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| Registros recuperados : 20 | |
| 1. |  | LOPES, C. J.; CAMPOS, A. A.; VIANA, R. da S.; SOUZA, J. C. A. V. de. Germinação de sementes de melancia em solo de mineração tratado com adubo orgânico e NPK. Horticultura Brasileira, Brasília, v. 22, n. 2, jul. 2004. Suplemento 2. CD-ROM. Trabalho apresentado no 44º Congresso Brasileiro de Olericultura, 2004. Publicado também como resumo em: Horticultura Brasileira, Brasília, v. 22, n. 2, p. 363, jul. 2004. Suplemento 1.| Biblioteca(s): Embrapa Hortaliças. |
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| 5. | | MAY, A.; COELHO, L. F.; SILVA, E. H. F. M. da; VIANA, R. da S.; VIEIRA JUNIOR, N. A.; FERREIRA, W. P. M. Graphene: A new technology for agriculture. Research, Society and Development, v. 10, n. 2, e56610212827, 2021. p. 1-11.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 6. | | VIANA, R. da S.; MAY, A.; MOREIRA, B. R. de A.; CRUZ, V. H.; VIEIRA JUNIOR, N. A.; SILVA, E. H. F. M. da; SIMEONE, M. L. F. Addition of glycerol to agroindustrial residues of bioethanol for fuel-flexible agropellets: fundamental fuel properties, combustion, and potential slagging and fouling from residual ash. Industrial Crops and Products, v. 192, 116134, 2023.| Biblioteca(s): Embrapa Meio Ambiente; Embrapa Milho e Sorgo. |
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| 7. | | VIANA, R. da S.; MOREIRA, B. R. de A.; MAY, A.; MIASAKI, C. T.; CARASCHI, J. C.; ANDRADE, M. G. de O. Juice technological quality, lignocellulosic physical-chemical attributes and biomass yield from energy cane clones. Australian Journal of Crop Science, v. 13, n. 5, p. 746-752, 2019.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 8. | | MAY, A.; RAMOS, N. P.; SANTOS, M. S. dos; SILVA, E. H. F. M. da; ROSSI, P.; VIANA, R. da S. Pre-sprouted seedlings production methods through buds or mini-stems: emergence and initial development of sugarcane cultivars. Científica, v. 46, n. 4, p. 403-411, 2018.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 9. | | MAY, A.; SILVA, E. H. F. M. da; SANTOS, M. de S. dos; VIANA, R. da S.; SANTOS, F. C. dos; ALBUQUERQUE FILHO, M. R. de. Use of biomass sorghum for the bioremediation of heavy metal-contaminated environments. Research, Society and Development, v. 9, n. 9, e95996770, 2020.| Biblioteca(s): Embrapa Meio Ambiente; Embrapa Milho e Sorgo. |
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| 10. | | MOREIRA, B. R. de A.; VIANA, R. da S.; LISBOA, L. A. M.; LOPES, P. R. M.; FIGUEIREDO, P. A. M. de; RAMOS, S. B.; BONINI, C. S. B.; TRINDADE, V. D. R.; ANDRADE, M. G. de O.; MAY, A. Classifying hybrids of energy cane for production of bioethanol and cogeneration of biomass-based electricity by principal component analysis-linked fuzzy c-means clustering algorithm. Journal of Agricultural Science, Richmond Hill, v. 11, n. 14, p. 246-253, 2019.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 11. | | MOREIRA, B. R. de A.; VIANA, R. da S.; FIGUEIREDA, P. A. M. de; LISBOA, L. A. M.; MIASAKI, C. T.; MAGALHÃES, A. C.; RAMOS, S. B.; VIANA, C. R. de A.; TRINDADE, V. D. R.; MAY, A. Glyphosate plus carboxylic compounds boost activity of free radical-scavenging enzymes in sugarcane. Agriculture, v. 10, n. 4, article 106, 2020. p. 1-12.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 12. | | SANTOS, M. G. B. dos; COSTA, C. R.; PAIVA, A. B.; MENDES, G. de O.; MARTINS, E. de S.; MARCHI, G.; VIANA, R. da S. R.; FIGUEIREDO, C. C. de. Ácido oxálico aumenta a solubilização de potássio de biocarvão de lodo de esgoto. In: ENCONTRO DE PESQUISA E INOVAÇÃO DA EMBRAPA AGROENERGIA, 7., 2023, Brasília, DF. Anais... Brasília, DF: Embrapa, 2023. p. 238-242.| Biblioteca(s): Embrapa Cerrados. |
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| 13. | | MOREIRA, B. R. de A.; VIANA, R. da S.; CRUZ, V. H.; LOPES, P. R. M.; MIASAKI, C. T.; MAGALHÃES, A. C.; FIGUEIREDO, P. A. M. de; LISBOA, L. A. M.; RAMOS, S. B.; MAY, A.; CARASCHI, J. C. Anti-thermal shock binding of liquid-state food waste to non-wood pellets. Energies, v. 13, n. 12, article 3280, 2020. p. 1-26.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 14. | | MOREIRA, B. R. de A.; VIANA, R. da S.; LISBOA, L. A. M.; LOPES, P. R. M.; FIGUEIREDO, P. A. M.; RAMOS, S. B.; BONINI, C. S. B.; TRINDADE, V. D. R.; ANDRADE, M. G. de O.; MAY, A. Jasmonic acid and K-phosphite enhance productivity and technological quality of sugarcane crop. Journal of Agricultural Science, v. 11, n. 14, p. 254-264, 2019.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 15. | | MAY, A.; FERREIRA, W. P. M.; VIANA, R. da S.; VILELA, E. S. D.; SILVA, E. H. F. M. da; VIEIRA JUNIOR, N. A.; HIRANO, R. T.; SANTOS, M. de S. dos; MOREIRA, B. R. de A. Development of coffee plant under different doses of an amino acid-based organomineral product. International Journal of Science and Research, v. 9, n. 5, p. 1267-1271, May 2020.| Biblioteca(s): Embrapa Café; Embrapa Meio Ambiente. |
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| 16. | | MAY, A.; MOREIRA, B. R. de A.; MASCARIN, G. M.; VIANA, R. da S.; SANTOS, M. S. dos; SILVA, E. H. F. M.; RAMOS, N. P.; MELO, I. S. de. Induction of drought tolerance by inoculation of Bacillus aryabhattai on sugarcane seedlings. Científica, v. 47, n. 4, p. 400-410, 2019.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 17. | | VIANA, R. da S.; LISBOA, L. A. M.; FIGUEIREDO, P. A. M.; RAMOS, S. B.; FERRARI, S.; MAY, A.; PRADO, E. P.; MIASAKI, C. T.; FERREIRA, I. S.; BRENHA, J. A. M. Productivity and biochemical characteristics of sugarcane when submitted to the action of chemical ripeners. Australian Journal of Basic and Applied Sciences, v. 13, n. 2, p. 64-71, 2019.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 18. | | MAY, A.; SILVA, E. H. F. M. da; VIEIRA JUNIOR, N. A.; VILELA, E. S. D.; SANTOS, M. de S.; COELHO, L. F.; PEDRINHO, A.; BATISTA, B. D.; VIANA, R. da S. Soybean extracts can improve plant development. Scientia Agricola, v. 80, e20210102, 2023.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 19. | | MOREIRA, B. R. de A.; VIANA, R. da S.; FAVATO, V. L.; FIGUEIREDO, P. A. M. de; LISBOA, L. A. M.; MIASAKI, C. T.; MAGALHÃES, A. C.; RAMOS, S. B.; VIANA, C. R. de A.; TRINDADE, V. D. R.; MAY, A. Azospirillum brasilense can impressively improve growth and development of Urochloa brizantha under irrigation. Agriculture, v. 10, n. 6, article 220, 2020. Special issue. p. 1-13.| Biblioteca(s): Embrapa Meio Ambiente. |
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| 20. | | MOREIRA, B. R. de A.; VIANA, R. da S.; CRUZ, V. H.; MAGALHÃES, A. C.; MIASAKI, C. T.; FIGUEIREDO, P. A. M. de; LISBOA, L. A. M.; RAMOS, S. B.; JUÁREZ SÁNCHEZ, D. E.; TEIXEIRA FILHO, M. C. M.; MAY, A. Second-generation lignocellulosic supportive material improves atomic ratios of C:O and H:O and thermomechanical behavior of hybrid non-woody pellets. Molecules, v. 25, n. 18, article 4219, 2020. p. 1-16.| Biblioteca(s): Embrapa Meio Ambiente. |
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| Registros recuperados : 20 | |
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Registro Completo
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Biblioteca(s): |
Embrapa Meio Ambiente. |
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Data corrente: |
18/12/2018 |
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Data da última atualização: |
29/12/2018 |
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Tipo da produção científica: |
Artigo em Periódico Indexado |
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Circulação/Nível: |
B - 3 |
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Autoria: |
MAY, A.; RAMOS, N. P.; SANTOS, M. S. dos; SILVA, E. H. F. M. da; ROSSI, P.; VIANA, R. da S. |
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Afiliação: |
ANDRE MAY, CNPMA; NILZA PATRICIA RAMOS, CNPMA; MICHELLI DE SOUZA DOS SANTOS, CAPES; EVANDRO HENRIQUE FIGUEIREDO MOURA DA SILVA, ESALQ-USP; PAULO ROSSI, CNPMA; RONALDO DA SILVA VIANA, FCAT-UNESP. |
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Título: |
Pre-sprouted seedlings production methods through buds or mini-stems: emergence and initial development of sugarcane cultivars. |
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Ano de publicação: |
2018 |
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Fonte/Imprenta: |
Científica, v. 46, n. 4, p. 403-411, 2018. |
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ISSN: |
1984-5229 |
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DOI: |
http://dx.doi.org/10.15361/1984-5529.2018v46n4p403-411 |
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Idioma: |
Inglês |
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Conteúdo: |
Abstract: This study evaluates the emergence and initial development of sugarcane cultivars with different bud sizes, based on the system of pre-sprouted seedlings (PSS). Early sugarcane cultivars (RB966928, RB855156 and IACSP91-1099) were evaluated. These evaluations comprised three positions of the sugarcane stem (tip, middle and base) and four types of sugarcane propagules (mini-stem and 3 bud sizes with different diameters: 22 mm (1), 29 mm (2) and 35 mm (3)). Three trials were performed, each with a different cultivar. The experimental design for each cultivar was a randomized block in a 3x4 factorial scheme (stem position x propagule size (vegetative material)) with 4 replicates. Emergence was evaluated daily, and from these evaluations the emergence speed index (ESI) was calculated. Plant height, shoot dry mass and root dry mass were also assessed. Data were submitted to analysis of variance with interaction, and the Tukey test was applied. When simple variable transformations were not enough to meet the assumptions of normality and homoscedasticity, the non-parametric Friedman test was used. ESI indicated that the best type of propagule was the mini-stem, and for cultivars IACSP91-1099 and RB855156 the best performing position was the tip. The Friedman test indicated significance of the causes of variation related to propagule size and stem position for shoot dry mass in all evaluated cultivars. In addition, the test indicated significant variation of root dry mass for cultivars IAC91-1099 and RB966928 between propagule sizes and the stem positions. The height of cultivar IACSP91-1099 showed interaction between the different propagule sizes and stem positions. The greatest increase of height in sugarcane seedlings occurred for the mini--stem propagule and tip position. Cultivars RB855156 and RB966928 also showed interaction between the different propagule sizes and stem positions. Cultivar RB855156 showed the highest plant height with the mini- -stem propagule at the tip position, however it did not differ statistically from the propagule with size 3 at the tip and middle positions. The mini-stem and the bud with size 3, removed from the tip of the stem, are the best alter-natives for seedling production. MenosAbstract: This study evaluates the emergence and initial development of sugarcane cultivars with different bud sizes, based on the system of pre-sprouted seedlings (PSS). Early sugarcane cultivars (RB966928, RB855156 and IACSP91-1099) were evaluated. These evaluations comprised three positions of the sugarcane stem (tip, middle and base) and four types of sugarcane propagules (mini-stem and 3 bud sizes with different diameters: 22 mm (1), 29 mm (2) and 35 mm (3)). Three trials were performed, each with a different cultivar. The experimental design for each cultivar was a randomized block in a 3x4 factorial scheme (stem position x propagule size (vegetative material)) with 4 replicates. Emergence was evaluated daily, and from these evaluations the emergence speed index (ESI) was calculated. Plant height, shoot dry mass and root dry mass were also assessed. Data were submitted to analysis of variance with interaction, and the Tukey test was applied. When simple variable transformations were not enough to meet the assumptions of normality and homoscedasticity, the non-parametric Friedman test was used. ESI indicated that the best type of propagule was the mini-stem, and for cultivars IACSP91-1099 and RB855156 the best performing position was the tip. The Friedman test indicated significance of the causes of variation related to propagule size and stem position for shoot dry mass in all evaluated cultivars. In addition, the test indicated significant variation of root dry mass f... Mostrar Tudo |
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Palavras-Chave: |
MPB; PSS; Saccharum spp. |
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Thesagro: |
Brotacao; Cana de Açúcar; Germinação; Propagação Vegetativa. |
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Thesaurus NAL: |
Germination; Saccharum; Sugarcane; Vegetative propagation. |
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Categoria do assunto: |
F Plantas e Produtos de Origem Vegetal |
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URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/188828/1/2018AP44.pdf
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Marc: |
LEADER 03240naa a2200337 a 4500
001 2101985
005 2018-12-29
008 2018 bl uuuu u00u1 u #d
022 $a1984-5229
024 7 $ahttp://dx.doi.org/10.15361/1984-5529.2018v46n4p403-411$2DOI
100 1 $aMAY, A.
245 $aPre-sprouted seedlings production methods through buds or mini-stems$bemergence and initial development of sugarcane cultivars.$h[electronic resource]
260 $c2018
520 $aAbstract: This study evaluates the emergence and initial development of sugarcane cultivars with different bud sizes, based on the system of pre-sprouted seedlings (PSS). Early sugarcane cultivars (RB966928, RB855156 and IACSP91-1099) were evaluated. These evaluations comprised three positions of the sugarcane stem (tip, middle and base) and four types of sugarcane propagules (mini-stem and 3 bud sizes with different diameters: 22 mm (1), 29 mm (2) and 35 mm (3)). Three trials were performed, each with a different cultivar. The experimental design for each cultivar was a randomized block in a 3x4 factorial scheme (stem position x propagule size (vegetative material)) with 4 replicates. Emergence was evaluated daily, and from these evaluations the emergence speed index (ESI) was calculated. Plant height, shoot dry mass and root dry mass were also assessed. Data were submitted to analysis of variance with interaction, and the Tukey test was applied. When simple variable transformations were not enough to meet the assumptions of normality and homoscedasticity, the non-parametric Friedman test was used. ESI indicated that the best type of propagule was the mini-stem, and for cultivars IACSP91-1099 and RB855156 the best performing position was the tip. The Friedman test indicated significance of the causes of variation related to propagule size and stem position for shoot dry mass in all evaluated cultivars. In addition, the test indicated significant variation of root dry mass for cultivars IAC91-1099 and RB966928 between propagule sizes and the stem positions. The height of cultivar IACSP91-1099 showed interaction between the different propagule sizes and stem positions. The greatest increase of height in sugarcane seedlings occurred for the mini--stem propagule and tip position. Cultivars RB855156 and RB966928 also showed interaction between the different propagule sizes and stem positions. Cultivar RB855156 showed the highest plant height with the mini- -stem propagule at the tip position, however it did not differ statistically from the propagule with size 3 at the tip and middle positions. The mini-stem and the bud with size 3, removed from the tip of the stem, are the best alter-natives for seedling production.
650 $aGermination
650 $aSaccharum
650 $aSugarcane
650 $aVegetative propagation
650 $aBrotacao
650 $aCana de Açúcar
650 $aGerminação
650 $aPropagação Vegetativa
653 $aMPB
653 $aPSS
653 $aSaccharum spp
700 1 $aRAMOS, N. P.
700 1 $aSANTOS, M. S. dos
700 1 $aSILVA, E. H. F. M. da
700 1 $aROSSI, P.
700 1 $aVIANA, R. da S.
773 $tCientífica$gv. 46, n. 4, p. 403-411, 2018.
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Embrapa Meio Ambiente (CNPMA) |
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