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Registro Completo |
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Biblioteca(s): |
Embrapa Solos. |
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Data corrente: |
15/12/2021 |
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Data da última atualização: |
17/12/2021 |
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Tipo da produção científica: |
Artigo em Anais de Congresso |
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Autoria: |
LANDERS, J. N.; FREITAS, P. L. de; CARVALHO, M. O. de; SILVA NETO, S. P. da; RALISCH, R. |
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Afiliação: |
JOHN N. LANDERS, FEBRAPDP; PEDRO LUIZ DE FREITAS, CNPS; MAURICIO O. DE CARVALHO, MAPA; SEBASTIAO PEDRO DA SILVA NETO, CPAC; RICARDO RALISCH, UEL. |
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Título: |
Conservation agriculture (CA) has to move on. |
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Ano de publicação: |
2021 |
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Fonte/Imprenta: |
In: WORLD CONGRESS ON CONSERVATION AGRICULTURE, 8., 2021, Bern, Switzerland. The future of farming: profitable and sustainable farming with conservation agriculture. Brussels: European Conservation Agriculture Federation, 2021. Evento online. |
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Idioma: |
Inglês |
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Conteúdo: |
After nearly five decades, zero tillage (no-till), the bedrock of CA, is dejá vu in Brazil. But CA is not just leaving the soil protected with residues or cover crops and planting/drilling crops through them, quality CA also requires a pluri-annual rotation, frequently absent. It is also evolving by incorporating new compatible and sustainable technologies. Farmers, including organic ones, are learning how to incorporate innovative biological and mechanical methods for disease, pest and weed controls, reducing pesticide and fertilizer use; the Farmer Responsibility Index underlines significant recent reductions in chemical hazards. As consumers demand greater food traceability, certification and benchmarking will continue to expand, while increasing complexities in soil, water, crop and livestock management are demanding higher skill levels and widespread use of specialized consultants. The success and longevity of the CA movement will depend on incorporating and promoting new compatible and sustainable technologies, such as biological controls, precision agriculture, controlled traffic farming, and drones for scouting and spot spraying. CA then provides land use intensification to reduce horizontal expansion, improved aquifer re-charge, erosion control and other important environmental benefits, plus increased profit and lower food prices, with less negative environmental impacts. Historically, the environment has suffered, therefore, the above urgently requires more promulgation, backed by research. To expand the scope, and hence the definition, of CA, the following questions need to be addressed: (i) can CA become the umbrella definition for all these technologies; and, (ii) how do we adjust the concept to achieve this? One approach would be a CA base definition, with clarifying adjustments, and a list of approved compatible technologies. A challenge that needs to be addressed js from the novel label "Re-generative Agriculture" (RA), not yet scientifically defined but clearly based on CA principles. One approach would be to recognize CA as a sine qua non of agricultural sustainability, especially in the tropics, and the need to define additional science-based technologies that differentiate new labels from CA. MenosAfter nearly five decades, zero tillage (no-till), the bedrock of CA, is dejá vu in Brazil. But CA is not just leaving the soil protected with residues or cover crops and planting/drilling crops through them, quality CA also requires a pluri-annual rotation, frequently absent. It is also evolving by incorporating new compatible and sustainable technologies. Farmers, including organic ones, are learning how to incorporate innovative biological and mechanical methods for disease, pest and weed controls, reducing pesticide and fertilizer use; the Farmer Responsibility Index underlines significant recent reductions in chemical hazards. As consumers demand greater food traceability, certification and benchmarking will continue to expand, while increasing complexities in soil, water, crop and livestock management are demanding higher skill levels and widespread use of specialized consultants. The success and longevity of the CA movement will depend on incorporating and promoting new compatible and sustainable technologies, such as biological controls, precision agriculture, controlled traffic farming, and drones for scouting and spot spraying. CA then provides land use intensification to reduce horizontal expansion, improved aquifer re-charge, erosion control and other important environmental benefits, plus increased profit and lower food prices, with less negative environmental impacts. Historically, the environment has suffered, therefore, the above urgently requires more ... Mostrar Tudo |
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Palavras-Chave: |
Agricultural sustainability; Farmer responsibility index; Innovative technologies; Land use intensification; Organic agriculture. |
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Thesagro: |
Agricultura. |
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Thesaurus Nal: |
Environmental impact. |
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Categoria do assunto: |
P Recursos Naturais, Ciências Ambientais e da Terra |
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URL: |
https://ainfo.cnptia.embrapa.br/digital/bitstream/item/229221/1/Conservation-agriculture-CA-has-to-move-on-2021.pdf
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Marc: |
LEADER 03182nam a2200241 a 4500
001 2137867
005 2021-12-17
008 2021 bl uuuu u00u1 u #d
100 1 $aLANDERS, J. N.
245 $aConservation agriculture (CA) has to move on.$h[electronic resource]
260 $aIn: WORLD CONGRESS ON CONSERVATION AGRICULTURE, 8., 2021, Bern, Switzerland. The future of farming: profitable and sustainable farming with conservation agriculture. Brussels: European Conservation Agriculture Federation, 2021. Evento online.$c2021
520 $aAfter nearly five decades, zero tillage (no-till), the bedrock of CA, is dejá vu in Brazil. But CA is not just leaving the soil protected with residues or cover crops and planting/drilling crops through them, quality CA also requires a pluri-annual rotation, frequently absent. It is also evolving by incorporating new compatible and sustainable technologies. Farmers, including organic ones, are learning how to incorporate innovative biological and mechanical methods for disease, pest and weed controls, reducing pesticide and fertilizer use; the Farmer Responsibility Index underlines significant recent reductions in chemical hazards. As consumers demand greater food traceability, certification and benchmarking will continue to expand, while increasing complexities in soil, water, crop and livestock management are demanding higher skill levels and widespread use of specialized consultants. The success and longevity of the CA movement will depend on incorporating and promoting new compatible and sustainable technologies, such as biological controls, precision agriculture, controlled traffic farming, and drones for scouting and spot spraying. CA then provides land use intensification to reduce horizontal expansion, improved aquifer re-charge, erosion control and other important environmental benefits, plus increased profit and lower food prices, with less negative environmental impacts. Historically, the environment has suffered, therefore, the above urgently requires more promulgation, backed by research. To expand the scope, and hence the definition, of CA, the following questions need to be addressed: (i) can CA become the umbrella definition for all these technologies; and, (ii) how do we adjust the concept to achieve this? One approach would be a CA base definition, with clarifying adjustments, and a list of approved compatible technologies. A challenge that needs to be addressed js from the novel label "Re-generative Agriculture" (RA), not yet scientifically defined but clearly based on CA principles. One approach would be to recognize CA as a sine qua non of agricultural sustainability, especially in the tropics, and the need to define additional science-based technologies that differentiate new labels from CA.
650 $aEnvironmental impact
650 $aAgricultura
653 $aAgricultural sustainability
653 $aFarmer responsibility index
653 $aInnovative technologies
653 $aLand use intensification
653 $aOrganic agriculture
700 1 $aFREITAS, P. L. de
700 1 $aCARVALHO, M. O. de
700 1 $aSILVA NETO, S. P. da
700 1 $aRALISCH, R.
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Registro original: |
Embrapa Solos (CNPS) |
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| Registros recuperados : 73 | |
| 61. |  | ÁVILA, M. T. de; BORGES, J. L. B.; RALISCH, R.; INNOCENTINI, M. D. de M.; FARINAS, C. S.; RODRIGUES, N. C. Quantificação do material particulado emitido por um motor de ciclo diesel alimentado com misturas ternárias contendo biodiesel, etanol e óleo vegetal. In: CONGRESSO DA REDE BRASILEIRA DE TECNOLOGIA DE BIODIESEL, 3., 2009, Brasília, DF. Anais... Brasília, DF: MCT, 2009. p. 973-974.| Tipo: Artigo em Anais de Congresso / Nota Técnica |
| Biblioteca(s): Embrapa Instrumentação. |
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| 62. | | ÁVILA, M. T. de; BORGES, J. L. B.; RALISCH, R.; INNOCENTINI, M. D. de M.; RODRIGUES, N. C.; FARINAS, C. S. Uso de mistura ternária renovável como substituta do diesel de petróleo. In: SIMPÓSIO SOBRE INOVAÇÃO E CRIATIVIDADE CIENTÍFICA NA EMBRAPA, 1., 2008; SIMPÓSIO SOBRE INOVAÇÃO E CRIATIVIDADE CIENTÍFICA NA EMBRAPA, 2., 2010, Brasília, DF. Trabalhos apresentados e documentos... Brasília, DF: Embrapa, 2012. 1 DVD.| Tipo: Resumo em Anais de Congresso |
| Biblioteca(s): Embrapa Soja. |
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| 63. | | MACEDO, A.; VAZ, C. M. P.; NAIME, J. M.; JORGE, L. A. C.; CRESTANA, S.; CRUVINEL, P. E.; PEREIRA, J. C. D.; GUIMARÃES, M. F.; RALISCH, R. Soil management impact and wood science: recent contributions of Embrapa Agricultural Instrumentation Center using CT Imaging. In: CRUVINEL, P. E.; COLNAGO, L. A. (Ed.). Advances in agricultural tomography. São Carlos: Embrapa Agricultural Instrumentation, 2000. p. 44-54.| Biblioteca(s): Embrapa Florestas. |
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| 64. | | MACEDO, A.; VAZ, C. M. P.; NAIME, J. M.; JORGE, L. A. C.; CRESTANA, S.; CRUVINEL, P. E.; PEREIRA, J. C. D.; GUIMARÃES, M. F.; RALISCH, R. Soil management impact and wood science: recent contributions of Embrapa Agricultural Instrumentation Center using CT Imaging. In: CRUVINEL, P. E.; COLNAGO, L. A. (Ed.). Advances in agricultural tomography. São Carlos: Embrapa Agricultural Instrumentation, 2000. p. 44-54.| Biblioteca(s): Embrapa Instrumentação. |
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| 65. | | CARNEIRO, C. E. A.; MELEM JUNIOR, N. J.; AZEVEDO, M. C. B.; ANDRADE, E. A.; KOGUISHI, M. S.; DIEHL, R. C.; RICCE, W. S.; PASSARIN, A. L.; VAZ, R. H. M.; STELMACHUK, T. L. L.; GUIMARÃES, M. F.; RALISCH, R. Carbono orgânico total e frações lábil e residual de um latossolo vermelho eutroférrico sob sistemas de manejo. In: REUNIÃO BRASILEIRA DE FERTILIDADE DO SOLO E NUTRIÇÃO DE PLANTAS, 27., REUNIÃO BRASILEIRA SOBRE MICORRIZAS, 11., SIMPÓSIO BRASILEIRO DE MICROBIOLOGIA DO SOLO, 9., REUNIÃO BRASILEIRA DE BIOLOGIA DO SOLO, 6., 2006, Bonito, MS. A busca das raízes: anais... Bonito: SBM; Dourados: Embrapa Agropecuária Oeste, 2006. 1 CD-ROM. (Embrapa Agropecuária Oeste. Documentos, 82).| Tipo: Artigo em Anais de Congresso |
| Biblioteca(s): Embrapa Amapá. |
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| 66. | | NUNES, A. L. P.; CORTEZ, G. L. de S.; MELO, T. R.; FIGUEIREDO, A.; WANDSCHEER, C. A. R.; BORTOLUZZI, J.; BROWN, G. G.; BARTZ, M. L. C.; RALISCH, R.; GUIMARÃES, M. de F. Farm systems, soil chemical properties, and clay dispersion in watershed areas. Pesquisa Agropecuária Brasileira, v. 55, e01279, 2020. Título em português: Sistemas de manejo, atributos químicos do solo e dispersão de argila em áreas de microbacias.| Tipo: Artigo em Periódico Indexado | Circulação/Nível: A - 2 |
| Biblioteca(s): Embrapa Florestas; Embrapa Unidades Centrais. |
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| 67. | | GUIMARÃES, M. F. (Org).; TAVARES FILHO, J.; GUIMARÃES, C. C. M.; CASTRO FILHO, C.; VAZ, C. M. P.; MORAES, M. H.; ZIMBACH, C. R. L.; JORGE, L. A. C.; RALISCH, R. Manual de metodologias para avaliação de manejo do solo. Londrina : Editora UEL, 1999.| Biblioteca(s): Embrapa Instrumentação. |
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| 68. | | MARTINS, A. L. da S.; CONTE, O.; OLIVEIRA, P. de; DOSSA, A. A.; DEBIASI, H.; FRANCHINI, J. C.; HERNANI, L. C.; RALISCH, R.; LEONARDO, H. C. L.; LUNARDI, L.; SALTON, J. C.; TOMAZI, M.; PITOL, C.; DE BONA, F. D.; BOEIRA, R. C. Avaliação ex ante do Índice de Qualidade Participativo do Plantio Direto (IQP) com produtores do Centro-Sul do Brasil. Rio de Janeiro: Embrapa Solos, 2018. 52 p. il. color. (Embrapa Solos. Documentos, 203).| Biblioteca(s): Embrapa Agropecuária Oeste; Embrapa Meio Ambiente; Embrapa Soja; Embrapa Solos; Embrapa Trigo. |
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| 69. | | GORTE, T.; SANTOS, A.; TONETTI, C. L.; CARDOSO, G. B. X.; NADOLNY, H.; RALISCH, R.; NUNES, A. L. P.; COQUEIRO, A. C. P.; SANTOS, M. K.; LARISSA, B.; LEANDRO, H. C. L.; BORTOLUZZI, J.; WANDSCHEER, C. A. R.; BROWN, G. G.; BARTZ, M. L. C. Abundância e riqueza de minhocas em áreas sob Sistema Plantio Direto no oeste do Paraná. In: ENCONTRO NACIONAL DE PLANTIO DIRETO NA PALHA, 15., 2016, Goiânia. Palha, ambiente e renda: resumos apresentados. Santo Antônio de Goiás: Embrapa Arroz e Feijão, 2016. p. 156. (Embrapa Arroz e Feijão. Documentos, 313).| Tipo: Resumo em Anais de Congresso |
| Biblioteca(s): Embrapa Florestas. |
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| 70. | | DOSSO, M.; ASSIS, W. S. de; MEDINA, C. de C.; CURMI, P.; GRIMADI, C.; GRIMADI, M.; GUIMARÃES, M. de F.; JOUVE, P.; MARTINS, P.; NAVEGANTES, L.; OLIVEIRA, M.; RALISCH, R.; RUELLAN, A.; SILVA, L. M. S.; SIMÕES, A.; TAVARES FILHO, J.; VEIGA, I. Agricultura ou pastagem? Papel das coberturas pedológicas na diferenciação e na transformação de sistemas agrários pioneiros no Brasil. Cadernos de Ciência & Tecnologia, Brasília, v.22, n. 1, p.185-206, jan./abr. 2005.| Biblioteca(s): Embrapa Unidades Centrais. |
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| 71. | | SANTOS, A.; GORTE, T.; DEMETRIO, W. C.; FERREIRA, T.; NADOLNY, N.; CARDOSO, G. B. X.; TONETTI, C.; RALISCH, R.; NUNES, A. P.; COQUEIRO, A. C. P.; LEANDRO, H. C. L.; WANDSCHEER, C. A. R.; BORTOLUZZI, J.; BROWN, G. G.; BARTZ, M. L. C. Earthworm species in no-tillage agroecosystems and native Atlantic forests in Western Paraná, Brazil. Zootaxa, v. 4496, n. 1, p. 517-534, Oct. 2018.| Tipo: Artigo em Periódico Indexado | Circulação/Nível: B - 1 |
| Biblioteca(s): Embrapa Florestas. |
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| 72. | | CARNEIRO, C. R. A.; MELEM JUNIOR, N. J.; AZEVEDO, M. C. B. de; ANDRADE, E. A.; KOGUISHI, M. S.; DIEHL, R. C.; RICCE, W. da S.; PASSARIN, A. L.; VAZ, R. H. de M.; STELMACHUK, T. L. da L.; GUIMARÃES, M. de F.; RALISCH, R. Efeitos dos sistemas de manejo sobre o carbono orgânico total e carbono residual de um latossolo vermelho eutroférrico. Semina, Londrina, v. 30, n. 1, p. 5-10, jan./mar. 2009.| Tipo: Artigo em Periódico Indexado | Circulação/Nível: B - 3 |
| Biblioteca(s): Embrapa Amapá. |
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| 73. | | GORTE, T.; SANTOS, A.; TONETTI, C. L.; CARDOSO, G. B. X.; NADOLNY, H.; RALISCH, R.; NUNES, A. L. P.; COQUEIRO, A. C. P.; SANTOS, M. K.; LARISSA, B.; LEANDRO, H. C. L.; BORTOLUZZI, J.; WANDSCHEER, C. A. R.; BROWN, G. G.; BARTZ, M. L. C. Minhocas em áreas sob Sistema Plantio Direto ao longo dos anos no oeste do Paraná. In: ENCONTRO NACIONAL DE PLANTIO DIRETO NA PALHA, 15., 2016, Goiânia. Palha, ambiente e renda: resumos apresentados. Santo Antônio de Goiás: Embrapa Arroz e Feijão, 2016. p. 155. (Embrapa Arroz e Feijão. Documentos, 313).| Tipo: Resumo em Anais de Congresso |
| Biblioteca(s): Embrapa Florestas. |
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| Registros recuperados : 73 | |
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| Nenhum registro encontrado para a expressão de busca informada. |
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