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6. | | PENA, I.; MANCINI, A. L.; MAZONI, I.; JARDINE, J. G.; NESHICH, G.; ORTEGA, J. M. Identification of philogenetic relationship between GDPD and SMaseD proteins based on active site amino acid physical chemical properties. In: INTERNATIONAL CONFERENCE OF BRAZILIAN ASSOCIATION FOR BIOINFORMATICS AND COMPUTATIONAL BIOLOGY, 4., 2008, Salvador. Proceedings... Salvador: AB³C, 2008. Não paginado. X-Meeting 2008. Biblioteca(s): Embrapa Agricultura Digital. |
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8. | | BATISTA, L.; PEÑA, I.; LUIS, M.; ACOSTA, I.; HERNÁNDEZ, L.; LLAUGER, R.; BARBOSA, F. F. L. Analysis of citrus huanglonbing spatial dynamics in non-intervened groves of Cuba by Spatial Analysis by Distance Indices (SADIE). In: INTERNATIONAL CITRUS CONGRESS, 22., 2012.Valencia. Book of abstracts. Valencia: International Society of Citriculture; Instituto Valenciano de Investigaciones Agrarias; Fundación Agroalimed, 2012. Documento eletrônico. S12P43. Biblioteca(s): Embrapa Mandioca e Fruticultura. |
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12. | | DONAGEMMA, G. K.; BECKER, A. A. D.; BALIEIRO, F. de C.; GONÇALVES, A. O.; FREITAS, P. L. de; MESQUITA JUNIOR, A.; PENA, I. Controle de erosão em sistemas agroflorestais manejados por comunidades quilombolas, na cidade do Rio de Janeiro. In: CONGRESSO LATINO-AMERICANO DE CIÊNCIA DO SOLO, 23.; CONGRESSO BRASILEIRO DE CIÊNCIA DO SOLO, 38., 2023, Florianópolis. Anais [...]. Florianópolis: Epagri, 2023. p. 1006. Ref. ID 626. Biblioteca(s): Embrapa Solos. |
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13. | | BALIEIRO, F. de C.; MARTINS, A. L. da S.; DONAGEMMA, G. K.; SILVA, E. F. da; TURETTA, A. P. D.; SCHULER, A. E.; PEDREIRA, B. da C. C. G.; CAPECHE, C. L.; STUCHI, J. F.; BEKER, A. A. P. D.; MESQUITA JUNIOR, A.; MENDONÇA, M. M.; PENA, I. A. de B. Comunidades quilombolas do Maciço da Pedra Branca preservam o solo da maior floresta urbana do planeta e incrementam seus estoques de carbono do solo. Rio de Janeiro: AS-PTA Agricultura Familiar e Agroecologia, 2023. 8 p. Informe técnico. Biblioteca(s): Embrapa Solos. |
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14. | | RODRIGUES, A. F.; LATAWIEC, A. E.; REID, B. J.; SOLÓRZANO, A.; SCHULER, A. E.; LACERDA, C.; FIDALGO, E. C. C.; SCARANO, F. R.; TUBENCHLAK, F.; PENA, I.; VICENTE-VICENTE, J. L.; KORYS, K. A.; COOPER, M.; FERNANDES, N. F.; PRADO, R. B.; MAIOLI, V.; DIB, V.; TEIXEIRA, W. G. Systematic review of soil ecosystem services in tropical regions. Royal Society Open Science, v. 8, n. 3, 201584, Mar. 2021. Biblioteca(s): Embrapa Solos. |
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Registros recuperados : 14 | |
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Registro Completo
Biblioteca(s): |
Embrapa Soja. |
Data corrente: |
01/03/2011 |
Data da última atualização: |
17/04/2018 |
Tipo da produção científica: |
Resumo em Anais de Congresso |
Autoria: |
CERDEIRA, A. L.; GAZZIERO, D. L. P.; DUKE, S. O. |
Afiliação: |
ANTONIO LUIZ CERDEIRA, CNPMA; DIONISIO LUIZ PISA GAZZIERO, CNPSO; STEPHEN O. DUKE, USDA-ARS. |
Título: |
Environmental impacts of transgenic glyphosate-resistant soybean cultivation in Brazil. |
Ano de publicação: |
2010 |
Fonte/Imprenta: |
In: ACS NATIONAL MEETING & EXPOSITION, 239., Spring 2010, San Francisco. Abstracts... San Francisco: American Chemistry Society, 2010. |
Idioma: |
Inglês |
Conteúdo: |
Glyphosate-resistant soybeans (GRS) effects on contamination of soil, water, and air are minimal, compared to those caused by the herbicides that they replace when GRS are adopted. Transgenes encoding glyphosate resistance in soybeans are highly unlikely to be a risk to wild plant species in Brazil. GRS resulted in a significant shift to no-tillage practices, but weed resistance may reduce this trend. Probably the highest agricultural risk in adopting GRS in Brazil is related to weed resistance due to use of glyphosate. Weed species in GRS fields have shifted in Brazil to those that can more successfully withstand glyphosate or to those that avoid the time of its application. These include Chamaesyce hirta, Commelina benghalensis, Digitaria insularis, Spermacoce latifolia, Richardia brasiliensis, and Ipomoea spp. Four weed species, Conyza bonariensis, Conyza Canadensis, Lolium multiflorum, and Euphorbia heterophylla, have evolved resistance to glyphosate in GRS in Brazil. Conyza spp are the most difficult to control. |
Thesagro: |
Impacto ambiental; Planta Transgênica; Soja. |
Thesaurus NAL: |
Environmental impact; Soybeans; Transgenic plants. |
Categoria do assunto: |
F Plantas e Produtos de Origem Vegetal |
URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/35811/1/Result-Content-View.pdf
|
Marc: |
LEADER 01707nam a2200205 a 4500 001 1879611 005 2018-04-17 008 2010 bl uuuu u00u1 u #d 100 1 $aCERDEIRA, A. L. 245 $aEnvironmental impacts of transgenic glyphosate-resistant soybean cultivation in Brazil. 260 $aIn: ACS NATIONAL MEETING & EXPOSITION, 239., Spring 2010, San Francisco. Abstracts... San Francisco: American Chemistry Society$c2010 520 $aGlyphosate-resistant soybeans (GRS) effects on contamination of soil, water, and air are minimal, compared to those caused by the herbicides that they replace when GRS are adopted. Transgenes encoding glyphosate resistance in soybeans are highly unlikely to be a risk to wild plant species in Brazil. GRS resulted in a significant shift to no-tillage practices, but weed resistance may reduce this trend. Probably the highest agricultural risk in adopting GRS in Brazil is related to weed resistance due to use of glyphosate. Weed species in GRS fields have shifted in Brazil to those that can more successfully withstand glyphosate or to those that avoid the time of its application. These include Chamaesyce hirta, Commelina benghalensis, Digitaria insularis, Spermacoce latifolia, Richardia brasiliensis, and Ipomoea spp. Four weed species, Conyza bonariensis, Conyza Canadensis, Lolium multiflorum, and Euphorbia heterophylla, have evolved resistance to glyphosate in GRS in Brazil. Conyza spp are the most difficult to control. 650 $aEnvironmental impact 650 $aSoybeans 650 $aTransgenic plants 650 $aImpacto ambiental 650 $aPlanta Transgênica 650 $aSoja 700 1 $aGAZZIERO, D. L. P. 700 1 $aDUKE, S. O.
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Embrapa Soja (CNPSO) |
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