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Biblioteca(s): |
Embrapa Agropecuária Oeste. |
Data corrente: |
16/02/2023 |
Data da última atualização: |
16/02/2023 |
Tipo da produção científica: |
Resumo em Anais de Congresso |
Autoria: |
DRUZIANI, C. C.; AMORIM, A. dos S.; MOTTA, I. de S.; COMUNELLO, E.; GARCIA, R. A.; ITO, M. A. |
Afiliação: |
CHRISTIAN CALDEIRA DRUZIANI, BOLSISTA PIBITI, GRADUANDO EM AGRONOMIA, CENTRO UNIVERSITÁRIO DA GRANDE DOURADOS, DOURADOS, MS; AMANDA DOS SANTOS AMORIM, BOLSISTA PIBIC, GRADUANDA EM AGRONOMIA, CENTRO UNIVERSITÁRIO DA GRANDE DOURADOS, DOURADOS, MS; IVO DE SA MOTTA, CPAO; EDER COMUNELLO, CPAO; RODRIGO ARROYO GARCIA, CPAO; MARCIO AKIRA ITO, CPAO. |
Título: |
Cultivo do milho-verde solteiro e consorciado com plantas de cobertura para rotação de cultura e produção de palhada. |
Ano de publicação: |
2022 |
Fonte/Imprenta: |
In: JORNADA DE INICIAÇÃO À PESQUISA DA EMBRAPA, 2022, Dourados. Resumos... Dourados: Embrapa Agropecuária Oeste, 2022. 30 p. (Embrapa Agropecuária Oeste. Eventos técnicos & científicos, 1). JIPE 2022. |
Idioma: |
Português |
Conteúdo: |
A produção de milho-verde é uma atividade realizada em todo Brasil. Com a inclusão de plantas de cobertura consorciadas pode-se aumentar a produção de fitomassa, a proteção dos solos contra processos erosivos, além da melhoria de vários outros atributos do solo, favorecendo a cultura subsequente. O objetivo deste trabalho foi avaliar o cultivo do milho-verde solteiro e consorciado com plantas de cobertura como opção de rotação de cultura e produção de palhada. |
Thesagro: |
Crotalária; Olericultura. |
Categoria do assunto: |
-- |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/doc/1151811/1/6.pdf
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Marc: |
LEADER 01252nam a2200193 a 4500 001 2151811 005 2023-02-16 008 2022 bl uuuu u00u1 u #d 100 1 $aDRUZIANI, C. C. 245 $aCultivo do milho-verde solteiro e consorciado com plantas de cobertura para rotação de cultura e produção de palhada.$h[electronic resource] 260 $aIn: JORNADA DE INICIAÇÃO À PESQUISA DA EMBRAPA, 2022, Dourados. Resumos... Dourados: Embrapa Agropecuária Oeste, 2022. 30 p. (Embrapa Agropecuária Oeste. Eventos técnicos & científicos, 1). JIPE 2022.$c2022 520 $aA produção de milho-verde é uma atividade realizada em todo Brasil. Com a inclusão de plantas de cobertura consorciadas pode-se aumentar a produção de fitomassa, a proteção dos solos contra processos erosivos, além da melhoria de vários outros atributos do solo, favorecendo a cultura subsequente. O objetivo deste trabalho foi avaliar o cultivo do milho-verde solteiro e consorciado com plantas de cobertura como opção de rotação de cultura e produção de palhada. 650 $aCrotalária 650 $aOlericultura 700 1 $aAMORIM, A. dos S. 700 1 $aMOTTA, I. de S. 700 1 $aCOMUNELLO, E. 700 1 $aGARCIA, R. A. 700 1 $aITO, M. A.
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Embrapa Agropecuária Oeste (CPAO) |
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Biblioteca(s): |
Embrapa Trigo. |
Data corrente: |
13/12/2021 |
Data da última atualização: |
13/12/2021 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 1 |
Autoria: |
ROSA, S. B.; ZANELLA, C. M.; HIEBERT, C. W.; BRULE-BABEL, A. L.; RANDHAWA, H. S.; SHORTER, S.; BOYD, L. A.; MCCALLUM, B. D.; BRAMMER, S. P. |
Afiliação: |
SILVIA B. ROSA, CEROM, Centre de recherch ´ e sur les grains, 740 Chemin Trudeau, Saint-Mathieu-de-Beloeil, QC, J3G 0E2, Canada; CAMILA M. ZANELLA, 2 NIAB, Huntingdon Road, Cambridge, CB3 0LE, UK; COLIN W. HIEBERT, 3 Agriculture and Agri-Food Canada, Morden Research Centre, Morden, MB, R6M 1Y5, Canada; ANITA L. BRULE-BABEL, 4 University of Manitoba, 66 Dafoe Road, Winnipeg, MB, R3T 2N2, Canada; HARPINDER S. RANDHAWA, Agriculture and Agri-Food Canada, Lethbridge Research Centre, 5403-1 Avenue South, Lethbridge, AB, T1J 4P4, Canada; STEPHEN SHORTER, Plant and Food Research, Canterbury Agriculture & Science Centre, Gerald Street, Lincoln, New Zealand; LESLEY A. BOYD, 2 NIAB, Huntingdon Road, Cambridge, CB3 0LE, UK; BRENT D. MCCALLUM, Agriculture and Agri-Food Canada, Morden Research Centre, Morden, MB, R6M 1Y5, Canada; SANDRA PATUSSI BRAMMER, CNPT. |
Título: |
Genetic characterization of leaf and stripe rust resistance in the Brazilian wheat cultivar toropi. |
Ano de publicação: |
2019 |
Fonte/Imprenta: |
Phytopathology, v. 109, p. 1760-1768, 2019. |
DOI: |
https://doi.org/10.1094/PHYTO-05-19-0159-R |
Idioma: |
Inglês |
Conteúdo: |
Leaf and stripe rust are major threats to wheat production worldwide. The effective, multiple rust resistances present in the Brazilian cultivar Toropi makes it an excellent choice for a genetic study of rust resistance. Testing of DNA from different seed lots of Toropi with 2,194 polymorphic 90K iSelect single nucleotide polymorphism markers identified significant genetic divergence, with as much as 35% dissimilarity between seed lots. As a result, further work was conducted with a single plant line derived from Toropi variant Toropi-6.4. A double haploid population with 168 lines derived from the cross Toropi-6.4 × Thatcher was phenotyped over multiple years and locations in Canada, New Zealand, and Kenya, with a total of seven field trials undertaken for leaf rust and nine for stripe rust. Genotyping with the 90K iSelect array, simple sequence repeat and Kompetitive allelespecific polymerase chain reaction markers resulted in a genetic map of 3,043 cM, containing 1,208 nonredundant markers. Significant quantitative trait loci (QTL) derived from Toropi-6.4 were identified in multiple environments on chromosomes 1B (QLr.crc-1BL/QYr.crc-1BL), 3B (QLr.crc3BS), 4B (QYr.crc-4BL), 5A (QLr.crc-5AL and QYr.crc-5AL), and 5D (QLr.crc-5DS). The QTL QLr.crc-1BL/QYr.crc-1BL colocated with the multi-rust resistance locus Lr46/Yr29, while the QTL QLr.crc-5DS located to the Lr78 locus previously found in a wheat backcross population derived from Toropi. Comparisons of QTL combinations showed QLr.crc-1BL to contribute a significantly enhanced leaf rust resistance when combined with QLr.crc-5AL or QLr.crc-5DS, more so than when QLr.crc-5AL and QLr.crc5DS were combined. A strong dditive effect was also seen when the stripe rust resistance QTL QYr.crc-1BL and QYr.crc-5AL were combined. Keywords: adult plant resistance, durable resistance, leaf rust, stripe rust, QTL, wheat MenosLeaf and stripe rust are major threats to wheat production worldwide. The effective, multiple rust resistances present in the Brazilian cultivar Toropi makes it an excellent choice for a genetic study of rust resistance. Testing of DNA from different seed lots of Toropi with 2,194 polymorphic 90K iSelect single nucleotide polymorphism markers identified significant genetic divergence, with as much as 35% dissimilarity between seed lots. As a result, further work was conducted with a single plant line derived from Toropi variant Toropi-6.4. A double haploid population with 168 lines derived from the cross Toropi-6.4 × Thatcher was phenotyped over multiple years and locations in Canada, New Zealand, and Kenya, with a total of seven field trials undertaken for leaf rust and nine for stripe rust. Genotyping with the 90K iSelect array, simple sequence repeat and Kompetitive allelespecific polymerase chain reaction markers resulted in a genetic map of 3,043 cM, containing 1,208 nonredundant markers. Significant quantitative trait loci (QTL) derived from Toropi-6.4 were identified in multiple environments on chromosomes 1B (QLr.crc-1BL/QYr.crc-1BL), 3B (QLr.crc3BS), 4B (QYr.crc-4BL), 5A (QLr.crc-5AL and QYr.crc-5AL), and 5D (QLr.crc-5DS). The QTL QLr.crc-1BL/QYr.crc-1BL colocated with the multi-rust resistance locus Lr46/Yr29, while the QTL QLr.crc-5DS located to the Lr78 locus previously found in a wheat backcross population derived from Toropi. Comparisons of QTL combinations sho... Mostrar Tudo |
Palavras-Chave: |
Adult plant resistance; Durable resistance; QTL. |
Thesaurus NAL: |
Leaf rust; Stripe rust; Wheat. |
Categoria do assunto: |
F Plantas e Produtos de Origem Vegetal |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/229003/1/Phytopathology-2019-Marcadores-KASP.pdf
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Marc: |
LEADER 02757naa a2200301 a 4500 001 2137644 005 2021-12-13 008 2019 bl uuuu u00u1 u #d 024 7 $ahttps://doi.org/10.1094/PHYTO-05-19-0159-R$2DOI 100 1 $aROSA, S. B. 245 $aGenetic characterization of leaf and stripe rust resistance in the Brazilian wheat cultivar toropi.$h[electronic resource] 260 $c2019 520 $aLeaf and stripe rust are major threats to wheat production worldwide. The effective, multiple rust resistances present in the Brazilian cultivar Toropi makes it an excellent choice for a genetic study of rust resistance. Testing of DNA from different seed lots of Toropi with 2,194 polymorphic 90K iSelect single nucleotide polymorphism markers identified significant genetic divergence, with as much as 35% dissimilarity between seed lots. As a result, further work was conducted with a single plant line derived from Toropi variant Toropi-6.4. A double haploid population with 168 lines derived from the cross Toropi-6.4 × Thatcher was phenotyped over multiple years and locations in Canada, New Zealand, and Kenya, with a total of seven field trials undertaken for leaf rust and nine for stripe rust. Genotyping with the 90K iSelect array, simple sequence repeat and Kompetitive allelespecific polymerase chain reaction markers resulted in a genetic map of 3,043 cM, containing 1,208 nonredundant markers. Significant quantitative trait loci (QTL) derived from Toropi-6.4 were identified in multiple environments on chromosomes 1B (QLr.crc-1BL/QYr.crc-1BL), 3B (QLr.crc3BS), 4B (QYr.crc-4BL), 5A (QLr.crc-5AL and QYr.crc-5AL), and 5D (QLr.crc-5DS). The QTL QLr.crc-1BL/QYr.crc-1BL colocated with the multi-rust resistance locus Lr46/Yr29, while the QTL QLr.crc-5DS located to the Lr78 locus previously found in a wheat backcross population derived from Toropi. Comparisons of QTL combinations showed QLr.crc-1BL to contribute a significantly enhanced leaf rust resistance when combined with QLr.crc-5AL or QLr.crc-5DS, more so than when QLr.crc-5AL and QLr.crc5DS were combined. A strong dditive effect was also seen when the stripe rust resistance QTL QYr.crc-1BL and QYr.crc-5AL were combined. Keywords: adult plant resistance, durable resistance, leaf rust, stripe rust, QTL, wheat 650 $aLeaf rust 650 $aStripe rust 650 $aWheat 653 $aAdult plant resistance 653 $aDurable resistance 653 $aQTL 700 1 $aZANELLA, C. M. 700 1 $aHIEBERT, C. W. 700 1 $aBRULE-BABEL, A. L. 700 1 $aRANDHAWA, H. S. 700 1 $aSHORTER, S. 700 1 $aBOYD, L. A. 700 1 $aMCCALLUM, B. D. 700 1 $aBRAMMER, S. P. 773 $tPhytopathology$gv. 109, p. 1760-1768, 2019.
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