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Registros recuperados : 51 | |
4. | | MORAES, M. T. de; DEBIASI, H.; FRANCHINI, J. C.; BENGOUGH, A. G.; LEITNER, D.; LEVIEN, R. Modelling of Soybean Root Growth Affected by Hydric and Mechanical Stress in an Oxisol. In: BRAZILIAN SOIL PHYSICS MEETING, 4., 2017, Piracicaba. Proceedings... Piracicaba: SBCS, 2017. p. 7. BSPM 2017. Biblioteca(s): Embrapa Soja. |
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5. | | MORAES, M. T. de; DEBIASI, H.; FRANCHINI, J. C.; LEVIEN, R.; BENGOUGH, A. G. Modelagem do crescimento radicular em função da dinâmica da água e resistência do solo. In: REUNIÃO BRASILEIRA DE MANEJO E CONSERVAÇÃO DO SOLO E DA ÁGUA, 20., 2016, Foz do Iguaçu. O solo sob ameaça: conexões necessárias ao manejo e conservação do solo e água: anais. Curitiba: SBCS-NEPAR; Londrina: IAPAR, 2016. p. 564-566. Livro digital. Editado por Arnaldo Colozzi Filho, João Henrique Caviglione, Graziela Moraes de Cesare Barbosa, Luciano Grillo Gil, Tiago Santos Telles. Biblioteca(s): Embrapa Soja. |
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6. | | BERTOLLO, A. M.; LEVIEN, R.; MORAES, M. T. de; DEBIASI, H.; ZULPO, L. Mitigation of soil compaction by the use of cover crops in compacted Oxisol. In: WORLD CONGRESS OF SOIL SCIENCE, 21., 2018, Rio de Janeiro. Soil science: beyond food and fuel: abstracts. Viçosa, MG: SBCS, 2018. não paginado. WCSS 2018. Biblioteca(s): Embrapa Soja. |
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8. | | MORAES, M. T. de; DEBIASI, H.; FRANCHINI, J. C.; SILVA, V. R. da. Correction of resistance to penetration by pedofunctions and a reference soil water content. Revista Brasileira de Ciência do Solo, Viçosa, MG, v. 36, n. 6, p. 1704-1713, nov./dez. 2012. Biblioteca(s): Embrapa Soja. |
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9. | | MORAES, M. T. de; LEVIEN, R.; TREIN, C. R.; BONETTI, J. de A.; DEBIASI, H. Corn crop performance in an Ultisol compacted by tractor traffic. Pesquisa agropecuária brasileira, Brasília, v. 53, n. 4, p. 464-477, Apr. 2018. Título em português: Desempenho da cultura do milho em Argissolo Vermelho compactado pelo tráfego agrícola. Biblioteca(s): Embrapa Soja; Embrapa Unidades Centrais. |
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12. | | ULBRICH, N. C. M.; MORAES, M. T. de; SORIANI, R.; FRANCHINI, J. C.; DEBIASI, H. The role of biopores to reduce the mechanical impedance to soybean root elongation. In: WORLD CONGRESS OF SOIL SCIENCE, 21., 2018, Rio de Janeiro. Soil science: beyond food and fuel: abstracts. Viçosa, MG: SBCS, 2018. não paginado. WCSS 2018. Biblioteca(s): Embrapa Soja. |
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13. | | MORAES, M. T. de; DEBIASI, H.; CARLESSO, R.; FRANCHINI, J. C.; SILVA, V. R. da. Critical limits of soil penetration resistance in a rhodic Eutrudox. Revista Brasileira de Ciência do Solo, Viçosa, MG, v. 38, n. 1, p. 288-298, jan./fev. 2014. Biblioteca(s): Embrapa Soja. |
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14. | | BERTOLLO, A. M.; MORAES, M. T. de; DEBIASI, H.; FRANCHINI, J. C.; MAZURANA, M.; LEVIEN, R. Desenvolvimento radicular da soja subsequente a plantas de cobertura em Latossolo com níveis de compactação. In: Congresso Brasileiro de Ciência do Solo, 35., 2015, Natal. O solo e suas múltiplas funções: anais. Natal: Sociedade Brasileira de Ciência do Solo, 2015. 4 p. Biblioteca(s): Embrapa Soja. |
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15. | | BERTOLLO, A. M.; ZULPO, L.; MORAES, M. T. de; DEBIASI, H.; LEVIEN, R. Produção de fitomassa e armazenamento de água com plantas de cobertura em sistemas de uso do solo. In: REUNIÃO BRASILEIRA DE MANEJO E CONSERVAÇÃO DO SOLO E DA ÁGUA, 20., 2016, Foz do Iguaçu. O solo sob ameaça: conexões necessárias ao manejo e conservação do solo e água: anais. Curitiba: SBCS-NEPAR; Londrina: IAPAR, 2016. p. 954-956. 1 Livro digital. Editado por Arnaldo Colozzi Filho, João Henrique Caviglione, Graziela Moraes de Cesare Barbosa, Luciano Grillo Gil, Tiago Santos Telles. Biblioteca(s): Embrapa Soja. |
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20. | | DEBIASI, H.; MORAES, M. T. de; FRANCHINI, J. C.; DIAS, W. P.; SILVA, J. F. V.; RIBAS, L. N. Monitamento da fertilidade do solo e da ocorrência do nematoide das lesoes radiculares em soja no Mato Grosso. In: CONGRESSO BRASILEIRO DE CIÊNCIA DO SOLO, 33., 2011, Uberlândia. Solos nos biomas brasileiros: sustentabilidade e mudanças climáticas: anais. Uberlândia: SBCS: UFU: ICIAG, 2011. 4 p. 1 CD-ROM. Título correto: Monitoramento da fertilidade do solo e da ocorrência do nematoide das lesoes radiculares em soja no Mato Grosso. Biblioteca(s): Embrapa Soja. |
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Registros recuperados : 51 | |
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Registro Completo
Biblioteca(s): |
Embrapa Soja. |
Data corrente: |
18/02/2016 |
Data da última atualização: |
03/11/2017 |
Tipo da produção científica: |
Artigo em Periódico Indexado |
Circulação/Nível: |
A - 2 |
Autoria: |
MORAES, M. T. de; DEBIASI, H.; CARLESSO, R.; FRANCHINI, J. C.; SILVA, V. R. da; LUZ, F. B. da. |
Afiliação: |
MOACIR TUZZIN DE MORAES, UFRGS; HENRIQUE DEBIASI, CNPSO; REIMAR CARLESSO, UFSM; JULIO CEZAR FRANCHINI DOS SANTOS, CNPSO; VANDERLEI RODRIGUES DA SILVA, UFSM; FELIPE BONINI DA LUZ, UFSM. |
Título: |
Soil physical quality on tillage and cropping systems after two decades in the subtropical region of Brazil. |
Ano de publicação: |
2016 |
Fonte/Imprenta: |
Soil & Tillage Research, n. 155, p. 351-362, Jan. 2016. |
ISSN: |
0167-1987 |
DOI: |
10.1016/j.still.2015.07.015 |
Idioma: |
Inglês |
Conteúdo: |
Sustainability of crop production systems depends on the preservation of soil physical quality over time. This study aimed to determine long-term effects of soil tillage and cropping systems on physical attributes and hydraulic properties of an Oxisol in Southern Brazil, emphasising management practices to preserve or improve the soil structure quality under no-tillage system. The experiment was conducted in randomized block design, using a 5 × 2 factorial arrangement (tillage × cropping systems), with four replications. The five tillage systems consisted of conventional tillage (CT); minimum tillage, chiselled soil every year (MTC1); minimum tillage, chiselled soil every three years (MTC3); continuous no-tillage for 11 years (NT11); and continuous no-tillage for 24 years (NT24). The two cropping systems consisted of annual crop sequence with wheat in the winter and soybean in the summer, designated as crop succession (CS); and a 4-year crop rotation (CR) with white lupine-maize?black oat-soybean?wheat-soybean? wheat-soybean in winter?summer, respectively. Undisturbed soil cores were collected from 0?0.10; 0.10?0.20 and 0.20?0.30 m of soil depth, to determine the soil bulk density (BD), total porosity, macroporosity, microporosity, pore size distribution and classes, soil water retention curve, infiltration rate and field-saturated hydraulic conductivity. There was no interaction between tillage and cropping systems, and no effects of cropping systems on soil physical and hydraulic properties. Regardless the cropping system, chiselling effects on soil physical properties persisted for less than 22 months, and were restricted to below 0.20 m soil depth. The CT resulted in soil pulverization at 0?0.10 m depth, leading to lower BD and higher macroporosity compared to the other soil tillage systems. At layers below 0.10 m, CT increased the BD and reduced the macroporosity to critical levels for crop growth. Continuous use of no-tillage improved soil physical quality mainly at deeper layers, and provided higher plant available water retention in the soil at matric potentials ranging from ?10 to ?200 kPa in relation to CT and MTC1. The adoption of NT improves soil physical quality and plant available water over time, and periodic soil chiselling aiming to disrupt compacted layers should be avoided because of its effects on reducing soil compaction level are short-lived. MenosSustainability of crop production systems depends on the preservation of soil physical quality over time. This study aimed to determine long-term effects of soil tillage and cropping systems on physical attributes and hydraulic properties of an Oxisol in Southern Brazil, emphasising management practices to preserve or improve the soil structure quality under no-tillage system. The experiment was conducted in randomized block design, using a 5 × 2 factorial arrangement (tillage × cropping systems), with four replications. The five tillage systems consisted of conventional tillage (CT); minimum tillage, chiselled soil every year (MTC1); minimum tillage, chiselled soil every three years (MTC3); continuous no-tillage for 11 years (NT11); and continuous no-tillage for 24 years (NT24). The two cropping systems consisted of annual crop sequence with wheat in the winter and soybean in the summer, designated as crop succession (CS); and a 4-year crop rotation (CR) with white lupine-maize?black oat-soybean?wheat-soybean? wheat-soybean in winter?summer, respectively. Undisturbed soil cores were collected from 0?0.10; 0.10?0.20 and 0.20?0.30 m of soil depth, to determine the soil bulk density (BD), total porosity, macroporosity, microporosity, pore size distribution and classes, soil water retention curve, infiltration rate and field-saturated hydraulic conductivity. There was no interaction between tillage and cropping systems, and no effects of cropping systems on soil physical and hy... Mostrar Tudo |
Thesagro: |
Física do solo; Plantio direto; Porosidade; Rotação de cultura; Solo. |
Thesaurus NAL: |
Chiseling; Crop rotation; No-tillage; Porosity; Soil physical properties. |
Categoria do assunto: |
P Recursos Naturais, Ciências Ambientais e da Terra |
Marc: |
LEADER 03345naa a2200325 a 4500 001 2037516 005 2017-11-03 008 2016 bl uuuu u00u1 u #d 022 $a0167-1987 024 7 $a10.1016/j.still.2015.07.015$2DOI 100 1 $aMORAES, M. T. de 245 $aSoil physical quality on tillage and cropping systems after two decades in the subtropical region of Brazil.$h[electronic resource] 260 $c2016 520 $aSustainability of crop production systems depends on the preservation of soil physical quality over time. This study aimed to determine long-term effects of soil tillage and cropping systems on physical attributes and hydraulic properties of an Oxisol in Southern Brazil, emphasising management practices to preserve or improve the soil structure quality under no-tillage system. The experiment was conducted in randomized block design, using a 5 × 2 factorial arrangement (tillage × cropping systems), with four replications. The five tillage systems consisted of conventional tillage (CT); minimum tillage, chiselled soil every year (MTC1); minimum tillage, chiselled soil every three years (MTC3); continuous no-tillage for 11 years (NT11); and continuous no-tillage for 24 years (NT24). The two cropping systems consisted of annual crop sequence with wheat in the winter and soybean in the summer, designated as crop succession (CS); and a 4-year crop rotation (CR) with white lupine-maize?black oat-soybean?wheat-soybean? wheat-soybean in winter?summer, respectively. Undisturbed soil cores were collected from 0?0.10; 0.10?0.20 and 0.20?0.30 m of soil depth, to determine the soil bulk density (BD), total porosity, macroporosity, microporosity, pore size distribution and classes, soil water retention curve, infiltration rate and field-saturated hydraulic conductivity. There was no interaction between tillage and cropping systems, and no effects of cropping systems on soil physical and hydraulic properties. Regardless the cropping system, chiselling effects on soil physical properties persisted for less than 22 months, and were restricted to below 0.20 m soil depth. The CT resulted in soil pulverization at 0?0.10 m depth, leading to lower BD and higher macroporosity compared to the other soil tillage systems. At layers below 0.10 m, CT increased the BD and reduced the macroporosity to critical levels for crop growth. Continuous use of no-tillage improved soil physical quality mainly at deeper layers, and provided higher plant available water retention in the soil at matric potentials ranging from ?10 to ?200 kPa in relation to CT and MTC1. The adoption of NT improves soil physical quality and plant available water over time, and periodic soil chiselling aiming to disrupt compacted layers should be avoided because of its effects on reducing soil compaction level are short-lived. 650 $aChiseling 650 $aCrop rotation 650 $aNo-tillage 650 $aPorosity 650 $aSoil physical properties 650 $aFísica do solo 650 $aPlantio direto 650 $aPorosidade 650 $aRotação de cultura 650 $aSolo 700 1 $aDEBIASI, H. 700 1 $aCARLESSO, R. 700 1 $aFRANCHINI, J. C. 700 1 $aSILVA, V. R. da 700 1 $aLUZ, F. B. da 773 $tSoil & Tillage Research$gn. 155, p. 351-362, Jan. 2016.
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