressivamente a capacidade de suprimento de N do solo. Além disso, o maior rendimento de grãos das novas variedades aumentou a demanda por N. O fertilizante de nitrogênio adicional necessário pode ser ajustado monitorando o estado nutricional da cultura. Copyright (c) 2022 Agrociencia Uruguay
650 $aTRITICUM AESTIVUM
653 $aDiagnosis
653 $aDiagnóstico
653 $aNutrição do trigo
653 $aNutrición de trigo
653 $aSincronizar oferta/demanda
653 $aSynchronize supply/demand
653 $aWheat nutrition
700 1 $aHOFFMAN , E.M.
700 1 $aBERGER, A.
700 1 $aERNST, O.
773 $tAgrociencia Uruguay, 2022, Vol.26, number 2, e924. https://doi.org/10.31285/AGRO.26.924 -- OPEN ACCESS.
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INIA Las Brujas (LB) |
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Registro completo
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Biblioteca (s) : |
INIA Las Brujas. |
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Fecha actual : |
23/02/2021 |
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Actualizado : |
23/02/2021 |
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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 : |
QUEZADA, M.; AMADEU, R. R.; VIGNALE, B.; CABRERA, D.; PRITSCH, C.; GARCIA, A. A. F. |
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Afiliación : |
MARIANELLA FERNANDA QUEZADA MACCHIAVELLO, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay.; RODRIGO RAMPAZO AMADEU, Laboratório de Genética Estatística, Departamento de Genética, Escola Superior de Agricultura "Luiz de Queiroz", Universidade de São Paulo, Piracicaba, Brazil; BEATRIZ VIGNALE, Mejoramiento Genético, Departamento de Producción Vegetal, Estación Experimental de la Facultad de Agronomía, Universidad de la República, Salto, Uruguay; CARLOS DANILO CABRERA BOLOGNA, INIA (Instituto Nacional de Investigación Agropecuaria), Uruguay; CLARA PRITSCH, Laboratorio de Biotecnología, Departamento de Biología Vegetal, Facultad de Agronomía, Universidad de la República, Montevideo, Uruguay; ANTONIO AUGUSTO FRANCO GARCIA, Laboratório de Genética Estatística, Departamento de Genética, Escola Superior de Agricultura “Luiz de Queiroz”, Universidade de São Paulo, Piracicaba, Brazil. |
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Título : |
Construction of a high-density genetic map of Acca sellowiana (Berg.) Burret, an outcrossing species, based on two connected mapping populations. |
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Complemento del título : |
Original Research Article. |
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Fecha de publicación : |
2021 |
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Fuente / Imprenta : |
Frontiers in Plant Science, 23 February 2021, Volume 12, Article number 626811. OPEN ACCESS. Doi: https://doi.org/10.3389/fpls.2021.626811 |
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DOI : |
10.3389/fpls.2021.626811 |
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Idioma : |
Inglés |
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Notas : |
Article history: Received: 06 November 2020; Accepted: 12 January 2021; Published: 23 February 2021.
Edited by: Maria Luisa Badenes, Instituto Valenciano de Investigaciones Agrarias, Spain.
Reviewed by: Shouvik Das, Indian Agricultural Research Institute (ICAR), India; Jonathan Elias Maldonado, Pontificia Universidad Católica de Chile, Chile.
Correspondence: Antonio Augusto Franco Garcia - augusto.garcia@usp.br
Specialty section: This article was submitted to Plant Breeding, a section of the journal Frontiers in Plant Science.
This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY).
This article is part of the research topic: Breeding Innovations in Underutilized Temperate Fruit Trees:
https://www.frontiersin.org/research-topics/14915/breeding-innovations-in-underutilized-temperate-fruit-trees#articles |
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Contenido : |
ABSTRACT.
Acca sellowiana, known as feijoa or pineapple guava, is a diploid, (2n = 2x = 22) outcrossing fruit tree species native to Uruguay and Brazil. The species stands out for
its highly aromatic fruits, with nutraceutical and therapeutic value. Despite its promising agronomical value, genetic studies on this species are limited. Linkage genetic maps are valuable tools for genetic and genomic studies, and constitute essential tools in breeding programs to support the development of molecular breeding strategies. A high-density composite genetic linkage map of A. sellowiana was constructed using two genetically connected populations: H5 (TCO × BR, N = 160) and H6 (TCO × DP, N = 184). Genotyping by sequencing (GBS) approach was successfully applied for developing single nucleotide polymorphism (SNP) markers. A total of 4,921 SNP markers were identified using the reference genome of the closely related species Eucalyptus grandis, whereas other 4,656 SNPs were discovered using a de novo pipeline. The individual H5 and H6 maps comprised 1,236 and 1,302 markers distributed over the expected 11 linkage groups, respectively. These two maps spanned a map length of 1,593 and 1,572 cM, with an average inter-marker distance of 1.29 and 1.21 cM, respectively. A large proportion of markers were common to both maps and showed a high degree of collinearity. The composite map consisted of 1,897 SNPs markers with a total map length of 1,314 cM and an average inter-marker distance of 0.69. A novel approach for the construction of composite maps where the meiosis information of individuals of two connected populations is captured in a single estimator is described. A high-density, accurate composite map based on a consensus ordering of markers provides a valuable contribution for future genetic research and breeding efforts in A. sellowiana. A novel mapping approach based on an estimation of multipopulation recombination fraction described here may be applied in the construction of dense composite genetic maps for any other outcrossing diploid species.
© 2021 Quezada, Amadeu, Vignale, Cabrera, Pritsch and Garcia. MenosABSTRACT.
Acca sellowiana, known as feijoa or pineapple guava, is a diploid, (2n = 2x = 22) outcrossing fruit tree species native to Uruguay and Brazil. The species stands out for
its highly aromatic fruits, with nutraceutical and therapeutic value. Despite its promising agronomical value, genetic studies on this species are limited. Linkage genetic maps are valuable tools for genetic and genomic studies, and constitute essential tools in breeding programs to support the development of molecular breeding strategies. A high-density composite genetic linkage map of A. sellowiana was constructed using two genetically connected populations: H5 (TCO × BR, N = 160) and H6 (TCO × DP, N = 184). Genotyping by sequencing (GBS) approach was successfully applied for developing single nucleotide polymorphism (SNP) markers. A total of 4,921 SNP markers were identified using the reference genome of the closely related species Eucalyptus grandis, whereas other 4,656 SNPs were discovered using a de novo pipeline. The individual H5 and H6 maps comprised 1,236 and 1,302 markers distributed over the expected 11 linkage groups, respectively. These two maps spanned a map length of 1,593 and 1,572 cM, with an average inter-marker distance of 1.29 and 1.21 cM, respectively. A large proportion of markers were common to both maps and showed a high degree of collinearity. The composite map consisted of 1,897 SNPs markers with a total map length of 1,314 cM and an average inter-marker distance of 0.69.... Presentar Todo |
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Palabras claves : |
Composite genetic map; Genotyping by sequencing; Multiparent family; Pineapple guava. |
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Thesagro : |
ACCA SELLOWIANA; FEIJOA; MYRTACEAE. |
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Asunto categoría : |
F30 Genética vegetal y fitomejoramiento |
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URL : |
https://www.frontiersin.org/articles/10.3389/fpls.2021.626811/full
https://www.frontiersin.org/articles/10.3389/fpls.2021.626811/pdf
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Marc : |
LEADER 03974naa a2200289 a 4500
001 1061756
005 2021-02-23
008 2021 bl uuuu u00u1 u #d
024 7 $a10.3389/fpls.2021.626811$2DOI
100 1 $aQUEZADA, M.
245 $aConstruction of a high-density genetic map of Acca sellowiana (Berg.) Burret, an outcrossing species, based on two connected mapping populations.$h[electronic resource]
260 $c2021
500 $aArticle history: Received: 06 November 2020; Accepted: 12 January 2021; Published: 23 February 2021. Edited by: Maria Luisa Badenes, Instituto Valenciano de Investigaciones Agrarias, Spain. Reviewed by: Shouvik Das, Indian Agricultural Research Institute (ICAR), India; Jonathan Elias Maldonado, Pontificia Universidad Católica de Chile, Chile. Correspondence: Antonio Augusto Franco Garcia - augusto.garcia@usp.br Specialty section: This article was submitted to Plant Breeding, a section of the journal Frontiers in Plant Science. This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). This article is part of the research topic: Breeding Innovations in Underutilized Temperate Fruit Trees: https://www.frontiersin.org/research-topics/14915/breeding-innovations-in-underutilized-temperate-fruit-trees#articles
520 $aABSTRACT. Acca sellowiana, known as feijoa or pineapple guava, is a diploid, (2n = 2x = 22) outcrossing fruit tree species native to Uruguay and Brazil. The species stands out for its highly aromatic fruits, with nutraceutical and therapeutic value. Despite its promising agronomical value, genetic studies on this species are limited. Linkage genetic maps are valuable tools for genetic and genomic studies, and constitute essential tools in breeding programs to support the development of molecular breeding strategies. A high-density composite genetic linkage map of A. sellowiana was constructed using two genetically connected populations: H5 (TCO × BR, N = 160) and H6 (TCO × DP, N = 184). Genotyping by sequencing (GBS) approach was successfully applied for developing single nucleotide polymorphism (SNP) markers. A total of 4,921 SNP markers were identified using the reference genome of the closely related species Eucalyptus grandis, whereas other 4,656 SNPs were discovered using a de novo pipeline. The individual H5 and H6 maps comprised 1,236 and 1,302 markers distributed over the expected 11 linkage groups, respectively. These two maps spanned a map length of 1,593 and 1,572 cM, with an average inter-marker distance of 1.29 and 1.21 cM, respectively. A large proportion of markers were common to both maps and showed a high degree of collinearity. The composite map consisted of 1,897 SNPs markers with a total map length of 1,314 cM and an average inter-marker distance of 0.69. A novel approach for the construction of composite maps where the meiosis information of individuals of two connected populations is captured in a single estimator is described. A high-density, accurate composite map based on a consensus ordering of markers provides a valuable contribution for future genetic research and breeding efforts in A. sellowiana. A novel mapping approach based on an estimation of multipopulation recombination fraction described here may be applied in the construction of dense composite genetic maps for any other outcrossing diploid species. © 2021 Quezada, Amadeu, Vignale, Cabrera, Pritsch and Garcia.
650 $aACCA SELLOWIANA
650 $aFEIJOA
650 $aMYRTACEAE
653 $aComposite genetic map
653 $aGenotyping by sequencing
653 $aMultiparent family
653 $aPineapple guava
700 1 $aAMADEU, R. R.
700 1 $aVIGNALE, B.
700 1 $aCABRERA, D.
700 1 $aPRITSCH, C.
700 1 $aGARCIA, A. A. F.
773 $tFrontiers in Plant Science, 23 February 2021, Volume 12, Article number 626811. OPEN ACCESS. Doi: https://doi.org/10.3389/fpls.2021.626811
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